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Article

Contribution to the Orophilous Cushion-Like Vegetation of Central-Southern and Insular Greece

by
Carmelo Maria Musarella
1,*,
Salvatore Brullo
2 and
Gianpietro Giusso del Galdo
2
1
Department of AGRARIA, Mediterranean University of Reggio Calabria, 89122 Reggio Calabria, Italy
2
Department of Biological, Geological and Environmental Sciences, University of Catania, 95125 Catania, Italy
*
Author to whom correspondence should be addressed.
Plants 2020, 9(12), 1678; https://doi.org/10.3390/plants9121678
Submission received: 22 July 2020 / Revised: 21 October 2020 / Accepted: 5 November 2020 / Published: 30 November 2020
(This article belongs to the Special Issue Threatened Vegetation and Environmental Management)

Abstract

:
The results of a phytosociological investigation regarding the orophilous cushion-like vegetation occurring in the top of the high mountains of central-southern Greece and in some Ionian (Lefkas, Cephalonia) and Aegean Islands (Euboea, Samos, Lesvos, Chios and Thassos) are provided. Based on 680 phytosociological relevès (460 unpublished and 220 from literature), a new syntaxonomical arrangement is proposed with the description of a new class, including two new orders, eight new alliances, and several associations (many of them new). Compared to the previous hierarchical framework usually followed in the literature, this study provides a more realistic and clear phytosociological characterization of this peculiar and archaic vegetation type, which is exclusive to the high mountains of the north-eastern Mediterranean. The new arrangement is mainly based on the phytogeographical role of the orophytes featuring this very specialized vegetation, which is essentially represented by endemics or rare species belonging to the ancient Mediterranean Tertiary flora. In addition, taxonomic research on the orophilous flora occurring in these plant communities allowed to identify six species new to science (i.e., Astragalus corinthiacus, Allium cremnophilum, A. cylleneum, A. orosamium, A. karvounis, and A. lefkadensis) and a new subspecies (i.e., Allium hirtovaginatum subsp. samium), and two new combinations (i.e., Astragalus rumelicus subsp. euboicus and subsp. taygeticus) are proposed.

1. Introduction

The orophilous cushion-like vegetation colonizing the cacuminal stands of the highest mountains of the Mediterranean territories has always aroused a lot of interest from botanists, mainly for the occurrence of a peculiar and specialized flora. It is represented usually by relict taxa (species and subspecies), mainly endemic adapted to hard environmental conditions, which are aggregated in physiognomically well differentiated plant communities [1,2].
Many plants that characterize these phytocoenoses (usually localized at high altitude) belong to the ancient Tertiary Mediterranean flora. They are represented mostly by dwarf nanophanerophytes and chamaephytes mixed with caespitose hemicryptophytes which form plant communities often covering large surfaces. This ecologically specialized vegetation is associated and adapted to long wintry periods of lasting snow cover (sometimes till late spring), as well as to prolonged summer droughts with intense winds. It occurs mostly on rocky places with undeveloped and immature soils due to the prevailing harsh climatic conditions and wide diurnal and annual variations. Such factors seem to converge to climatic conditions of the temperate cold climate inserted in the Mediterranean context [3].
This leads to a strong contrast between the winter-spring period, which is very rigid and cold, and that summer-autumn one, generally very hot and dry. Therefore, the plants that thrive in these high-mountain stands (generally ranging from about 1000 to 4000 m of elevation in Mediterranean area are evolutionarily adapted to very peculiar climatic conditions shaping significant ecological specializations and concomitant range restrictions, that, in most cases, not allows them to live outside of these habitats. Therefore, they can be considered as typical Mediterranean orophytes that often have well circumscribed or punctiform distribution patterns and are well differentiated taxonomically from other closely related taxa. Among these high-mountain plants, it is possible to identify vicariants due to speciation processes and geographical or ecological isolation.
The occurrence of dwarf shrubs in these Mediterranean mountains is very significant; such species have a typical thorny and compact cushion-like habit, inside which many delicate herbaceous species take refuge due to higher humidity compared to the exterior one, with their vegetative and floral structures protruding from them. Among these, an important physiognomic-structural role is played mainly by thorny species of Astragalus, which often dominate in many plant communities.
In the central and western Mediterranean few of species belonging to this group of Astragalus usually occur. They are mainly represented by endemic species disjunctly distributed among some mountain tops, for example: Astragalus granatensis Lam. in Spain and northern Africa, A. nevadensis Boiss. in southern Spain, A. genargenteus Moris and A. gennarii Bacchetta & Brullo in Sardinia, A. greuteri Bacchetta & Brullo in Corsica, A. calabricus Fischer in Calabria, A. sirinicus Ten. in southern Apennines, while in Sicily there are A. siculus Biv. in the Etna volcano and A. nebrodensis Guss. in the Madonie massif [4]. Conversely, Astragalus species with tragacanthoid habit are much more numerous and widespread in the mountains of the eastern Mediterranean territories, which reach their maximum diversity in Anatolia. In particular, in the mountains of the Balkan Peninsula and of some Aegean islands the species of thorny Astragalus are more frequent, such as: A. angustifolius Lam. s.l., A. rumelicus Bunge s.l., A. creticus Lam., A. cylleneus Boiss. & Heldr., Astragalus calavrytensis Beauverd & Topali, A. cephalonicus C. Presl, A. thymphresteus Boiss. & Spruner, A. parnassi Boiss., A. taygeteus Persson & Strid, A. thracicus Griseb., A. condensatus Ledeb., Astragalus lesbiacus P. Candargy, A. dolinicolus Brullo & Giusso, etc. [5].
Apart from the Astragalus sp.pl., there are also other orophytes belonging to other genera or species complex that are characterised by morphological peculiarities and ecological adaptations, which are well distinct from other ones closely related taxa found in coastal or hilly places (geographical or ecological vicariants). In the eastern Mediterranean area, the following groups of taxa can be quoted as examples:
(a)
Cerastium candidissimum Correns, replaced in the Apennines and Sicily by C. tomentosum L., in Sardinia by C. supramontanum Arrigoni and in Corsica by C. soleirolii Duby [6,7,8].
(b)
Marrubium cylleneum Boiss. & Heldr., distributed in the northern Peloponnese, which is vicaried by M. velutinum Sibth. & Sm. in the central Greece and M. thessalum Boiss. & Heldr. in the northern Balkans [9].
(c)
Sideritis clandestina (Bory & Chaub.) Hayek is represented by the subsp. clandestina in the southern Peloponnese, and by the subsp. peloponnesiaca (Boiss. & Heldr.) Baden in northern Peloponnese, while it is vicariated by S. raeseri Boiss. & Heldr. subsp. raeseri in central and northern Greece, S. euboea Heldr. on the island of Evvoia, S. scardica Griseb. in the north and central Greece and former Yugoslavia, S. sipylea Boiss. in the eastern Aegean area, S. syriaca L. subsp. syriaca in Crete, S. sicula Ucrìa in Sicily and S. italica (Miller) Greuter & Burdet in the central-southern Italy [10,11].
(d)
Nepeta argolica Bory ex Chaub. is distributed in the Peloponnese and Sterea Ellas, replaced by N. dirphya (Boiss.) Heldr. in Euboea, N. parnassica Heldr. & Sartr. ex Boiss. in the Mts. Parnassus and Chelmos, N. spruneri Boiss. in the North-central Greece, N. camphorata Boiss. & Heldr. in Taygetos, N. sphaciotica Davis in Crete, N. orphanidea Boiss. in Mt. Parnon and N. italica L. in Samos and West Anatolia [12].
(e)
Carlina frigida Boiss. & Heldr. widespread in central-southern Greece, which is replaced by C. biebersteinii Hornem. subsp. brevibracteata (Andrae) K. Werner in the northern Balkans, C. curetum Heldr. in Crete, C. macrocephala Moris in Sardinia and Corsica, C. nebrodensis Guss. in Sicily and South Italy [13,14].
(f)
Sesleria vaginalis Boiss. & Orph. widespread in Greece, replaced by S. robusta Schott et al. in the northern Balkans, S. anatolica Deyl in Samos and Anatolia, S. achtarovii Deyl in Thassos and eastern Balkans, S. nitida Ten. s.l. in Sicily and central-southern Apennines [13,15].
(g)
Erysimum pusillum Bory & Chaub., endemic to southern Peloponnese, replaced by E. cephalonicum Polatsc. in northern Peloponnese and central Greece, E. parnassi (Boiss. & Heldr.) Hausskn. in the Parnassus, E. olympicum Boiss. in the Mount Olympus (Greece), E. mutabile Boiss. & Heldr. and E. raulinii Boiss. in Crete, E. bonannianum C.Presl and E. etnense Jord. in Sicily [13,16].
(h)
Viola graeca (W. Becker) Halácsy, widespread in central Greece and northern Peloponnese, replaced in the southern Peloponnese by V. parnonia Kit Tan & al. in Mt. Parnon, V. sfikasiana Erben on Mt. Taygetos, V. euboea (Halácsy) Halácsy in Euboea, V. epirotica (Halácsy) Raus in Pindos ranges, Viola stojanowii W. Becker in Sterea Ellas, V. fragrans Sieber in Crete, V. nebrodensis C. Presl and V. aethnensis (Ging. & DC.) Strobl in Sicily, V. corsica Nyman in Corsica and Sardinia [13,17].
(i)
Armeria orphanidis Boiss., distributed in southern Greece, which is vicariate in other Mediterranean mountains by A. nebrodensis (Guss.) Boiss. on Madonie in Sicily, A. aspromontana Brullo, Scelsi & Spamp. in Aspromomte (southern Calabria), A. brutia Brullo, Gangale & Uzunov in Sila (northern Calabria), by A. sardoa Spreng. in Sardinia and A. multiceps Wallr. in Corsica [18,19].
From the dynamic point of view, these plant communities reach full expression and maturity in the cacuminal stands above 1700–1800 m of altitude, where they usually play a climatophilous role, replacing the forest vegetation that generally stops below the aforesaid altitude, usually corresponding to the timberline.
Examples of this type of vegetation are also frequent between 900 and 1700 m of altitude, in correspondence of summit areas or ridges of mountains in which there are very harsh conditions, due to several environmental factors. In these peculiar environmental conditions, these communities will not constitute typical climatophilous associations, but assume an edaphophilous role or sometimes secondary one due to the processes of degradation of the woodlands.
This type of vegetation, occurring in the several mountain ranges of the Mediterranean area, was studied previously by several authors, using the phytosociological sigmatist approach. In particular, object of these researches regarded the pulvinar orophilous vegetation of several massifs, as: Sierra Nevada in southern Spain [20], Atlas Mountains in North Africa [21], as well as many high mountains of Corsica [22,23], Sardinia [2,24,25], Sicily [2,26,27,28,29,30,31], Calabria in southern Italy [32,33,34], Greece [35,36,37,38,39,40,41,42,43,44], Crete [45,46], Anatolia [47,48,49,50], and Cyprus [51].
In order to improve the knowledge of this type of orophilous vegetation, a study on main mountain massifs of Central and Southern Greece (Sterea Ellas and Peloponnese) was carried out. These phytosociological investigations were also extended to the mountains of some islands of Ionian area (Lefkada and Cephalonia) and of eastern and northern Aegean, such as Euboea, Samos, Lesvos, Chios and Thassos, where there are mountains colonized in the top by pulvinar orophilous plant communities. The aim of this paper was to investigate the orophilous pulvinar vegetation of this area of the eastern Mediterranean, since this region still lacks a detailed approach from the phytosociological viewpoint and there is a need to fully clarify the issues regarding their syntaxonomical arrangement and related nomenclatural aspects.
However, it has been noted that in some cases these plant communities can make catenal contacts with orophilous conifer forests having often a prostrate or pulvinate habit, which can be considered as the last vestiges of the ancient dwarf forests, that at the end of Miocene covered in a massive and widespread way the peaks of the high Mediterranean mountains [52,53,54,55,56,57]. It is possible to observe in this vegetation the dominance of conifers (mostly big shrubs or small trees belonging to the genus Juniperus, Pinus and Abies that are usually associated to several other orophilous, often thorny, shrubs), among which there are various species of the genera Berberis, Cerasus, Ribes, Rosa, Sorbus, Daphne, Rhamnus, etc. These relict forests belonging to the class Pino-Juniperetea sylvestris Rivas-Martínez 1965 are widespread in all the Mediterranean area and, in particular, in the eastern territories, they are represented by the order Berberido creticae-Juniperetalia excelsae Mucina in Mucina et al. 2016, with several alliances and associations described by Brullo et al. [57].

1.1. Study Area

The mountain ranges and massifs, that have been investigated in this study, are located in Southern Sterea Ellas and Attica (Parnassus, Giona, Vardoussia, Timfristos, Parnis (or Parnitha) and Kitheronas (or Kithaeronas)), in Peloponnese (Panachaiko, Erimanthos, Klokos, Chelmos, Killini, Menalon, Taygetos, and Parnon) and in some Islands of the Ionian (Lefkas and Cephalonia) and Aegean area (Euboea, Thassos, Lesvos, Samos, and Chios) (Figure 1).

1.1.1. Sterea Ellas and Attica

From the geographical point of view, the high mountains of central Greece distributed to the north of Gulf of Corinth, falling in Sterea Ellas and Attica, are represented by the three main mountain massifs: Parnassus, Giona and Vardoussia, all characterized by peaks with altitudes above 2000 m, as well as other lower mountains like Mt. Kitheronas and Mt. Parnis.
  • Mt. Parnassus
This mountain range is spread from north to south for about 25 km and has numerous peaks, many of which exceed 2100 m: Liákoura (2455 m), Kotróni (2428 m), Tsarkos (2415 m), Gérontovrakhos (2395 m), Koukos (2234 m), Mávra Lithári (2334 m), Raïdhólakka (2328 m), énneza (2328 m), Kalogiros (2327 m), Tsarkoraki (2322 m), Arnóvrissi (2259 m), and Sési (2120 m). The substrates are essentially constituted by carbonate rocks, consisting mostly of Mesozoic dolomites and limestones. The landscape is mainly rocky with walls and dolines. The bioclimate between 1000 and 1500 m falls within meso-Mediterranean sub-humid, while up to 2000 m is of supra-temperate sub-Mediterranean type; over 2000 m it is replaced by oro-temperate sub-Mediterranean one. The average annual temperatures range between 11 °C and 5 °C, related to the altitude, while the annual rainfall average ranges from 800 to 1000 mm. Up to about 1700 m scattered forests dominated by Abies cephalonica occur, which are usually mixed to dwarf shrubs conipher communities and cushion-like orophilous vegetation: the latter, becomes dominant above 1700 m of altitude. Previously, these shrub communities were investigated by Quézel [35].
  • Mt. Giona
It is a large mountain massif with rather blunt peaks spread over a large area. The highest peak is Piramídha (2507 m), followed at lower altitudes by Traghonoros (2456 m), Makrivlakos (2302 m), Plativoúna (2316 m), Profitis Ilias (2298 m), Pirgákia (2191 m), Vraïla (2177 m), Kastro (2176 m), Stállos (2128 m), and Plativouni (2122 m). The substrates are mostly constituted by Mesozoic dolomites with numerous plateaux and valleys and scattered dolines. In this area the bioclimate has the same characteristics as that shown for the Mount Parnassus: in particular, the annual average temperatures range between 10 °C and 5 °C, while the mean annual rainfall is between 800 and 1000 mm. According to Quézel [35], the timberline of Abies cephalonica forests is around 1700 m, while above this altitude, the landscape is dominated by cushion-like shrubs, often mixed to grasslands.
  • Mt. Vardoussia
This massif is long 45 km, with various peaks oriented from north to south, separated into two blocks by the valley of Kanavorema river. The highest peak is Korakas (2495 m) which is followed by Kókkini Tsoúma (2414 m), Skórda Ptimalikoú (2413 m), Klisoura (2403 m), Kokiniás (2383 m), Vouno Chomirianis (2293 m), Korakia (2148 m), and Sinani (2054 m).
The substrates consist mainly of Mesozoic limestones. The landscape is characterized by rocky cliffs interspersed to ridges with rocky slopes. Screes and snowy valleys are also frequent. The bioclimate below 1700 m ranges from meso-to supra-temperate in the sub-Mediterranean variant, while at higher altitudes it falls in the supra- and oro-temperate belt.
The annual average temperatures between 1000 and 1700 m of altitude range from 11 to 8 °C, reaching values of 5–4 °C above 1700 m. The annual rainfalls range from 800 to 1000 mm in relation to altitude. As highlighted by Quézel [38], the forests between 1600 and 1800 m are represented by woodlands of Abies cephalonica, while at higher altitudes the communities of cushion-like shrubs are dominant. Between 1800 and 2000 m, this vegetation is associated to Juniperus foetidissima with scattered individuals.
  • Mt. Timfristos
This mountain is located at the northernmost of Sterea Ellas, at the northern side of Mt. Vardoussia. The highest peak is Veluchi (2315 m), which is followed by Symbetheriako (2104 m), Anemos (1998 m), Kumbi (1863 m), etc. Geologically, Mt. Timfristos is represented by Mesozoic limestones mixed with schits and cherts (Mountrakis 1985). As concerns its bioclimatology, it shows the same characteristcs mentioned for Mt. Vardoussia.
  • Mt. Kitheronas
It is an isolated mountain located west of Mt. Parnitha, reaching in the Profitis Ilias the altitude of 1409 m. It consists of Mesozoic limestones with very steep slopes and a small plateau at the top where an orophilous shrub vegetation is located.
  • Mt. Parnis
This massif located north-west of Athens, also known as Mt. Parnitha, is characterized by several peaks: Karavola (1413 m), Ornio (1350 m), Mavrovouni (1091), etc. The bioclimate of this area falls within the meso-Mediterranean subhumid belt, with an annual average precipitation about 790 mm. Geologically it consists of Mesozoic limestones and schists. Examples of orophilous dwarf-shrub vegetation are usually frequent at an altitude above 1100 m. Some observations on the orophilous vegetation are reported by Aplada et al. [58].

1.1.2. Peloponnese

The Peloponnese is the southernmost part of mainland Greece, separated from the mainland by the Gulf of Corinth which in the past was united by the homonymous Isthmus (now Channel). This peninsula has a surface of 21,400 km2 that, apart from few coastal plains, is almost entirely mountainous. The main massifs are located in the northern part of Achaia, along the coastal strip corresponding to the southern side of the Corinth Gulf, among them there are Mt. Panachaiko, Mt. Erimanthos, Mt. Klokos, Mt. Chelmos, Mt Killini, and Mt. Menalon, some with peaks higher than 2000 m. Other mountain ranges occur in the southern part of the Peloponnese: among them the most important are Mt. Taygetos in Arkadia and Mt. Parnon in Lakonia. In particular, on Taygetos the altitude of 2400 m is reached.
  • Mt. Panachaiko
Panachaiko is the mountain range with the northernmost position than any other mountain in the Peloponnese. It is located south of Patras, peaking almost 2000 m of elevation. Its summit reaches, in fact, 1924 m and is characterized by ridges with rocky walls overhanging extended screes. The substrates consisting of dolomites and limestones dating back to the Mesozoic, usually with very sloped and rocky surfaces. From a bioclimatic point of view, this mountain area falls mainly within the meso-Mediterranean belt, and only in the highest part, above 1600–1700 m, it tends toward the supra-temperate sub-Mediterranean one. The ombrotypes range from the sub-humid to humid, with average annual rainfall reaching 1000 mm. The annual average temperatures range between 8 °C and 10 °C. Due to the remakable acclivity of the surfaces, the orophilous cushion-like communities are quite widespread and well represented from the 1500–1600 m of altitude. Currently, there are no phytosociological data about this type of vegetation on this mountain.
  • Mt. Erimanthos
It is located in the northwestern part of the Peloponnese, south of Panachaiko, and forms a range oriented from NE to SW with various rocky peaks, including Mt. Granitis (2221 m), Mt. Barba (2169 m) and Mt. Profitis Ilias (2124 m). Other peaks forming part of this massif range are: Mt. Pirgako (2050 m), Mt. Kallifoni (1996 m), Mt. Lepida (1893 m), Mt. Psili Tourla (1891 m), Mt. Gnaikes Tris (1834 m) and Mt. Lambia (1793 m). The substrates are usually represented by limestones, radiolarites and, sometimes, scists. The bioclimate, between 1600 m and 1900 m of altitude, falls within the supra-temperate sub-Mediterranean belt, while above 1900–2000 m in the oro-temperate sub-Mediterranean one. At altitudes below 1600 m, the surfaces are affected by a meso-Mediterranean termotype. As regards the ombrotype, it ranges from the lower to the upper humid, with average annual rainfall of 1000–1400 mm. The annual averages temperatures are around 8–5 °C, with significantly lower values on the eastern side which is characterized by a higher continentality. The tree vegetation is represented by woodlands of Abies cephalonica, that are widespread up to 1600–1700 m, while at higher altitudes, not exceeding 1800–1900 m, there are examples of open and spaced dwarf woods of Juniperus foetidissima, usually mixed with cushion-like communities, that in the higher peaks become dominant. Previously, a study of this hemicrypto-chamaephytic orophylous vegetation, was carried out by Maroulis and Georgiadis [44].
  • Mt. Klokos
This mountain is located at south-east of M. Panachaiko, characterized by carbonatic substrates consisting mainly of dolomites. The summit reaches 1778 m in altitude and coincides with the uppermost part of a large rocky face. The landscape is very rough due to the presence of ridges, very steep slopes, and screes. This mountainous area is characterized by a bioclimate falling mostly in sub-humid meso-Mediterranean belt which, at the summit, tends toward the supra-temperate sub-Mediterranean one. Average annual temperatures range between 8 °C and 9 °C, while the average annual rainfall reaches 900–1000 mm. The highest part of the mount is essentially characterized by thorny pulvinate communities, covering the most part of the surfaces. So far, there are no studies on the vegetation of this mountain.
  • M. Chelmos
Mt. Chelmos, also called “Aroania”, is one of the main massifs of northern Peloponnese, with several peaks topping 2000 m in altitude, such as Psili Korfi (2355 m), Neraïdorachi (2339 m), Kato Kambos (2318 m), Profitis Ilias (2282 m), Ghardhiki (2182 m) and Augo Anghio (2138 m). The substrates consist mainly of Mesozoic limestones and dolomites, sometimes with outcrops of marls and clays. The landscape is very harsh and rugged with numerous ridges, very steep slopes, screes and valleys. At elevations higher than 1500–1600 m, the bioclimate falls into supra-temperate sub-Mediterranean belt, while above 1800–1900 m of altitude it is of oro-temperate sub-Mediterranean type, with average annual temperatures between 9 °C and 5 °C. The ombrotype is comprised between the upper sub-humid and the lower humid, with annual average rainfall reaching 900–1200 mm. In the mountain belt, at an altitude lower than 1500 m, the bioclimate is attributable to meso-Mediterranean sub-humid. The forest vegetation is represented by Abies cephalonica woodlands or, limitedly to marly substrata, by pine wood of Pinus pallasiana. In the higher stands, coinciding with the peaks and the steep rocky slopes, the surfaces are covered by orophilous pulvinate communities. Investigations on this vegetation, were previously carried out by Quézel and Katrabassa [40].
  • Mt. Killini
Mt. Killini, also known as “Ziria”, is a mountain range with several peaks topping 2000 m in altitude, including Megali Ziria or Simio (2374 m), Profitis Ilias (2259 m), Kokinovrakos (2168 m), Michri Ziria or Kioni (2082 m), Paraga (2032 m), and Tsouma (2021 m). It is located in the north-eastern sector of the Peloponnese, at south-east of Mt. Chelmos. The substrates are mostly of carbonatic origin and are represented by dolomites and various types of limestones (bioclastic blackish, in plaques or compact). The landscape is quite soft with smoothed summits, interspersed with dolines and plateaux, while poorly developed are the rock walls and screes. Below 1800 m, the bioclimate falls into supra-temperate sub-Mediterranean belt, while above 1800–1900 m falls into oro-temperate sub-Mediterranean one, with ombrotype upper sub-humid. Average annual temperatures in relation to the altitude, range from 10 to 6 °C, with average annual rainfall comprised between 900 and 1000 mm. The mountain forests between 1400 and 1800 m are represented by open woodlands with Juniperus foetidissima or sometimes Acer monspessulanum, usually mixed with orophilous pulvinate communities that above 1800 m become dominant. Previously, phytosociological investigations were carried out by Quézel [35] and Georgiadis and Dimopoulos [42].
  • Mt. Menalon
It is a small mountain range, located at north of Tripoli, in the north-central part of the Peloponnese. The highest peaks are Ostrakina (1980 m), Tzeláti (1875 m) and Kendhrovouni (1730 m), showing not much sloping and bland surfaces. The substrates are prevalentely represented by limestones in plaques and dolomites. The bioclimate above 1500–1600 m of altitude, falls into supra-temperate sub-Mediterranean belt, with annual average temperatures of 9–8 °C, and annual average rainfall of 900–1000 mm. In the highest part, the vegetation is mainly represented by orophilous pulvinate communities, while at elevations lower than 1500 m occur Abies cephalonica woodlands. So far, this mountainous area had not yet been investigated from the phytosociological point of view.
  • Mt. Parnon
The mountain range of Parnon occupies the eastern part of the southern Peloponnese and consists of not very high peaks (below 2000 m). The highest peaks are Megali Tourla (1934 m), Psari (1839 m), Gaïdanórrachi (1801 m), Profitis Ilias near Agriani (1780 m), Profitis Ilias near Polidroso (1762 m), Koulochera (1760 m), and Prezesi (1701 m). The substrates are represented by Mesozoic limestones and dolomites. The massif has a north-south direction with peaks rather mild interrupted by wide valleys that give a marked discontinuity. The bioclimate falls within Mediterranean Oceanic Pluviseasonal with thermotypes between meso-Mediterranean, at altitudes lower than 1500 m and supra-Mediterranean at higher altitudes. The ombrotype is attributable to sub-humid, with annual average rainfall of 900–1000 mm. The annual average temperatures are around 10–9 °C or even lower (7–8 °C) at the highest peaks. Currently, the woodlands appear very degraded with patches occurring up to an altitude of 1600–1700 m, and are characterized by the dominance of Abies cephalonica. Instead, the pulvinate thorny communities are widespread and well represented in the summit stands. Currently, no vegetation data are available on this mountain range.
  • Mt. Taygetos
Mt. Taygetos consists of a long chain of about 50 km on a north-south direction, located in the northern part of Mani Peninsula, in the southern Peloponnese. The highest peak is Profitis Ilias (2404 m), with numerous other peaks topping the 2000 m, as Halasmeno (2204 m), Neraïdhovoúna (2025 m), Spanakaki (2024 m) and Aghios Paraskevi (2019 m). Geologically it is mainly constituted by compact limestones, with schist outcrops especially at lower altitudes. The landscape is very rough due to the presence of numerous ridges and peaks with slopes quite steep and rocky. Screes and cliffs are common, as well as plateaux with scattered dolines. The bioclimate is Mediterranean with oceanic pluviseasonal thermotypes ranging from the supra- and oro-Mediterranean in relation to altitude, while the ombrotype is in the top sub-humid. Annual average temperatures above 1500 m vary between 9 °C and 7 °C, while the annual average rainfall of between 900 and 1000 mm. On this mountain the forests occurring at high altitudes are represented by Abies cephalonica woodlands, which are frequent up to 1800 m. They usually are linked to carbonatic substrata, while on scists they are replaced by Pinus pallasiana woods. Some example of orophilous pulvinate vegetation can be observed from 1200 m of altitude limitedly to the areas with rocky outcrops, penetrating inside of the forest belt. These communities become dominant above 1800 m up to the highest peaks. This kind of vegetation was previously investigated by Quézel [35].

1.1.3. Island Mountains

  • Lefkas Island
It is about 100 m from the mainland, with which it is connected by a floating bridge. The highest mountain of the island is Mt. Elati (1158 m), also known as Mt. Stavrota, charaterized by some peaks, as Agios Elias, Pirgos, and Mega Oros. This mountain is covered with phrygana communities, which is replaced by orophilous pulvinate communities in the summit, while the forests are currently absent. The substrata are mainly represented by Mesozoic limestones and the bioclimate falls within the meso-Mediterranean with sub-humid ombrotype.
  • Cephalonia Island
Mount Ainos, or Black Mountain, constituted mainlyby Mesozoic limestones, is the highest range on Cephalonia, which has a crest long about 14 km with a south-eastern direction. It has its highest peak in Mt. Megas Soros with an elevation of 1628 m, while the second peak towards north-west is Mt. Roudhi, which rises to 1125 m. The bioclimate in the higher stands is typically oro-Mediterranean with sub-humid ombrotype. The slopes between 700 and 1200 m are covered by pine forests and above this altitude there are forests dominated by Abies cephalonica. The very windy ridges and the rocky plateaux, located at an altitude not lower than 800 m, are charaterized by a pulvinate dwarf shrub vegetation very rich of endemic orophytes. Observations of this type of vegetation are reported by Knapp [59].
  • Euboea Island
The mountains in the Euboea Island, or Evvia, that for dimensions is the second largest island in Greece after Crete, are numerous and well represented. The main peaks are Mt. Dirfis (1743 m), Mt. Ochi (1394 m), and Mt. Pyxaria (1341 m), constituted by metamorphic substrata (scists) mixed to triassic marbles. The highest summits are usually affected in by a oro-Mediterranean bioclimate, tending to meso-temperate sub-Mediterranean one, with sub-humid ombrotype. The orophilous dwarf shrub vegetation is well represented in the mountain summit of this island and in particular on Mt. Dirfis. No data on these orophilous communities are reported in literature.
  • Samos Island
On the Island of Samos (East Aegean), the peaks with altitudes above 1000 m are Mt. Kerkis (1433 m) and Mt. Ambelos (1153 m). Geologically, Mt. Kerkis consists of Mesozoic limestones, while Mt. Ambelos (or Karvounis) is mainly represented by schists and marbles. The bioclimate affecting these mountains falls within the meso-Mediterranean belt, with sub-humid ombrotype. In the summits of these mountains, above 1000 m of altitude, are located orophilous pulvinate communities, often dominated by echinophytic shrubs. Previously, some observations of this vegetation in Samos were reported by Christodoulakis and Georgiadis [41].
  • Lesvos Island
Lesvos (or Lesbos), near to the Turkish coast, is mainly mountainous with an important large peak, represented by Mt. Olympus (967 m), located in the southern part of the island. The top of this mount is constituted by an outcrop of Mesozoic crystalline limestones, with very steep and eroded slopes. From the bioclimatic point of view, this area falls in the meso-Mediterranean belt with sub-humid ombrotype. The thorny orophylous shrub vegetation is circumscribed to this cacuminal habitat. No data on these orophilous communities are reported on literature.
  • Chios Island
The island, separated from Turkey by the Çeşme Strait, is prevalently mountainous with numerous peaks occuring mainly in the northern part. The largest of these mountains are Mt. Pelineon (1297 m), Mt. Epos (1188 m), Mt. Oros (1186 m), M. Plakes (912 m), and M. Marathovouno (796 m), which show markedly rocky surfaces, often very sloped and rugged. The substrata are prevalently constituted by Mesozoic limestones or more rarely by schists. The mountain area is affected by a meso-Mediterranean sub-humid bioclimate. The cacuminal stands are usually colonized by orophilous dwarf shrubs communities. No data on these orophilous communities are reported on literature.
  • Thassos Island
This island is the northernmost of the Aegean Sea, in front of Kavala (N-Greece). The highest peak of Thassos is Mt. Ipsario (1208 m), characterized by schists and Mesozoic marbles. This territory is affected by meso-Mediterranean sub-humid bioclimate. The orophilous thorny shrub vegetation is exclusively localized on limestone outcrops. No data on these orophilous communities are reported in the literature.

1.2. Geology

The mountains of central and southern Greece with peaks topping 1700 m are found mainly in Sterea Ellas at the north of Corinth Gulf and in Peloponnese. They are represented mainly by carbonate mountain ranges, characterized by numerous peaks with variable altitudes, many of them reaching 2000 m. As regards the islands, apart from Crete that is not treated in this work, only those reaching altitudes above 900–1000 m have been surveyed by the authors. In particular, among them there are the islands of Cephalonia, Lefkas, Euboea, Samos, Lesbos, Chios, and Thassos, which are characterized by orophilous dwarf shrub communities in the summit of their mountains.
According to literature data [60,61,62], the investigated mountains are geologically constituted in the highest parts by limestones and dolomites dating back to the Mesozoic, or more rarely carbonatic rocks of the Miocene. In some islands, the cacuminal stands are charaterized by outcrops of marbles and schists dating back to the Mesozoic or Paleozoic.
Based on our personal observations in the field, due to the marked erosion, the soils are generally very shallow, accumulating mainly in the cracks and crevices of the rock, as well as in the small depressions or dolines. In the less inclined or often flat stands, the soils show usually a scarce maturity and are mixed with a rich skeletal component, often quite coarse. In these mountains, the screes are also quite frequent, especially in the highest parts, consisting of clasts with varying granulometry that are originated from gelifluxion phenomena in correspondence of the highest peaks or at the base of the cliffs, for the fragmentation of overlying rocky walls.

1.3. Bioclimate

According to the classification proposed by Rivas-Martínez [63], Rivas-Martínez and Rivas-Saenz [64] and Rivas-Martínez et al. [65,66], the bioclimate affecting the investigated Greek mountains falls, limited to the highest stands, in the Temperate oceanic sub-Mediterranean one, while as concerns the lower ones in the Mediterranean oceanic pluviseasonal one. Regarding the thermotypes, they ranged in the first case between the supra-temperate and oro-temperate belts limitedly to the sub-Mediterranean variant. At altitudes below to 1500–1600 m, the territories are affected essentially by the meso-or supra-Mediterranean thermotype. On the most southern mountains of Peloponnese and islands, the bioclimate tends to assume connotations more markedly Mediterranean, with thermotypes referring to supra- and oro-Mediterranean in the highest peaks, and meso-Mediterranean in low altitude ones. In particular, on the mountains localized in the islands of the eastern and northern Aegean, the thermotypes fall almost exclusively in the meso-Mediterranean termotype. With regard to rainfall, the tops of the mountain ranges of these regions are affected by ombrotypes between the upper sub-humid one and the upper humid one, tending in the slopes most exposed to moist marine winds, towards the hiper-humid. In fact, the cacuminal stands, and those at altitudes usually above 1600–1700 m, are characterized by rather moist and cold winters, with more or less long periods of snow cover, while the summers are quite hot and dry. Throughout the year, these areas are normally affected by strong winds, as well as by extreme daily temperature ranges and fog regimes.
Just as an example, the charts built according to the scheme proposed by Walter and Leith [67] are provided, using the interpolated data published by Hijmans et al. [68,69], which are listed in the “Global climate surfaces” and relate to the period 1950–2000. These data have been taken from a map grid of 10 km2, in which the toponym is not given but only the geographical coordinates of the centroid of the square (Figure 2).

1.4. Floristic Considerations

The floristic set, involved in the orophilous pulvinate vegetation occurring in the mountains of central and southern Greece, as well as some Ionian (Lefkas and Cephalonia) and Aegean islands (Thassos, Lesbos, Chios, and Samos) of this country, is here investigated. Based on the phytosociological relevés used for this study, both literature and unpublished data, a floristic checklist has been created (Appendix A, Table A1), where all the taxa at specific and infraspecific level (634 taxa) are reported. As regards the nomenclatural aspects, life forms and chorological elements, the most recent floras and checklists were used [70,71,72,73,74,75,76,77]. In the cases of very complex taxa, belonging to critical species or groups, when possible, specific revision treatment were followed, or a taxonomic update based on herbaria researches and literature were carried out (see Taxonomic Remarks).
In the context of this orophilous vegetation, some dwarf shrubs, showing a thorny pulvinar more or less compact habit, are physiognomically very important, since they often tend to cover very large surfaces. They are mainly represented by tragacanthoid plants belonging to the genus Astragulus, which are usually endemic and often confined to one or a few mountain ranges. Among them there are: Astragalus rumelicus, represented in Greece by three subspecies distributed one in the center-north of Greece (subsp. rumelicus), another in the Peloponnese (subsp. taygeticus) and a last on the island of Euboea (subsp. euboicus); A. cephalonicus restricted in some Ionic islands (Lefkas and Cephalonia); A. corinthiacus in Mts. Parnassus and Giona; A. taygeteus circumscribed to Mt. Taygetos; A. tymphresteus distributed on mountain ranges of the central-northern of the Balkan area; A. cylleneus occurring only on Mt. Killini and Mt. Chelmos; A. calavrytensis exclusive of Mt. Chelmos; A. parnassi known from some massifs of Sterea Ellas and Mt. Ossa; A. creticus subsp. samius, A. lesbiacus and A. condensatus restricted to on Eastern Aegean Islands.
Another thorny and cushion-like Astragalus distributed on the mountains of Greece is A. angustifolius Lam., a species having an eastern Mediterranean range, which shows a high polymorphism. According to Brullo et al. [78], within A. angustifolius, it is possible to distinguish various taxa differentiated at subspecific level, such as: subsp. angustifolius, exclusive of Anatolia and Caucasus, subsp. balcanicus, distributed in the northern Balkanic Peninsula (N-Greece, Bulgaria, Macedonia, Serbia, Albania), subsp. erinaceus, from central-southern Greece (Sterea Hellas, Attica, Peloponnese and Cephalonia), subsp. echinoides from Crete, subsp. aegeicus, occurring in some eastern Aegean Islands (Lesbos, Samos, and Chios) and subsp. odonianus from the Thassos Islands (N-Greece).
Other tragacanthoid shrubs, or otherwise thorny, occuring in these habitats are: Acantholimon graecum, A. aegaeum, Silene urvillei, Atraphaxis billardieri, Minuartia juniperina, M. stellata, etc.
Many other orophilous endemics belong to genera or species complexes, often representing geographical vicariants, such as: Marrubium (M. cylleneum, M. velutinum), Nepeta (N. argolica, N. spruneri, N. parnassica, N. camphorata, N. orphanides), Sideritis (S. clandestina subsp. clandenstina, and subsp. peloponnesiaca, S. raeseri, S. sypilea), Anthemis (A. cretica, A. laconica, A. samia, A. spruneri, A. aciphylla).
Other taxa well represented in the Greek mountains belong to some critical groups, such as: Koeleria mitrushii, closely related to K. splendens, Armeria orphanidis, related to A. majellensis and A. canescens, Stipa endotricha, closely related to S. pulcherrima, and S. holosericea, related to S. fontanesii.

2. Results and Discussion

2.1. Taxonomic Remarks

During the phytosociological investigation carried out in the high-mountains of Greece, we have collected several orophytes belonging to the genus Astragalus and Allium, which are very peculiar from the taxonomical point of view and traited as taxa new to science. Moreover, the taxonomic rank in some of them was modified. They are the following:
(1)
Astragalus corinthiacus Brullo, Giusso & Musarella, sp. nov.
Holotype: Greece, Sterea Hellas, eastern slopes of Mt. Parnassus, on the bottom of carbonatic dolines with deep silt-clay soils, ca. 1800 m a.s.l., 07.VII.2006, S. Brullo, C.M. Musarella & G. Giusso del Galdo s.n. (CAT).
Diagnosis: Astragalo cephalonico affinis sed stipulis coriaceis, uninervatis, sparsim piloso-ciliatis dorsaliter, aristis triangularibus, 3–6 mm longis, foliolis lineari-ellipticis, 1–2.2 mm latis, viridibus, pubescentibus vel laxe lanuginosis, bracteis subulatis vel lineari-subulatis, dense ciliatis dorsaliter, numquam glabris margine, bracteolis praesentibus, tubo calice 4–4.5 mm longo et dentibus subequalibus, 9–10 mm longis, corolla roseo-purpurescenti, vessillo 16.5–18 mm longo, hastato, tubo staminorum 15 mm longo.
Description: Dwarf shrub forming a loose, spiny cushion, 30–60 cm tall. Stems woody, tomentose-lanuginose, with hairs 0.2–1.5 mm long, loosely branched, tough, with persistent stipules and rachis in the old parts of the branches. Stipules coriaceous, straw coloured, 8–12 mm long, usually 1-nervate, adnate to the petiole for 4.5–7 mm, ciliate at the margin, sparsely lanuginose dorsally, free part triangular, acuminate, 3–6 mm long. Leaves paripinnate, 2.5–4 cm long, with ivory rachis, covered by sparsely lanuginous hairs; petiole 8–20 mm long; terminal spine 3–5 mm long. Leaflets linear-elliptical, dark green, acuminate at the apex, 3–8.5 × 1–2.2 mm, more or less paired, covered by sparsely and appressed lanuginose hairs. Leaflet peduncle 0.2–0.4 mm long. Inflorescence crowded in subsessile racemes up to 8–10-flowered. Bracts subulate to linear-subutate, hyaline, usually curved dorsally, exceeding calyx tube, 8–10 mm long, 0.5–2 mm wide, dorsally ciliate-pilose, often glabrous laterally. Bracteoles subulatis up to 8 mm longis, cilate-pilose. Calyx cylindrical, white-hyaline, densely covered by rigid hyaline hairs 1–3 mm long, up to the teeth apex, tube 4–4.5 mm long, teeth subulate, subequal, 9–10 mm long. Corolla pink-purplish: standard hastate, 16.5–18 mm long, minutely emarginate, with blade 9–10 × 5.5–6 mm; wings 13–14 mm long, with blade 6–7 × 1.5–1.7 mm and auricle 0.6 mm long; keel 14–14.5 mm long. Staminal tube 15 mm long and free stamen 13 mm long; anthers o.8 mm long. Pistill 15–16 mm long; ovary 4–4.5 mm long, densely hairy; style hairy at the base. Pod 7 mm long, ellipsoid, densely pilose-appressed.
Etymology: From “Corinthus”, the Latin name of the city of Corinth and its gulf between Sterea Ellas and Peloponnese.
Distribution: The new species occurs in the mountain places of Mt. Parnassus and Mt. Giona where it is localized in the carbonatic dolines on silt-clay soils, mainly on the eastern and northern slopes at 1600–1900 m a.s.l.
Notes: This new species shows close relationships with A. cephalonicus C. Presl, occurring in the Ionian islands of Cephalonia and Lefkada. In particular, A. cephalonicus differs from A. corinthiacus in having stipules membranaceous, linear-triangular, plurinerved, densely ciliate-hirsute, free part 5–10 mm long, leaflets oblong, up to 3 mm wide, greyish-green, densely villose, bracts ovate-lanceolate, long ciliate, 2.5–2.8 mm wide, bracteoles lacking, calyx with tube 5.5–7 mm long, teeth unequal, the three lower teeth 5.5–7 mm long, the upper two 7–9 mm long, corolla whitish to pinkish-white, standard spathulate with blade 13–16 × 5.5–6 mm, staminal tube 14 mm long. Previously Strid [73] also pointed out that the populations of A. cephalonicus of Cephalonia differed from those ones occurring in Sterea Ellas.
(2)
Astragalus rumelicus Bunge, Mém. Acad. Imp. Sci. St.-Pétersbourg, Sér. 7. 15(1): 81 (1868)
(a)
subsp. euboicus (Širj.) Brullo, Giusso & Musarella comb. et stat nov.
Bas.: Astragalus rumelicus var. euboicus Širj., Repert. Spec. Nov. Regni Veg. 47: 200. 1939.
(b)
subsp. rumelicus
(c)
subsp. taygeticus (Širj.) Brullo, Giusso & Musarella comb. et stat. nov.
Bas.: Astragalus rumelicus var. taygeticus Sirj., Repert. Spec. Nov. Regni Veg. 47: 199. 1939.
Syn.: Astracantha rumelica (Bunge) Reer & Podlech subsp. taygetica (Širj.) Reer & Podlech, Mitt. Bot. Staatssaml. Munchen 22: 544. 1986.
Notes: According to Širjaev [79] the two subspecies differ from the type in some morphological characteristics. In particular, the subsp. euboicus differs in having leaflets denser, outspread white-villous, calyx with short teeth, and corolla 11 mm long, while the subsp. taygeticus apart from having leaflets denser outspread white-villous, is differentiated by a calyx with longer teeth, and corolla 13 mm long.
(3)
Allium hirtovaginatum subsp. samium Brullo, Pavone & Salmeri, subsp. nov.
Holotype: Greece. Samos, Mt. Kerkis, esemplare coltivato, 22 July 1993, S. Brullo s.n. (CAT).
Diagnosis: A typo differt scapo usque ad 35 cm alto, foliis 5–6, pilis subadpressis 0.3–0.4 mm longis, florum pedicellis usque ad 7 cm longis, spatha 3.5–7(−9) cm longa, appendice usque ad 40 mm longa, perigonio 7–8 mm longo, tepalis e purpura superne albo-roseis, exterioribus lineari-lanceolatis, obtusiusculis vel rotundatis apice, 2–2.5 mm latis, staminum filamentibus subulato-triangulis, exterioribus usque ad 1.8 mm longis, interioribus 2–2.5 mm longis, annulo 1.2–1.4 mm alto, capsula 4.2 × 4 mm.
Description: Bulb ovoid, sometimes bulbiliferous, 15–20 × 8–12 mm, with brown tunics, fibrous slightly reticulate, split at the base, covering the stem up to 2 cm. Stem erect, flexuous 15–35 cm high, covered by the leaf sheaths 1/2–2/3 of its length. Leaves 5–6, filiform, semicylindrical, shorter than the inflorescence, 4–20 cm long, hairy with dense subappressed hairs 0.3–0.4 mm long. Inflorescence fastigiate, unilateral, with 5–10(−12) flowers on pedicels 1–5(−7) cm long. Spathe 1-valved, longer than the inflorescence or subequal, persistent, 9–11-nerved, 3.5–7(−9) cm long, with an appendage 15–40 mm long. Bostryces 2. Perigon cylindrical-suburceolate, 7–8 mm long; tepals white-pink, tinged with purple in the upper part, with a brown-purplish mid-vein, the outer linear-lanceolate, entire, subobtuse or rounded at the apex, 2–2.5 mm wide, the inner linear-oblong, rounded and feebly gnawed-undulate at the apex, 1.2–1.8 mm wide. Stamens with white filaments, yellowish below, subulate-triangular, unequal, the outer 0.9–1.8 mm long and 0.8–1 mm wide at the base, the inner 2–2.5 mm long and 1.2–1.5 mm wide at the base, below connate with tepals into an annulus 1.2–1.4 mm high; anthers straw coloured-yellowish, linear-elliptical, apiculate, 1.4 × 0.6 mm. Ovary greenish, subglobose-pyriform, smooth, 1.5–1.8 × 1.3–1.6 mm. Style white, 1–1.8 mm long. Capsule trivalved, subglobose, 4.2 × 4 mm.
Etymology: From Latin “Samius” = of Samos, Greek island of E Aegean area.
Distribution and habitat: It is exclusive of Samos, Aegean island near the Turkish coast. It grows in the semirupestrian stands, where it is frequent within ephemeral meadows placed among the phrygana, from sea level to submountain belt.
(4)
Allium cremnophilum Brullo, Pavone & Salmeri, sp. nov.
Holotype: Greece. Thassos, Ipsario, 26 June 2003, S. Brullo & G. Giusso s.n. (CAT).
Diagnosis: Allio hirtovaginato simili sed bulbo bulbillifero, scapo flexuoso, prostrato-adscendentis, vaginis foliorum per 1/3–1/2 longitudinis tecto, pilis lanuginosis 0.5–1.4 mm longis, perigonio cylindrico-campanulato, tepalis 7.5–8 mm longis, staminum filamentibus omnino luteolis, exterioribus 1.4–2 mm long, interioribus 2.8–3.5 mm, ovario globoso-ovoideo, rugoso superne, 1–1.1 × 1.1–12 mm, capsula obovoidea, 3.7 × 3.4 mm.
Description: Bulb ovoid, often paired, bulbiliferous, 8–13 × 6–10 mm, with brown tunics, reticulate-fibrous, split at the base, covering the stem up to 2 cm. Stem flexuous, prostrate-ascending, 6–11 cm high, covered by the leaf sheaths 1/3–1/2 of its length, often bearing two inflorescences. Leaves 3, filiform, subcylindrical, longer than the inflorescence or subequal, 4–8 cm long, hairy-woolly with patent hairs 0.5–1.4 mm long. Inflorescence fastigiate, unilateral, with 4–8 flowers on pedicels 10–30 mm long. Spathe 1-valved, longer than the inflorescence or subequal, with 7 nerves of which 4 are incomplete, 8–32 mm long, with an appendage 5–20 mm long. Bostryces 2. Perigon cylindrical-campanulate, 7.5–8 mm long; tepals whitish to white-pinkish, with purplish mid-vein, the outer lanceolate, entire and acute at the apex, 1.8–2 mm wide, the inner linear-oblong, with purple striae above, subobtuse and gnawed-undulate the apex, 1.6–1.8 mm wide. Stamens with yellowish filaments, triangular-subulate, unequal, the outer 1.4–2 mm long and 0.5–0.8-mm wide at the base, the inner 2.8–3.5 mm long and 0.8–1 mm wide at the base, below connate with tepals into an annulus 0.8–1 mm high; anthers straw coloured, elliptical, apiculate, 1.5 × 0.8–0.9 mm. Ovary greenish, globose-ovoid, rugose above, 1–1.1 × 1.1–1.2 mm. Style white, 1.3–1.4 mm long. Capsule trivalved, obovoid, 3.7 × 3.4 mm.
Etymology: From the Greek words “cremnos” = crevice and “philos” = fond of, in reference with its habitat.
Distribution: At present, this species occurs only in Thassos at the top of Mt. Ipsario, a N Aegean island near Kavala, Greece. Usually, it grows in depth of calcareous crevices at c. 1200 m of altitude, mixed with chasmophytic vegetation or more rarely inside the thorny dwarf-shrubs of Astragalus angustifolius subsp. odonianus.
(5)
Allium cylleneum Brullo, Pavone & Salmeri, sp. nov.
Holotype: GREECE. Peloponnisos, Mount Kyllini, 5 July 2006, S. Brullo, G. Giusso & C. Musarella s.n. (CAT).
Diagnosis: Allio cremnophilo simili sed bulbis aggregatis, tunicis fibrosis leviter reticulatis, usque ad 4 cm scapum tegentibus, scapo e vaginis foliorum per 3/4 longitudinis tecto vel totaliter, foliis usque ad 11 cm longis, pilis curvatis, subappressatis, 0.3–0.6 mm longis, spatha 5–7-nervata, nervis completis, perigonio campanulato-urceolato, tepalis 6.5–7 mm longis, omino eroso-undulatis et rotundatis superne, staminum filamentibus albidis, subulatis, ovario ovoideo, laeve, capsula 3.5 × 4 mm.
Description: Bulb ovoid, clustered, 12–20 × 8–12 mm, with pale brown tunics, fibrous with subparallel fibres feebly reticulate, split at the base, covering the stem up to 4 cm. Stem flexuous, erect or erect-ascending, 4–10 cm high, covered by the leaf sheaths from 3/4 of its lengt to totally. Leaves 3, filiform, subcylindrical, normally longer than the inflorescence, 6–11 cm long, hairy with curved subappressed hairs 0.3–0.6 mm long. Inflorescence fastigiate, unilateral, with 3–6 flowers on pedicels 5–25 mm long. Spathe 1-valved, shorter than the inflorescence or subequal, 5–7-nerved, 18–35 mm long, with an appendage 6–13 mm long. Bostryces 2. Perigon campanulate-urceolate with tepals white-pinkish, with purple striae and mid-vein, gnawed-undulate and rounded at the apex, 6.5–7 × 1.6–1.8 mm, the outer linear-lanceolate, the inner linear-elliptical. Stamens with white filaments, subulate, unequal, the outer 1.2–2 mm long and 0.6–0.8 mm wide at the base, the inner 2.8–3.3 mm long and 0.7–1 mm wide at the base, below connate with tepals into an annulus 1–1.2 mm high; anthers straw coloured, ovate-elliptical, apiculate, 1.3–1.4 × 0.7–0.8 mm. Ovary yellow-greenish, ovoid, smooth, 1–1.1 × 1.1–1.2 mm. Style white, 1.2–1.3 mm long. Capsule trivalved, obovoid, 3.5 × 4 mm.
Etymology: from Latin “cylleneus” = from Mt. Kyllini (N Peloponnese).
Distribution: At present, this species seems confined to the top of Mt. Profitis Ilias, the highest summit of Kyllini massif in N Peloponnese (Greece). It is quite rare and occurs in the orophilous dwarf-shrub communities with Astragalus rumelicus subsp. taygeticus on Mesozoic limestone, at 2200–2400 m of altitude.
(6)
Allium orosamium Brullo, Giusso & Musarella, sp. nov.
Holotype: Greece, Island of Samos, Mt. Kerkis, near the top at 1100 m a.s.l., 02/07/2003, S. Brullo s.n. (CAT).
Diagnosis: Allio stamineo simili sed tunicis bulborum fibroso-coriaceis, scapo usque ad 27 cm alto, spathis 5–6-nervatis, inflorescentia 20–35 floribus, perigonio campanulato, tepalis brunneo-viridibus, max. 5 mm longis, 2–2.2 mm latis, staminum filamentibus albidis, 3.5–4.5 mm longis, ovario obovoideo, papilloso, 3.2–3.5 × 2.2–2.4 mm, stilo 0.5 mm longo, capsula subglobosa 5 × 5.2 mm.
Description: Bulb ovoid, 12–15 × 7–9 mm, with outer tunics fibrous-coriaceous, dark brown, the inner ones membranous, whitish. Scape glabrous, erect, 9–27 cm high, covered by leaf sheaths for 1/2–2/3 of its length. Leaves 3–5, green, semicylindrical, costate, with blade 10–20 cm long. Spathe persistent, with 2 unequal valves, longer than umbel, the larger 5–6-nerved, 3–8 cm long, the smaller 5–6-nerved, 2–5 cm long. Inflorescence lax, diffuse, 20–35-flowered; pedicels unequal, flexuous, 7–20 mm long. Perigon campanulate, with tepals unequal, brownish green tinged with brown-purplish, oblong, rounded at apex, the outers 4.5–4.8 × 2.2 mm, the inners 4.8–5 × 2–2.1 mm. Stamens simple, exserted, with filaments subulate, 3.5–4.5 mm long, white, connate at base into an annulus 0.6–1 mm high; anthers oblong, straw, rounded at apex, 1.2 × 0.7 mm. Ovary obovoid, yellow-greenish, papillose above, 3.2–3.5 × 2.2–2.4 mm. Style white, 0.5 mm long. Capsule widely subglobose, green, 5 × 5.2 mm.
Etymology: From “oros” Greek name of “mountain” and “Samius” Latin adjective of Samos (Aegean Island).
Distribution: This species is localized in the top of Mt. Kerkis (Samos island), where it grows in the carbonatic rocky stands within the community characterized by Astragalus creticus subsp. samius.
(7)
Allium karvounis Brullo, Giusso & Musarella, sp. nov.
Greece, Island of Samos, Mt. Ambelos, near the top at 1100 m a.s.l., 11/06/2005, S. Brullo & C.M. Musarella s.n. (CAT).
Diagnosis: Allio stamineo simili sed bulbis maioribus, tunicis fibroso-coriaceis, scapis minoribus e vaginis foliorum per 1/2 longitudinis tectis, lamina foliorum rigida, spathis brevioribus, inflorescentia usque ad 80 floribus, pedicellis usque ad 40 mm longis, tepalis minoribus 3.8–4 × 1.6–1.8 mm, staminum filamentibus brevioribus, ovario obovoideo, laeviter papilloso, maiore, stilo 2–6 mm longo, capsula maiore.
Description: Bulb ovoid, 10–15 × 8–12 mm, with outer tunics fibrous-coriaceous, dark brown, the inner ones membranous, whitish. Scape glabrous, erect, 18–24 cm high, covered by leaf sheaths for 1/2 of its length. Leaves 3–4, green, semicylindrical, costate, with blade rigid, 8–20 cm long. Spathe persistent, with 2 unequal valves, longer than umbel, the larger 7-nerved, 4–7 cm long, the smaller 5–7-nerved, 2–4 cm long. Inflorescence fastigiate, compact, 25–80-flowered; pedicels unequal, flexuous, 8–40 mm long. Perigon conic-campanulate, with tepals equal, greenish yellow tinged with purplish, oblong, rounded at apex, 3.8–4 × 1.6–1.8 mm. Stamens simple, exserted, with filaments subulate, 3.5–5 mm long, white below, purplish above, connate at base into an annulus 0.4–0.5 mm high; anthers oblong, yellow, rounded at apex, 1.2–1.3 × 0.8–0.9 mm. Ovary obovoid slightly throttled, green, slightly papillose above, 1.8–2 × 1.8–2 mm. Style white, 2–6 mm long. Capsule obovoid, green, 4.5–5 × 4.5–5 mm.
Etymology: From “Karvounis” old name of Ambelos mount from Samos (Aegean Island).
Distribution: This species is localized in the top of Mt. Ambelos from Samos island in the Aegean area, where it grows into the orophilous cushion-like vegetation.
(8)
Allium lefkadensis Brullo, Giusso & Musarella, sp. nov.
Holotype: Greece, Lefkàda, Ionian Islands, Mt. Elati, near the top at 1000 m a.s.l., 16/07/2011, S. Brullo & G. Giacalone s.n. (CAT).
Diagnosis: Allio stamineo simili sed tunicis interioribus bulborum brunneo-purpurescentibus, scapis minoribus e vaginis foliorum per 1/4–1/3 longitudinis tectis, lamina foliorum 8–16 mm, spathis brevioribus, tepalis minoribus, pruinosis, staminum filamentibus supra roseam suffusis, ovario maiore, stilo longiore.
Description: Bulb ovoid, 15 × 10 mm, with outer tunics coriaceous, dark brown, the inner ones membranous, reddish-brown. Scape glabrous, erect, 10–16 cm high, covered by leaf sheaths for 1/4–1/3 of its length. Leaves 4, green, semicylindrical, costate, 8–16 cm long. Spathe persistent, with 2 unequal valves, longer than umbel, the larger 7-nerved, 3–4 cm long, the smaller 5-nerved, 1.5–2 cm long. Inflorescence lax, diffuse, 20–25-flowered; pedicels unequal, flexuous, 10–25 mm long. Perigon conical-campanulate, with tepals equal, greenish yellow pruinose, oblong, rounded at apex, 4.5 × 2 mm. Stamens simple, exserted, with filaments subulate, 6–7 mm long, white below and slightly tinged with pink above, connate at base into an annulus 0.5–0.6 mm high; anthers oblong, straw, apiculate at apex, 1.2–1.4 × 0.6–0.7 mm. Ovary subglobose, yellow-greenish, slightly rugose-papillose above, 2 × 2–2.1 mm. Style white, 2.5–6 mm long. Capsule not observed.
Etymology: From “Lefkàda”, the Greek Ionian island where this species is confined.
Distribution: The species was observed only on the top of Mt. Elati at Lefkàda Ionian Island.

2.2. Phytogeographical Analisys

Regarding the life forms (Table 1), this florula is characterized mainly by hemicryptophytes (H) (43.06%), followed by chamaephytes (Ch) (34.86%), while geophytes (G) (9.78%) and therophytes (T) (9.15%) are clearly inferior. Finally, nanopharenophytes (NP) (2.68%) and phanerophytes (P) (0.47%) are negligible. In fact, due to the extremely harsh conditions of these high mountain habitats, only plants with particular structural adaptations can aggregate in plant communities able to express their potential to the fullest. In this respect, the hemicryptophytes and chamephytes, being perennial plants characterized by a habit slightly raised from the soil, are those that are best suited to these environments. They are affected by a climate with very cold winter, characterized by long periods of snow cover, strong winds blowing on the mountain tops, the marked daily temperature ranges, hot and dry summers. In particular, these habitats are characterized by the dominance of dwarf shrub chamaephytes, showing often a pulvinate habit that tolerates better these extreme environmental conditions. Instead, nanopharenophytes and phanerophytes do not go beyond the timberline, while geophytes and therophytes, having no adaptions, are very rare and grow usually into the shrubs.
From the chorological viewpoint, being Mediterranean mountains, the floristic set featuring these habitats, shows a clear predominance of Mediterranean species (Table 2). In particular, the Mediterranean element shows the highest percentage (42.43%), within which the more representative are the East-Mediterranean taxa (29.65%), while the circum-mediterranean ones present lower percentages (9.62%). As concerns the other mediterranean elements, they are scarcely represented. Apart to the Mediterranean element, the endemic one is very high represented (40.38%).
Within the endemic set, different endemisms can be distinguished, such as: Balkan one which is the more frequent (22.66%), CS Greece one (18.75%), Peloponnese one (17.58%), Greece one (15.23%), Sterea Ellas one (6.25%), while the other endemic species occuring in the Greek islands show a lower percentage, such as those ones of E-Aegean islands (5.86%), Ionian islands (2.73%), N-Aegean (2.73%), and Euboea (2.34%) (Table 3). Other elements are less significant, such as the European one (11.67%) and the wide distribution one (5.52%), the latter including circumboreal, cosmopolite, and paleotemperate species (Table 2).
This diversity of endemic species in cacuminal stations of the investigated mountain ranges of Greece is clearly to be connected to the paleogeographic vicissitudes that these territories have had in the last million years. Most probably the geographical isolation of these mountain massifs has clearly increased the speciation processes in the orophilous populations confined in the cacuminal stands, mainly in those ones having a relic character.

2.3. Phytosociological Investigation

Previously, the orophilous pulvinate vegetation of central-southern and insular Greece hitherto known in literature were included in Daphneeto-Festucetea class as described by Quézel [35]. Within this class, the associations were arranged according to the syntaxonomical scheme proposed by that author, afterwards modified by Quézel et al. [80]:
DAPHNO OLEOIDIS-FESTUCETEA VARIAE Quézel 1964, corr. Quézel et al. 1992
Syn.: Daphneeto-Festucetea Quézel 1964, Vegetatio, 12:325
Lectotypus: Daphno oleoidis-Festucetalia variae Quézel 1964
  DAPHNO OLEOIDIS-FESTUCETALIA VARIAE Quézel 1964, corr. Quézel et al. 1992
  Syn.: Daphneeto-Festucetalia Quézel 1964, Vegetatio, 12:325
  Lectotypus: Eryngio multifidi-Bromion fibrosi Quézel 1964
    STIPO PULCHERRIMAE-MORINION PERSICAE Quézel 1964, corr. Quézel et al. 1992
    Syn.: Stipeto-Morinion Quézel 1964, Vegetatio, 12: 326
    Lectotypus: Scabioso taygeteae-Onosmetum leptanthae Quézel 1964
      Scabioso taygeteae-Onosmetum leptanthae Quézel 1964 Vegetatio, 12:327
      Syn.: Ass. à Scabiosa taygetea et Onosma leptanthum Quézel 1964
      Galio lucidi-Ribetum uvae-crispae Quézel 1964, Vegetatio, 12:329
      Syn.: ass. à Galium lucidum et Ribes uva-crispa Quézel 1964
      Onobrychido minoris-Juniperetum foetidissimae Quézel 1973, Biol. Gallo-Hell. 5(1):147
      Syn.: ass. à Juniperus foetidissima et Onobrychis ebenoides var. minor Quézel 1973
      Juniperetum foetidissimae Georgiadis & Dimopoulos 1993, Bot. Helv. 103:152 (nom. inval.)
      scabiosetosum ochroleucae Maroulis & Georgiadis 2005, Fitosociologia 42(1):37
      Acer monspessulano-Prunetum mahaleb Georgiadis & Dimopoulos 1993, Bot. Helv. 103:153 (nom. inval.)
      Astracantho thracicae-Marrubietum cyllenei Georgiadis & Dimopoulos 1993, Bot. Helv. 103:153 (nom. inval.)
      galietosum taygetei Georgiadis & Dimopoulos 1993, Bot. Helv. 103:153 (nom. inval.)
      Stipa pennata subsp. pulcherrima-Sesleria vaginalis comm. Maroulis & Georgiadis 2005, Fitosociologia 42(1):42
      Hippocrepis comosa-Stipa pennata subsp. pulcherrima comm. Maroulis & Georgiadis 2005, Fitosociologia 42(1):43
    ERYNGIO MULTIFIDI-BROMION FIBROSI Quézel 1964, corr. Quézel et al. 1992
    Syn.: Eryngieto-Bromion Quézel 1964, Vegetatio, 12:326
    Lectotypus: ass. à Astragalus cylleneus et Cirsium cylleneum, Quézel 1964
      Sideritetum theezantis Quézel 1964, Vegetatio, 12:331
      Syn.: ass. à Sideritis theezans Quézel 1964
      Cirsio cyllenei-Astragaletum cyllenei Quézel 1964, Vegetatio, 12:332
      Syn.: ass. à Astragalus cylleneus et Cirsium cylleneum Quézel 1964
      Marrubio velutini-Astragaletum cretici Quézel 1964, Vegetatio, 12:334
      Syn.: ass. à Astragalus creticus ssp. rumelicus et Marrubium velutinum Quézel 1964
      Astracantho thracicae-Marrubietum cyllenei Georgiadis & Dimopoulos 1993, Bot. Helv. 103:153, nom. inval.
      typicum Georgiadis & Dimopoulos 1993, Bot. Helv. 103: 158 (nom. inval.)
      festucetosum cyllenecae Georgiadis & Dimopoulos 1993, Bot. Helv. 103:158 (nom. inval.)
      Marrubio cyllenei-Astragaletum rumelici Maroulis & Georgiadis 2005, Fitosociologia 42(1):43
      Festuco politae-Festucetum cyllenicae Maroulis & Georgiadis 2005, Fitosociologia 42(1):44
  ASTRAGALO ANGUSTIFOLII-SESLERION COERULANTIS Quézel 1964, corr. Quézel et al. 1992.
  Syn.: Astragaleto-Seslerion Quézel 1964, Vegetatio, 12:326
  Lectotypus: ass. à Minuartia stellata et Erysimum parnassi Quézel 1964, Vegetatio, 12:326
      Rindero graecae-Acantholimetum graeci Quézel 1964, Vegetatio, 12:336
      Syn.: ass. à Acantholimon echinus et Rindera graeca Quézel 1964
      Asteri cyllenei-Globularietum stygiae Quézel 1964, Vegetatio, 12:337
      Syn.: ass. à Aster cylleneus et Globularia stygia Quézel 1964
      Convolvulo cochlearis-Astragaletum lactei Quézel 1964, Vegetatio, 12:339
      Syn.: ass. à Convolvulus cochlearis et Astragalus lacteus Quézel 1964
      Erysimo parnassi-Minuartietum stellatae Quézel 1964, Vegetatio, 12:340
      Syn.: ass. à Minuartia stellata et Erysimum pusillum ssp. parnassi Quézel 1964
      Paronychio chionaeae-Thymetum ciliato-pubescentis Quézel 1964, Vegetatio, 12:341
      Syn.: ass. à Paronychia chionaea et Thymus hirsutus ssp. ciliato-pubescens Quézel 1964
      Violo-Seslerietum vaginalis Quézel 1973, Biol. Gallo-Hell. 5(1):152
      Syn.: ass. à Sesleria coerulans et Viola stojanowii Quézel 1973
      Euphrasio salisburgensis-Asperuletum nitidae Quézel 1974, Rev. Biol. Ecol. Medit. 1(1):19
      Syn.: ass. à Asperula nitida et Euphrasia salisburgensis Quézel 1974
      Festuco cyllenicae-Asperuletum boissieri Georgiadis & Dimopoulos 1993, Bot. Helv. 103: 158, nom. inval.
Within this hierarchical arrangement proposed by Quézel [35], the most relevant aspect that emerges from this classification was to use only the altitudinal distribution of plant communities as a discriminating criterion for alliance identification. In fact, according to this author, the order Daphno-Festucetalia includes three alliances which are widespread in all the mountains of Greece and are distributed exclusively at different altitudinal ranges. They are: (a) Stipeto-Morinion occurring between 1500 and 1700 m; (b) Eryngieto-Bromion between 1700 and 2200 m; (c) Astragaleto-Seslerion above 2200 m, sloping down sometimes up to 1700 m. Another important factor to note is that these alliances do not provide any information on the real phytogeographic role of the rich floristic contingent featuring this type of orophilous vegetation. Indeed, Quézel [35] considered as characteristics of these alliances mainly species having a wide East Mediterranean or even circum-Mediterranean distribution, showing also a wide altitudinal range and not limited to a narrow belt as stated by the author. In particular, the author proposed Stipa endotricha (=S. pennata var. pulcherima), Melica ciliata, Asphodeline lutea, Ononis pusilla, Morinia persica, Scutellaria rupestris (=S. peregrina subsp. rupestris), Pterocephalus perennis and Anthemis spruneri (=A. montana var. incana) as characteristics of Stipeto-Morinion; while Bromus riparius (=B. fibrosus), Helictotrichon aetolicum (=Avena australis), Eryngium multifidum, Thymus sibthorpii, Galium thymifolium, Campanula spathulata, Podosmermum canum var. alpinum, and Carduus tmoleus (=C. armatus), as characteristics of Eryngieto-Bromion; finally, Sesleria tenerrima (=S. coerulans), Iberis sempervirens, Astragalus angustifolius, Draba lasiocarpa (=D. affinis), Viola graeca (=Viola heterophylla subsp. graeca), Trinia frigida (Apinella frigida), Trinia guicciardii (Apinella guicciardii), Acantholimon graecum (= A. echinus), Lactuca intricata (=L. graeca), Veronica orsiniana subsp. teucrioides (=V. austriaca var. teucrioides), V. thessalica, V. thymifolia, Asperula boissieri, and Tragopogon crocifolius subsp. samaritani as characteristics of Astragaleto-Seslerion. On the basis of literature and personal observations, these taxa can not be used to characterize alliances, at most, some of them may be included among the characteristics of order or class, while others are simply accidentals or ubiquitous species. Even, the same author [35,36] underlined often some perplexity in the inclusion of a given association in one of the three alliances identified by him, due to the contemporaneous occurrence in the relevés of characteristic species belonging to all three alliances. Therefore, the alliances identified by Quézel [35] are not being characterized by exclusive species, since they include ubiquitous or species of wider ecological requirements, that are not strictly related to those specific habitats; in this way they do not provide clear information from an ecological and phytogeographical point of view. Based on the above, these alliances do not satisfy the prerequisites required by the sigmatist phytosociological method. They only create a lot of confusion and ambiguity in the syntaxonomical arrangement of this very peculiar kind of orophilous vegetation. In conclusion, these alliances are really ambiguous names that must be rejected (art. 36). Therefore, a new phytosociological framework is necessary to propose. The designation of new alliances must be essentially based on the phytogeographic criteria and such characteristics must include steno-endemic species in order to define unequivocally the geographical boundaries of each syntaxon as well as its syntaxonomical role.
In order to emphasize the distribution of characteristic species within the three alliances and syntaxa of higher rank according to the hierarchic arrangement proposed by Quézel [35], a synoptic table (Appendix B, Table A2) was processed including all the phytosociological relevés published until now on this type of orophilous vegetation in central-southern Greece by Quézel [35,38] and Quézel and Katrabassa [40], as well as other later authors as Georgiadis and Dimopoulos [42] and Maroulis and Georgiadis [44]. From the analysis of this table, the floristic comparison among the hitherto recognized associations, which are well differentiated from the phytosociological viewpoint, shows clearly that the species proposed as characteristics of the alliances are distributed indifferently in all three syntaxa, often with high frequency values. Therefore, it can be easily deduced that a single association cannot be clearly and unambiguously attributed to a specific alliance. Quézel [35] in order to attribute an association to a given alliance, he relied mainly on its altitudinal distribution, rather than considering the information relating to its floristic cortege. Unfortunately, the species selected by the author to define these alliances are not strictly linked to well-defined altitudinal bands, but are widespread almost at all altitudes. From this, it can easily be deduced that, in the case of the orophilous pulvinate vegetation of the Greek mountains, as well as of other geographic territories, this criterion can not be followed. Instead, a purely phytogeographical method must be selected, mainly based on endemic flora, that gives more significant information under phytosociological feature.
On the basis of several unpublished phytosociological relevés carried out by us in the summit stands of most of central and southern Greek mountains as well as in some islands (Figure 1), it was possible to verify that only a strictly phytogeographic policy can allow for a correct syntaxonomic arrangement of these communities, similar to what has been achieved for other Mediterranean territories [22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48]. In fact, it is much more realistic and meaningful to identify alliances based on floristic elements that give clear information on phytogeographic correlations of the various associations, rather than on their altitudinal distribution. In particular, the flora characterizing the orophilous community usually shows a significant richness in relict species, often very isolated, or represented by geographical vicariants of remarkable phytosociological significance. Therefore, for a syntaxonomic arrangement that can best express the floristic and structural organization of the pulvinate-orophilous plant communities currently occurring in the Greek mountains, it has to be based on the choice of species suitable for providing more precise information on their phytogeographical role. Following this viewpoint, this study presents a clearer and more comprehensive syntaxonomical overview of these plant communities, reflecting their origin and diversification. Therefore, for a correct floristic characterization of higher syntaxa (alliances, orders and classes) allowing differentiation of specific alliances, the choice should fall on endemics with restricted distribution, such as those confined to one or few neighbouring or close mountain ranges, and it should gradually move on to those endemics with wider ranges and the other more widespread taxa which should be used for the designation of orders and classes. In addition, the floristic contingent that differentiates the higher syntaxa, and particularly in the case of orophilous vegetation featuring the Mediterranean mountains, provides clearer information about the relationships that the plant communities show among them, since they are the result of paleogeographic vicissitudes of the territories that host them.
Furthermore, it must be emphasized that Quézel et al. [80] when lectotypified the class Daphno-Festucetea and the corresponding order Daphno-Festucetalia, corrected respectively the two names in Daphno oleoidis-Festucetea variae and Daphno oleoidis-Festucetalia variae. The use of Daphne oleoides and Festuca varia for giving the name to the two syntaxa brings further confusion and ambiguity, since both species are not pertinent to this type of vegetation. In fact, Daphne oleoides is widespread in all Mediterranean mountains and is considered a typical characteristic species of the class Junipero-Pinetea sylvestris Rivas-Martínez 1964, as emphasized by Rivas-Martínez [52], Rivas-Martínez et al. [53,54,55,80,81,82], Stanisci [56] and Brullo et al. [57], while in the pulvinate dwarf shrub vegetation it is rather rare and occasional. As concerns Festuca varia, this species has a properly alpine distribution and is totally absent in Greece [83], where it is replaced by various other species of this genus. Moreover, it is not possible to identify in a univocal and correct way what is the species of Festuca to which Quézel [35] refers in naming these syntaxa.
Besides, among the species proposed by Quézel [35] as characteristic of the class and order is to be noted that some of them, such as Juniperus communis var. hemisphaerica, Berberis cretica, Prunus prostrata and mainly Daphne oleoides, are linked to the orophilous communities characterized by phanerophytes and nanophanerophytes belonging to the class Junipero-Pinetea sylvestris Rivas-Martínez 1965 nom. invers. propos. (=Pino-Juniperetea Rivas-Martínez 1965). This is in agreement with the literature data concerning this type of orophilous forest vegetation [55,56,57,63,84].
In particular as emphasized by Brullo et al. [57] and Mucina et al. [84], the woody communities characterized by the dominance of erect or prostrate conifers occurring in Greece and other central-eastern Mediterranenan territories, must be ascribed to syntaxa exclusive to these mountaints, representated by the order Berberido creticae-Juniperetalia excelsae Mucina in Mucina et al. 2016 and some alliances, such as Berberido aetnensis-Pinion laricionis (Brullo et al. 2001) Mucina & Theurillat in Mucina 2016, Juniperion excelso-foetidissimae Em ex Matevski et al. 2010, Berberido creticae-Juniperion foetidissimae Brullo et al. 2001, etc. These forest communities are relegated to the supra- and oro-Mediterranean belts, as well as supra-temperate belt, where they show a fragmentary distribution, which confirms their relict origin. Usually, they occupy an intermediate position between the typical mountain forests of Querco-Fagetea and pulvinate orophilous dwarf shrubs linked to cacuminal stands.
Besides as emphasized by Brullo et al. [57], some associations of Daphno-Festucetea described by the previous authors must be rather clearly attributed to the class Junipero-Pinetea sylvestris, since they show a floristic, structural and ecological feature of the last syntaxon. In particular, this is the case of the “ass. à Galium lucidum et Ribes uva-crispa Quézel 1964”, “ass. à Juniperus foetidissima et Onobrychis ebenoides var. minor Quézel 1973”, “Juniperetum foetidissimae Georgiadis & Dimopoulos 1993”, “Acer monspessulano-Prunetum mahaleb Georgiadis & Dimopoulos 1993”, contributing further to confer a marked ambiguity to the class Daphno-Festucetea.
For the reasons above mentioned, the names Daphno-Festucetea Quézel 1964 and Daphno-Festucetalia Quézel 1964 must be proposed as nomina ambigua rejicienda (Art. 36), since they are based on very ambiguous alliances, are sources of continuous errors in the univocal and unambiguous designation of the relative associations. The new names proposed here in order to replace those of the two aforesaid syntaxa are Cerastio candidissimi-Astragaletea rumelici and Eryngio multifidi-Armerietalia orphanidis, both having a large distribution in the high mountains of southern Balkans and Aegean area.
The floristic analysis of the investigated plant communities occurring mainly in the high mountains of the Peloponnese and Sterea Ellas, as well as in some Ionian Islands and Euboea, showed the existence of significant sets of endemic species, which have a well-defined geographical distribution that allows the identification of alliances based on a clear phytogeographical role, emphasizing especially the palaeogeographical isolation of the various mountain areas among them.
Based on these criteria, it was possible to distinguish in the aforesaid territories some new alliances, which are well circumscribed from the phytogeographical point of view and allow a very realistic arrangement of the orophilous dwarf shrubby vegetation occurring in these Greek high mountains, emphasizing their floristic affinities. These are: Marrubio velutini-Thymion parnassici, distributed in the mountains of Sterea Hellas and Attica; Festuco achaicae-Marrubion cyllenei, from the North Peloponnese mountains; Sideritido clandestinae-Asperulion mungieri, from South Peloponnese mountains. Moreover, Astragalion cephalonici, from the Ionian islands of Cephalonia and Lefkada, as well as Astragalion euboici from the island of Euboea, must be added to these alliances.
In order to highlight that these alliances have a clear phytosociological role with a well-defined phytogeographic boundary than those proposed by Quézel [35], the associations examined in Appendix B, Table A2 were processed according to this new syntaxonomic scheme. As can be clearly observed in the new Table A3 (Appendix B), the associations fall within floristically well-differentiated alliances, since they are characterized by endemics exclusive of geographically distinct areas, which are characterized by very similar paleogeographic vicissitudes.
In addition, further phytosociological investigations were carried out in the high mountains of some islands of North Aegean area (Thassos, Lesbos, Chios, and Samos) peaking over 1000 m. a.s.l and hosting this kind of vegetation. Within the orophilous pulvinate dwarf shrubs communities occurring in these islands, some characteristic species of Cerastio candidissimi-Astragaletea rumelici class are still present (although numerically reduced), while species belonging to the Eryngio multifidi-Armerietalia orphanidis order and related alliances are fully missing.
In these insular high-mountain areas, there is a rich set of endemics or eastern Aegean taxa, which allow to differentiate a new vicariant order, namely Noaeo mucronate-Silenetalia urvillei. On essential phytogeographical basis, it is possible to distinguish three floristically well-differentiated alliances, represented by Asperulion samiae, circumscribed to Samos, Festuco pseudosupinae-Astragalion aegeici, distributed to Chios and Lesbos, and Seslerio achtarovii-Anthemidion tenuilobae, from Thassos. Based on the observations above emphasized, a new syntaxonomic scheme is proposed:
CERASTIO CANDIDISSIMI-ASTRAGALETEA RUMELICI Musarella, Brullo & Giusso cl. nov.
  ERYNGIO MULTIFIDI-ARMERIETALIA ORPHANIDIS Musarella, Brullo & Giusso ord. nov.
    MARRUBIO VELUTINI-THYMION PARNASSICI Musarella, Brullo & Giusso all. nov.
      Marrubio velutini-Astragaletum rumelici Quézel 1964
        typicum
        achilleetosum nobilis Quézel 1964
      Astragalo lactei-Convolvuletum cochlearis Quézel 1964
      Nepeto epiroticae-Astragaletum corynthiaci (Quézel 1964) Musarella, Brullo & Giusso nom. nov.
      Nepeto spruneri-Astragaletum corynthiaci Musarella, Brullo & Giusso ass. nov.
      Thymo parnassici-Paronychietum polygonifoliae Quézel 1964
        typicum
        linetosum angustifolii Quézel 1964
      Nepeto sprunerii-Astragaletum tymphrestei Musarella, Brullo & Giusso ass. nov.
      Violo stojanowii-Seslerietum vaginalis Quézel 1973
      Erysimo parnassi-Minuartietum stellatae Quézel 1964
      Aurinio gionae-Minuartietum stellatae Musarella, Brullo & Giusso ass. nov.
      Achilleo fraisii-Dianthetum tymphrestei Musarella, Brullo & Giusso ass. nov.
      Asperulo luteae-Achilleetum umbellatae Musarella, Brullo & Giusso ass. nov.
      Astragalo lactei-Asperuletum apiculatae Musarella, Brullo & Giusso ass. nov.
      Diantho minutiflori-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
      Scabioso ochroleucae-Sideridetum raeseri Musarella, Brullo & Giusso ass. nov.
      Ranunculo psilostachydis-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
      Edraiantho parnassici-Globularietum cordifoliae Musarella, Brullo & Giusso ass. nov.
      Thymo parnassici-Astragaletum parnassi Musarella, Brullo & Giusso ass. nov.
      Chamaecytiso hirsuti-Astragaletum parnassi Musarella, Brullo & Giusso ass. nov.
      Onobrychido pentelicae-Genistetum parnassicae Musarella, Brullo & Giusso ass. nov.
      Allio cithaeronis-Dianthetum serratifolii Musarella, Brullo & Giusso ass. nov.
      Inulo methaneae-Sideritetum atticae Musarella, Brullo & Giusso ass. nov.
    ASTRAGALION CEPHALONICI Musarella, Brullo & Giusso all. nov.
      Helictotricho convoluti-Thymetum holosericei Musarella, Brullo & Giusso ass. nov.
      Saturejo cuneifoliae-Thymetum holosericei Musarella, Brullo & Giusso ass. nov.
      Scutellario cephalonicae-Astragaletum cephalonici Musarella, Brullo & Giusso ass. nov.
      Paronychio graecae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov.
    ASTRAGALION EUBOICI Musarella, Brullo & Giusso all. nov.
      Sideritido euboeae-Astragaletum euboici Musarella, Brullo & Giusso ass. nov.
      Scabioso webbianae-Phlomidetum samiae Musarella, Brullo & Giusso ass. nov.
      Sideritido euboeae-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
      Inulo limonellae-Seslerietum krajinae Musarella, Brullo & Giusso ass. nov.
    FESTUCO ACHAICAE-MARRUBION CYLLENEI Musarella, Brullo & Giusso all. nov.
      Cirsio hypopsilii-Astragaletum taygetici Quézel 1964 corr.
      Astero cyllenei-Globularietum stygiae Quézel 1964
      Euphrasio salisburgensis-Asperuletum oetaeae Quézel & Katrabassa 1974 corr.
      Marrubio cyllenei-Astragaletum calavrytensis Musarella, Brullo & Giusso ass. nov.
        elytrigietosum intermediae Musarella, Brullo & Giusso subass. nov.
        hippocrepidetum comosae Musarella, Brullo & Giusso subass. nov.
        tulipetosum australis Musarella, Brullo & Giusso subass. nov.
      Plantagini graecae-Astragaletum cyllenei Musarella, Brullo & Giusso ass. nov.
      Festuco achaicae-Minuartietum stellatae Musarella, Brullo & Giusso ass. nov.
      Alysso taygetei-Plantaginetum alpestris Musarella, Brullo & Giusso ass. nov.
      Hieracio sartoriani-Seslerietum tenerrimae Musarella, Brullo & Giusso ass. nov.
      Asperulo boissieri-Festucetum cyllenicae Georgiadis & Dimopoulos ass. nov.
      Ranunculo brevifolii-Seslerietum tenerrimae Musarella, Brullo & Giusso ass. nov.
      Astragaletum hellenico-erinacei Musarella, Brullo & Giusso ass. nov.
      Festucetum polito-cyllenicae Maroulis & Georgiadis 2005
      Arenario filicaulis-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
      Aurinio moreanae-Lomelosietum crenatae Musarella, Brullo & Giusso ass. nov.
      Onosmo malickyi-Astragaletum hellenici Musarella, Brullo & Giusso ass. nov.
      Violo graecae-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
      Tripodio graeci-Helictotrichetum heldreichii Musarella, Brullo & Giusso ass. nov.
    SIDERITIDO CLANDESTINAE-ASPERULION MUNGIERI Musarella, Brullo & Giusso all. nov.
      Scabioso taygeteae-Onosmetum leptanthae Quézel 1964
      Danthoniastro compacti-Fumanetum alpinae Musarella, Brullo & Giusso ass. nov.
      Sideritido clandestinae-Astragaletum taygetici Musarella, Brullo & Giusso ass. nov.
      Rindero graecae-Acantholimetum graeci Quézel 1964
      Onosmo heterophyllae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov.
      Astragaletum lacteo-taygetici Musarella, Brullo & Giusso ass. nov.
      Violo parnoniae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov.
      astragaletosum erinacei Musarella, Brullo & Giusso subass. nov.
      asperuletosum malevonensis Musarella, Brullo & Giusso subass. nov.
  NOAEO MUCRONATAE-SILENETALIA URVILLEI Musarella, Brullo & Giusso ord. nov.
    ASPERULION SAMIAE Musarella, Brullo & Giusso all. nov.
      Astragaletum samii Musarella, Brullo & Giusso ass. nov.
      Thymo samii-Astragaletum condensati Musarella, Brullo & Giusso ass. nov.
      Campanulo lyratae-Genistetum parnassicae Musarella, Brullo & Giusso ass. nov.
      Arenario guicciardii-Seslerietum anatolicae Musarella, Brullo & Giusso ass. nov.
    FESTUCO PSEUDOSUPINAE-ASTRAGALION AEGEICI Musarella, Brullo & Giusso all. nov.
      Anthemido discoideae-Astragaletum aegeici Musarella, Brullo & Giusso ass. nov.
      Diantho zonati-Astragaletum lesbiaci Musarella, Brullo & Giusso ass. nov.
      Galio insularis-Thymetum sypilei Musarella, Brullo & Giusso ass. nov.
      Acantholimo aegaei-Astragaletum lesbiaci Musarella, Brullo & Giusso ass.nov.
    SESLERIO ACHTAROVII-ANTHEMIDION TENUILOBAE Musarella, Brullo & Giusso all.nov.
      Paronychio bornmuelleri-Astragaletum odoniani Musarella, Brullo & Giusso ass. nov.
Finally, in order to highlight the phytosociological relantionships among the investigated associations belonging to Cerastio candidissimi-Astragaletea rumelici, two synoptical tables regarding the orders Eryngio multifidi-Armerietalia orphanidis (Appendix B, Table A4) and Noaeo mucronatae-Silenetalia urvillei (Appendix B, Table A5) are provided.

2.4. Description of the Vegetation

  • CERASTIO CANDIDISSIMI-ASTRAGALETEA RUMELICI Musarella, Brullo & Giusso cl. nov. hoc loco
Syn.: Daphneeto-Festucetea Quézel 1964, Vegetatio 12:325, p.p., nom. amb. rejic. propos. (art. 36)
Daphno oleoidis-Festucetea variae Quézel 1964, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18: 82, p.p., nom. amb. rejic. propos. (art. 36)
Holotypus: Eryngio multifidi-Armerietalia orphanidis Musarella, Brullo & Giusso ord. nov. hoc loco.
Characteristic species: Achillea umbellata, Alyssum montanum subsp. graecum Arenaria guicciardii, Asperula boissieri, Asperula lutea, Asperula thessala, Astragalus rumelicus subsp. rumelicus, Beta nana, Campanula radicosa, Centaurea pichleri, Centaurea raphanina subsp. mixta, Cerastium candidissimum, Crepis fraasii subsp. fraasii, Dianthus tymphristeus, Draba lacaitae, Erysimum cephalonicum, Erysimum microstylum, Erysimum pectinatum, Festuca cyllenica subsp. cyllenica, Festuca polita, Fritillaria graeca, Fritillaria guicciardii, Galium citraceum, Galium thymifolium, Helianthemum hymettium, Herniaria parnassica subsp. parnassica, Hieracium lazistanum subsp. Leithneri, Lamium pictum, Leontodon graecus, Lysimachia serpyllifolia, Minuartia confusa, Minuartia attica subsp. attica, Nepeta argolica subsp. argolica, Paronychia albanica subsp. graeca, Poa thessala, Podospermum canum var. alpinum, Pterocephalus perennis subsp. perennis, Scutellaria rupestris subsp. parnassica, Silene radicosa subsp. radicosa, Stipa endotricha, Teucrium montanum var. parnassicum, Trinia frigida, Trinia guicciardi, Trisetum tenuiforme, Verbascum epixanthinum var. epixanthinum, Veronica erinoides, V. thymifolia, Viola chelmea, V. greca.
Differential species: Achillea fraasii, Achillea holosericea, Acinos alpinus subsp. meridionalis, Aethionema saxatile subsp. graecum, Anthemis cretica subsp. cretica, Asyneuma limonifolium, Aubrieta deltoidea var. deltoidea, Aubrieta deltoidea subsp. intermedia, Bromopsis lacmonica, Bromus riparius, Campanula spathulata subsp. spathulata, Carduus tmoleus, Carlina frigida, Carum graecum subsp. graecum, Carum meoides, Dianthus integer subsp. minutiflorus, Dianthus viscidus var. viscidus, Draba lasiocarpa, Euphorbia herniariifolia, Festuca callieri subsp. callieri, Festuca jeanpertii subsp. jeanpertii, Galium incanum subsp. incanum, Geranium macrostylum, Geranium subcaulescens, Helictotrichon aetolicum, Koeleria mitrushii, Linaria peloponnesiaca, Linum elegans, Minuartia juniperina, Minuartia stellata, Morina persica, Myosotis suaveolens, Myosotis sylvatica subsp. canea, Onobrychis alba subsp. pentelica, Pimpinella tragium subsp. polyclada, Pimpinella tragium subsp. tragium, Ranunculus sartorianus, Sedum laconicum, Sempervivum marmoreum, Sesleria tenerrima, Sesleria vaginalis, Silene bupleuroides subsp. staticifolia, Stachys heldreichii, Telephium orientale, Thymus chaubardii, Thymus leucotrichus, Tragopogon crocifolius subsp. samaritanii.
Structure and ecology: The class groups pulvinate orophilous plant communities characterized by dominance of dwarf shrubs, often with tragacanthoid habit, sometimes mixed with caespitose hemicryptophytes, which constitute quite spaced grasslands, where numerous geophytes or rosulate hemicryptophytes play a relevant physiognomic role. The stands colonized by these communities are usually represented by more or less rocky windy ridges and cacuminal surfaces usually with undeveloped soils, as well as more o less stabilized screes. These habitats are distributed mainly in the mountains at 1500–3000 m of altitude, with stands characterized by quite rigid environmental conditions. Sometimes, especially in situations of insularity these plant communities occur also at lower altitudes, sometimes up to 1000 m. From the bioclimatic point of view, these communities are distributed prevalently within the supra- and oro-Mediterranean belts, as well as in supra- and oro-temperate belts, often of sub-Mediterranean type. Downwards, they tend to penetrate into meso-Mediterranean belt, especially due to the degradation processes of the woodlands or when the edaphic conditions are particularly critical, as in the case of blocking of the pedogenetic processes. Dynamically, it is a typically orophilous vegetation showing usually a climatophilous role, even if often it is represented by edaphophilous communities. When these communities are localized within the forest belt, they assume a secondary role, being linked usually to processes of woodland degradation. As concerns its floristic arrangement, this vegetation is characterized by a rich set of endemics, often having a relevant taxonomic and phytogeographic significance. Many of them are relict species belonging to Tertiary elements, often represented by groups taxonomically isolated, segregated in a lot of geographical vicariants. Apart from a contingent of endemic taxa, which are proposed as characteristics of this class, other non-strictly endemic species with a wider distribution are considered as “differential species”, since in Greece they are usually localized in this type of orophilous vegetation.
Distribution: According to literature and unpublished personal data, this class has its greater spread on the mountains of mainland Greece, extending northwards to Albania and Macedonia and eastwards in the north-western and western Anatolia, as well as in Euboea and some Ionian Islands. Moreover, altough floristically rather impoverished, it is represented also in some islands of north-eastern and northern Aegean, such as Samos, Chios, Lesbos, Samothraki and Thassos, where high mountains occur.
  • ERYNGIO MULTIFIDI-ARMERIETALIA ORPHANIDIS Musarella, Brullo & Giusso ord. nov. hoc loco.
Syn.: Daphneeto-Festucetalia Quézel 1964, Vegetatio, 12:325 p.p., nom. amb. rejic. propos. (art. 36).
Daphno oleoidis-Festucetalia variae Quézel 1964, Vegetatio, 12:325, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18:82, p.p., nom. amb. rejic. propos. (art. 36).
Acantholimo-Astragaletalia Voliotis 1973, Sci. Ann. Fac. Phys. Math Univ. Thess. 13:237, p.p., nom. nud.
Holotypus: Sideritido raeseri-Thymion parnassici Musarella, Brullo & Giusso all. nov. hoc loco.
Characteristic species: Acantholimon graecum, Alkanna graeca subsp. boetica, Allium achaium, Allium frigidum, Alyssum repens var. brachyphyllum, Armeria orphanidis, Asperula rigidula, Astragalus angustifolius subsp. erinaceus, Astragalus rumelicus subsp. taygeticus, Avenochloa agropyroides, Centaurea affinis subsp. laconiae, Cirsium hypopsilium, Crepis incana, Dasypyrum hordeaceum, Dianthus androsaceus, Dianthus biflorus, Draba parnassica, Echinops taygeteus, Erodium chrysanthum, Eryngium multifidum, Erysimum asperulum, Erysimum pusillum, Euphorbia deflexa, Festuca janpertii subsp. achaica, Galium taygeteum, Geocaryum parnassicum, Geocaryum peloponnesiacum, Inula candida subsp. limonella, Noccaea graeca, Paronychia albanica subsp. graeca, Rindera graeca, Scutellaria rupestris subsp. rupestris, Verbascum acaule.
Structure and ecology: This order groups the orophilous plant communities, as highlighted in the class, linked mainly to the supra-and oro-temperate belts of sub-Mediterranean type, occurring mainly at above 1700–1800 m of altitude. These plant communities show a climatophilous, or sometimes edaphophilous character, usually are localized in the cacuminal stands of the mountains above the timberline. Within this syntaxon the plant communities distributed also at lower altitudes (1000–1700 m) falling in the meso-and oro-Mediterranean belt can be included. In this case, the vegetation is largely represented by secondary communities, often of edaphophilous type, since linked to degradation processes of the woodlands.
Distribution: On the basis of current knowledge, the order seems to be circumscribed to the mountains of Greece, Peloponnese included, as well as the Ionian Islands (Cephalonia and Lefkas) and Euboea.
  • MARRUBIO VELUTINI-THYMION PARNASSICI Musarella, Brullo & Giusso all. nov. hoc loco.
Syn.: Eryngieto-Bromion Quézel 1964, Vegetatio, 12:326, p.min.p., nom. amb. rejic. propos. (art. 36).
Eryngio multifidi-Bromion fibrosi Quézel 1964, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18:82 p.min.p., nom. amb. rejic. propos. (art. 36).
Astragaleto-Seslerion Quézel 1964, Vegetatio, 12:326, p.min.p., nom. amb. rejic. propos. (art. 36).
Astragalo angustifolii-Seslerion coerulantis Quézel 1964, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18:82, p.min.p., nom. amb. rejic. propos. (art. 36).
Stipeto-Morinion Quézel 1964, Vegetatio, 12:326, p.min.p, nom. amb. rejic. propos. (art. 36).
Stipo pulcherrimae-Morinion persicae Quézel 1964, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18:82 p.min.p., nom. amb. rejic. propos. (art. 36).
Holotypus: Astragalo lactei-Convolvuletum cochlearis Quézel 1964, hoc loco.
Characteristic species: Alyssum montanum subsp. hymettium, Centaurea affinis subsp. affinis, Centaurea affinis subsp. pallidior Dianthus viscidus var. parnassicus, Erigeron glabratus subsp. graecus, Erysimum parnassi, Festuca graeca subsp. graeca, Galium circae, Geocaryum parnassicum, Lactuca intricata, Linaria parnassica, Marrubium velutinum, Nepeta parnassica, Nepeta spruneri, Satureja parnassica, Sideritis raeseri subsp. raeseri, Thymus leucospermus, Thymus parnassicus, Thymus teucrioides subsp. teucrioides, Verbascum parnassicum.
Structure and ecology: Within the order Eryngio multifidi-Armerietalia orphanidis, this alliance is that one showing more marked characters of continentality. The associations belonging to this syntaxon seem to have greater floristic structural and ecological correlations with those ones occurring in the northern Greece. Clearly, towards to the north of Greece, the bioclimate becomes markedly more mesic with a progressive decrease of its Mediterranean character. This is reflected quite well in the orophilic pulvinate vegetation, which shows a more marked thermophily in the mountains of southern Greece. Therefore, this syntaxon can be considered as the transition term between the southernmost alliances occurring in the Peloponnese and probably the northernmost ones regarding the mountain ranges of Pindus and Mt. Olympus, which is still to be defined under the phytosociological profile including several associations already defined by Quézel [36]. In particular, the associations falling in the Marrubio velutini-Thymion parnassici, while maintaining structurally their prerogatives of shrub-pulvinate community, tend to show a certain increase of the hemicriptophytic component. Further, their floristic settlement increases with elements having more relantionships with taxonomic groups having a more northernmost distribution.
Distribution: The alliance is distributed mainly in the massifs of Sterea Ellas, such as Mt. Parnassus, Mt. Giona, Mt. Vardoussia and Mt. Timfristos, as well as of Attica. Probably, plant communities belonging to this syntaxon occur also in other mountains of this continental area of Greece.
Notes: The Marrubio velutini-Thymion parnassici does not show any clear floristic, ecological and chorological correlation with the three alliances described by Quézel [35]. In particular, this new syntaxon is floristically differentiated by endemics distributed in the high-mountain belt of the massifs located exclusively in Sterea Ellas and Attica. In addition, this alliance groups associations that are not linked to a well-defined altitudinal belt, but they are distributed from the lower mountain zones (1200–1300 m) up to the high-mountain ones reaching the altitude of 2500 m.
  • Marrubio velutini-Astragaletum rumelici Quézel 1964, Vegetatio 12:334 (Appendix C, Table A6).
Syn.: Association à Astragalus creticus subsp. rumelicus et Marrubium velutinum, Quézel 1964.
Lectotypus: Table 18, rel. 3, Quézel [35], hoc loco.
Characteristic species: Astragalus rumelicus subsp. rumelicus, A. hellenicus, Nepeta parnassica.
Structure and ecology: The association is located on calcareous and dolomitic substrata, of more or less rocky steep slopes (30°–40°), characterized by eroded or not very deep soils, rich in coarse skeletal component. It assumes a clear climatophilous role in the supra-temperate sub-Mediterranean belt at an elevation of 1800 and 2100 m, while at lower altitudes (examples were found up to 1500 m) shows a clearly secondary pattern, because its spread is linked to the processes of forest degradation, here represented mainly by Abies cephalonica woods. Physiognomically, this association is dominated by thorny cushion-like of Astragalus rumelicus subsp. rumelicus, which often constitues dense populations. Quite significant it is the occurrence, although scattered, in this vegetation of two interesting endemic species, such as Nepeta parnassica, distributed in Mt. Parnassus and Mt. Chelmos (on the latter, however, is quite rare), and Astragalus hellenicus, widespread on the mountains of Sterea Ellas. Within this association, as emphatized by Quézel [35], two subassociations linked to different soil conditions can be distinguished. They are cited by that author as subass. typicum, localized on carbonatic substrates with no floristic differentiation, and subass. achilleetosum nobilis Quézel 1964 (lectotypus rel. 12, Table 18, Quézel [35], hoc loco) restricted to sandstone or sometimes schist outcrops, differentiated by Achillea nobilis and Salvia argentea var. alpina.
Distribution: This association is well represented on the southernmost massifs of Sterea Ellas, as Mt. Parnassus, Mt. Giona and Mt. Vardoussia. However, its occurrence also in other mountain massifs of this area can not be excluded.
  • Astragalo lactei-Convolvuletum cochlearis Quézel 1964, Vegetatio 12:339 (Appendix C, Table A7).
Syn.: Association à Convolvulus cochlearis et Astragalus lacteus Quézel 1964.
Lectotypus: Table 21, rel. 4, Quézel [35], hoc loco.
Characteristic species: Astragalus lacteus, Convolvulus cochlearis, Koeleria carniolica.
Structure and ecology: The association is confined to the dolomitic substrates of the ridges that bordered some deep dolines. The surfaces occupied by this association are usually almost flat and are distributed at an altitude of 1650–1800 m, within the supratemperate sub-Mediterranean bioclimatic belt. This vegetation is dominated by small prostrate chamaephytes, among them have a quite significant role Convolvulus cochlearis (=C. parnassicus Boiss. & Orph.), rather rare Balkan endemic. In this association it occurs also Astragalus lacteus, which shows a quite constant frequence, as well as Asperula rigidula and Koeleria carniolica, which are less frequent.
Distribution: Currently it is known only to the Mt. Parnassus, where it is observed near the refuge of the EOS Gherondovrachos.
Notes: As concerns this association, Quézel [35] highlight that it occupies an intermediate position between the Astragalo-Seslerion and Stipo-Morinion alliances, because in its floristic settlement are present characteristic species of both syntaxa. However, the author considers more properly to include it in the Astragalo-Seslerion, mainly for the occurrence of Astragalus angustifolius. That is further evidence of the lack of phytosociological value of the alliances proposed by the author.
  • Nepeto epiroticae-Astragaletum corynthiaci (Quézel 1964) Musarella, Brullo & Giusso nom. nov. (Appendix C, Table A8).
Syn.: Association à Astragalus cephalonicus et Nepeta nuda Quézel 1964, Vegetatio 12:357.
Lectotypus: Table 30, rel. 2, Quézel [35], hoc loco.
Characteristic species: Astragalus corynthiacus, Nepeta nuda var. epirotica.
Structure and ecology: The association is localized on the bottom of dolines and also on slightly inclined surfaces characterized by rather deep silt-clay soils, deposited on carbonate substrata. It is distributed between 1600 and 1900 m of altitude, sometimes reaching 2100 m, having its optimum in the supratemperate sub-Mediterranean belt. Physiognomically, this vegetation is differentiated by the dominance of Astragalus corynthiacus, a new species closely related to A. cephalonicus, which tends to constitute dense and homogeneous populations. Another quite significant species is Nepeta nuda var. epirotica, which seems to have its optimum in these stands. Potentially, this association is linked to the erosion processes and washing away of calcareous rocks that accumulate fine particles into the lower parts of dolines and depressions. These surfaces, in extreme conditions, with very deep soils, are ususally colonized by hemicryptophytic communities of Trifolion parnassi. In fact, in this association, some elements belonging to the latter alliance and related order, Trifolietalia parnassi, are present which clearly have the meaning of transgressiion. In conditions of marked edaphic xericity, such as in the stands with rocky outcrops and superficial soils, the vegetation at issue is replaced by the climatophylous communities of Marrubio velutini-Astragaletum rumelici.
Distribution: The association was currently observed only on Mt. Parnassus, where it is represented mainly in the dolines.
Notes: As regards its phytosociological arrangement, this association was described by Quézel [35] as Association à Astragalus cephalonicus et Nepeta nuda and included into the alliance Trifolion parnassi, since the author based on its ecological requirements, being linked to deep soils and on the presence of a fair number of species characteristic of this syntaxon. However, it should be noted that the author considered this association structurally very similar to the communities of Daphno-Festucetalia, especially for the dominance of torny cushion-like shrubs, completely absent in the typical grasslands of Trifolion parnassi. Moreover, for the presence of a significant settlement of Daphno-Festucetalia, he considered this association as intermediate between this order and that of Trifolietalia parnassi. In fact, this perplexity of Quézel [35] is here shared by us too, but basing on its floristic and structural characterics, it seems to exclude its possible attribution to Trifolion parnassi. It is to underline that on the whole in this association are well represented many species of Marrubio velutini-Thymion parnassici and related higher syntaxa. The dominant species was previously identified by Quézel [35] as Astragalus cephalonicus, but this attribution was wrong, since it clearly differs from the latter in numerous morphological features and should be treated as a distinct new species named A. corinthiacus.
  • Nepeto spruneri-Astragaletum corynthiaci Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A9).
Holotypus: Appendix C, Table A9, rel. 3, hoc loco.
Characteristic species: Astragalus corynthiacus, Nepeta spruneri.
Structure and ecology: This association can be considered as a geographical vicariant of Nepeto epiroticae-Astragaletum corynthiaci previously described from Mt Parnassus. It is also caracterized by the dominance of Astragalus corynthiacus, while Nepeta nuda var. epirotica is replaced by N. spruneri. This vegetation shows the same ecology of the above-mentioned association, since it always occurs in the dolines characterized by quite deep soils, usually localized between 1700–1800 m of elevation, sometimes reaching 2000 m. Floristically, it is well differentiated by several species of the alliance and higher ranks, while that ones of Trifolion parnassi are very rare.
Distribution: The association was surveyed in some stands of Mt. Giona.
  • Thymo parnassici-Paronychietum polygonifoliae Quézel 1964, Vegetatio 12:341 corr. (Appendix C, Table A10).
Syn.: Association à Paronychia chionaea et Thymus hirsutus subsp. ciliato-pubescens Quézel 1964.
Lectotypus: Table 23, rel. 3, Quézel [35], hoc loco.
Characteristic species: Paronychia polygonifolia (=P. chionaea), Edraianthus graminifolius f. minor, Dianthus ventricosus.
Structure and ecology: This association, characterized by dominance of small chamaephytes showing a prostrate or creeping habit, is localized in correspondence to the very windy ridges, usually over 2000 m of altitude. It is possible to observe this vegetation also at lower altitudes (ca. 1800 m), always in cacuminal stands. From the bioclimatic point of view, this association is well represented in the oro-temperate sub-Mediterranean belt extending downward in the supra-temperate sub-Mediterranean one. The surfaces are rather flat with superficial soils rich in minute skeleton, where, due to the action of the winds, the soil evolution is very slow, and the vegetation always keeps a prostrate habit. According to Quézel [35], this vegetation is dominated by plants showing a small size, such as Paronychia polygonifolia (as P. chionaea), Thymus parnassicus (as T. hirsutus subsp. ciliato-pubescens), Edraianthus graminifolius f. minor, Dianthus ventricosus. The pulvinated camaephytes and the cespitose grasses are totally absent. The author distinguished two subassociations linked to altitudinal factors, represented at over 2100 m of altitude by the subass. typicum, which is replaced at lower altitudes from subass. linetosum angustifolii Quézel 1964 (lectotypus: Table 23 rel. 5, hoc loco). Floristically, the first subassociation is differentiated by Euphrasia salisburgensis, Minuartia condensata, Festuca halleri subsp. riloensis, Carex kitaibeliana, and Galium plebeium, while the second one has as differential species Linum tenuifolium and Ptilotrichum rupestre.
Distribution: The association seems to be exclusive of Mt. Giona, where it is very frequent.
  • Nepeto sprunerii-Astragaletum tymphrestei Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A11).
Holotypus: Appendix C, Table A11, rel. 1, hoc loco.
Characteristic species: Astragalus tymphresteus.
Structure and ecology: The association was observed in stands at altitudes between 1200 and 1400 m, on slightly inclinated slopes characterized by carbonate rocks within the meso-Mediterranean bioclimatic belt. The soils are poorly developed with many minute skeletons. This vegetation is dominated by Astragalus thymphresteus, thorny dwarf shrub growing with other small chamaephytes, such as Nepeta spruneri, Thymus chaubardii, Chamaecytisus hirsutus, and some cespitose hemicryptophytes.
Distribution: The association was found only on Mt. Giona, where it is circumscribed to stands of lower altitudes, but it probably occurs also in other mountains.
  • Violo stojanowii-Seslerietum vaginalis Quézel 1973, Biol. Gallo-Hellen. 5(1):152, corr. (Appendix C, Table A12).
Syn.: Association à Sesleria coerulans et Viola stojanowii Quézel 1973.
Lectotypus: Table 3, rel. 11, Quézel [38], hoc loco.
Characteristic species: Viola stojanowii, Thymus teucrioides subsp. teucrioides, Thymus striatus.
Structure and ecology: The association occurs over 2200 m of altitude, where is localized in the small depressions among the cacuminal rocky peaks, where very minute clasts are accumulated and covered by soils rich in clay subject to solifluction. In these stands characterized by an acclivity of 20–30%, the vegetation shows a rather sparse coverage in which Sesleria vaginalis (=S. coerulans) plays an important role. On the whole, it is a floristically quite poor herbaceous vegetation, where Viola stojanowii is physiognomically significant. Usually, this association takes catenal contacts with the scree vegetation belonging to Drypetalia spinosae.
Distribution: This vegetation was described by Quézel [38] for Mt. Vardoussia, but probably it occurs also in other mountains of Sterea Ellas.
  • Erysimo parnassi-Minuartietum stellatae Quézel 1964, Vegetatio 12:340 (Appendix C, Table A13).
Syn.: Association à Minuartia stellata et Erysimum pusillum subsp. parnassi Quézel 1964.
Lectotypus: Table 22, rel. 3, Quézel [35], hoc loco.
Characteristic species: Minuartia stellata, Astragalus apollineus, Anthemis spruneri, Allium parnassicum, Anthemis tinctoria var. parnassica, Erigeron alpinus.
Structure and ecology: The association colonizes the rocky outcrops and the stabilized screes at altitudes over 2100 m, within the oro-temperate sub-Mediterranean bioclimatic belt. It is frequent on the prevalently rocky surfaces that, due to the considerable acclivity, the soils are very superficial, accumulating mainly among the rocky crevices and into the bushes. Physiognomically, it is distinguished by the dominance of compact and often voluminous cushion-like shrubs of Minuartia stellata, that usually grows togheter with Sesleria vaginalis and several species with prostrate habit. The characteristic species of the alliance Marrubio velutini-Thymion parnassici are well represented, among them Erysimum parnassi, Marrubium velutinum, Satureja parnassica, which show high coverage value. Within this association Quézel [35] distinguished two subassociations on phytogeographical base, represented by saturejetosum parnassicae (=subass. teucrioides à Thymus), restricted to Mt. Parnassus, and by aurinietosum giónae (=subass. kionae à Alyssum) for Mt. Giona. The first one corresponds clearly to the type, while the second one must be treated as a distinct association, well differentiated from floristically, also from chorological point of view, named as Aurinio gionae-Minuartietum stellatae.
Distribution: Actually, this vegetation is distributed only on Mt. Parnassus.
  • Aurinio gionae-Minuartietum stellatae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A14).
Syn.: Association à Minuartia stellata et Erysimum pusillum subsp. parnassi subass. à Alyssum kionae Quézel 1964.
Holotypus: Table 22, rel. 3, Quézel [35], hoc loco.
Characteristic species: Minuartia stellata, Aurinia gionae.
Structure and ecology: From the ecological point of view, the association is very similar to Erysimo parnassi-Minuartietum stellatae. In fact, it occurs at altitudes between 2100 and 2450 m, on calcareous substrata, more or less acclive, showing a coverage which not exceeding 70%. Floristically the vegetation differs markedly from the Erysimo parnassi-Minuartietum stellatae, for the almost total absence of Erysimum parnassi, Satureja parnassica, Sesleria vaginalis, all species that in the latter association are fairly common and often dominant. In addition to the absence of all characteristic species, the association at issue differs from the previous one also for the occurrence of the endemic Aurinia gionae. The only common element between the two communities is the dominance of Minuartia stellata.
Distribution: The association is esclusive of some places of Mt. Giona, where it is quite frequent.
  • Achilleo fraisii-Dianthetum tymphrestei Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A15).
Holotypus: Appendix C, Table A15, rel. 5, hoc loco.
Characteristic species: Dianthus tymphresteus, Valeriana bertiscea.
Structure and ecology: The association is localized on small rocky summits, in the more or less flat places characterized by minute crumbly limestone mixed with a little soil. It has been observed at altitudes of 1700–1800 m of very windy stands, within the supra-temperate sub-Mediterranean belt. Floristically, it is differentiated by the dominance of small pulvinate shrubs of Dianthus tymphresteus, which grows together other cespitose hemicryptophytes and small prostrate chamaephytes, such as Centaurea affinis subsp. affinis, Achillea fraisii, Koeleria mitrushi, Festuca jeanpertii subsp. jeanpertii, Astragalus lacteus, etc.
Distribution: This association was surveyed on Mt. Giona at Liritsa, but it probably occurs also in other neighbouring massifs, such as Vardoussia and Timphristos.
  • Asperulo luteae-Achilleetum umbellatae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A16).
Holotypus: Appendix C, Table A16, rel. 3, hoc loco.
Characteristic species: Achillea umbellata, Carex caryophyllea.
Structure and ecology: The association colonizes the slopes often rather inclinated with fresh solis, mixed to big size clasts, at altitudes of 1700–1800 m, within the suprat-emperate sub-Mediterranean belt. The surfaces occupied by this vegetation are usually South-facing and are frequent at the base of small rocky ridges. In such habitats, several hemicryptophytes such as Achillea umbellata, Carex caryophyllea, Asperula lutea, Festuca cyllenica subsp. cyllenica, Stipa endotricha, Koeleria mitrushi and Festuca jeanpertii subsp. jeanpertii occur and thrive.
Distribution: This vegetation was surveyed only on Mt. Giona, near Liritsa, where it is very circumscribed.
  • Astragalo lactei-Asperuletum apiculatae Musarella, Brullo & Giusso ass. nov. hoc hoco (Appendix C, Table A17).
Holotypus: Appendix C, Table A17, rel. 2, hoc loco.
Characteristic species: Asperula purpurea subsp. apiculata, Astragalus lacteus.
Structure and ecology: The association seems exclusive of the calcareous rocky ridges at altitudes between 1500 and 1600 m, where it is linked to slopes with very variable inclination (30–80°), with S-SO exposure. From the biolimatic point of view, it falls between the meso-Mediterranean and supra temperate sub-Mediterranean belts. The vegetation is localized along the large cracks of the rock and is characterized by small chamaephytes and hemicryptophytes. Among them, Asperula purpurea subsp. apiculata, Astragalus lacteus, Achillea holosericea and Thymus chaubardii are dominant togheter with various grasses.
Distribution: The association was observed on Mt. Giona at Mavrikorfi, near Proni, where seems quite localized.
  • Diantho minutiflori-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A18).
Holotypus: Appendix C, Table A18, rel. 5, hoc loco.
Characteristic species: Dianthus integer subsp. minutiflorus, Festuca cyllenica subsp. cyllenica, Silene roemeri subsp. macrocarpa.
Structure and ecology: The association colonizes the more or less stabilized screes with an inclination of 20–30°, at an altitude of around 2000 m. It is found in the orotemperate sub-Mediterranean belt, penetrating downward in the sub-Mediterranean supra.temperate one. Physiognomically, it is differentiated by the dominance of large tuffs of Festuca cyllenica subsp. cyllenica, often associated with Sesleria vaginalis. In particular, this community is characterized by Dianthus integer subsp. minutiflorus and Silene roemeri subsp. macrocarpa. Moreover, Satureja parnassica, Nepeta spruneri, Galium thymifolium, Campanula spathulata subsp. spathulata, and Ranunculus brevifolius are very frequent.
Distribution: The association was surveyed on Mt. Giona at Amfissa, near Pirghakia.
  • Scabioso ochroleucae-Sideridetum raeseri Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A19).
Holotypus: Appendix C, Table A19, rel. 4, hoc loco.
Characteristic species: Scabiosa ochroleuca, Sideritis raeseri subsp. raeseri, Vincetoxicum hirundinaria subsp. nivale.
Structure and ecology: This association replaces the Diantho minutiflori-Festucetum cyllenicae in the stabilzed screes or, anyway, on the surfaces more compact and richer in soil. Physiognomically, it is differentiated by the dominance of suffruticous shrubs, mainly chamaephytes, such as Scabiosa ochroleuca, Sideritis raeseri subsp. raeseri, Vincetoxicum hirundinaria subsp. nivale, Satureja parnassica, Marrubium velutinum, Asperula lutea, Centaurea affinis subsp. affinis, Nepeta spruneri, etc., while decrease the coverage of the caespitose hemicryptophytes.
Distribution: The association was surveyed on Mt. Giona, in the same place where the Diantho minutiflori-Festucetum cyllenicae occurs.
  • Ranunculo psilostachydis-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A20).
Holotypus: Appendix C, Table A20, rel. 3, hoc loco.
Characteristic species: Festuca cyllenica subsp. cyllenica, Laserpitium pseudomeum, Ranunculus psilostachys.
Structure and ecology: This association replaces the Diantho minutiflori-Festucetum cyllenicae on the more or less stabilized screes localized at lower altitudes (1700–1750 m) in quite fresh and sheltered stands. Particularly, it is frequent in the supra-temperate sub-Mediterranean belt, on surfaces having an inclination of 25–35°. Physiognomically, this vegetation is dominated by Festuca cyllenica subsp. cyllenica, but in comparison with the prevoius association, in its floristic settlement, a marked decrease of the more orophilous species is observable. Nevertheless, it is well differentiated due to the occurrence of Ranunculus psilostachys, Laserpitium pseudomeum, Galium circae, Avenochloa agropyroides, Trisetum tenuiforme, etc., species linked to stands of lower altitudes.
Distribution: As the two previous associations, this vegetation was surveyed in the same area of Mt. Giona, but at lower altitudes.
  • Edraiantho parnassici-Globularietum cordifoliae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A21).
Holotypus: Appendix C, Table A21, rel. 2, hoc loco.
Characteristic species: Globularia cordifolia, Anthyllis montana subsp. jacquinii, Edraianthus parnassicus, Silene auricolata.
Structure and ecology: The association is localized in rocky places, generally more or less flat or, however, a little sloped. It shows a wide altimetric range, ranging at altitudes from 1700 to 2150 m, thus affecting the supratemperate and orotemperate sub-Mediterranean bioclimatic belts. It is can be considered as a semi-rupestrian community characterized by prostrate or creeping chamaephytes, such as Globularia cordifolia, Anthyllis montana subsp. jacquinii, Edraianthus parnassicus, Silene auricolata, which grow togheter with other small pulvinate shrubs, among them Paronychia polygonifolia, Satureja parnassica, Thymus leucotrichus, etc.
Distribution: The association is spread on some mountain places of Mt. Giona where, usually, it is localized on small surfaces.
  • Thymo parnassici-Astragaletum parnassi Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A22).
Holotypus: Appendix C, Table A22, rel. 4, hoc loco.
Characteristic species: Astragalus parnassi.
Structure and ecology: This association is characterized by the dominance of thorny cushion-like shrubs of Astragalus parnassi. This species is linked to very lower altitudes (1000–1300 m) within the meso-Mediterranean bioclimatic belt, characterizing one of the most termophilous communities of the Marrubio velutini-Thymion parnassici. However, the characteristic species of this alliance and the higher syntaxa, are here well represented, among them Thymus parnassicus, Erysimum parnassi, Festuca graeca subsp. graeca, Astragalus angustifolius subsp. erinaceus, Asperula lutea, etc. The vegetation is usually localized in quite fresh and sheltered stands, represented mainly by clearing within the Abies cephalonica woodlands. It colonizes the more or less flat surfaces, showing high coverage values.
Distribution: The association is spread in the southern slopes of Mt. Parnassus.
  • Chamaecytiso hirsuti-Astragaletum parnassi Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A23).
Holotypus: Appendix C, Table A23, rel. 6, hoc loco.
Characteristic species: Astragalus parnassi, Chamaecytisus hirsutus.
Structure and ecology: This association must be considered as a geographic vicariant of the Thymo parnassici-Astragaletum parnassi. In fact, it occurs on Mt. Giona, where it is localized in habitats very similar to that one occupied by the aforesaid association. This vegetation is always characterized by the dominance of Astragalus parnassi and is ditributed at an altitude of 1250–1500 m, in little inclinate stands localized within the Abies cephalonica woodlands. Floristically, it is characterized by the occurrence of Chamaecytisus hirsutus that forms large creeping cushion-like shrubs, while totally absent are several species of the related alliance, frequent though in the previous association.
Distribution: The association occurs in various localities of Mt. Giona.
  • Onobrychido pentelicae-Genistetum parnassicae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A24).
Holotypus: Appendix C, Table A24, rel. 5, hoc loco.
Characteristic species: Genista parnassica, Onobrychis alba subsp. pentelica.
Structure and ecology: The association replaces the Thymo parnassici-Astragaletum parnassici on the slopes with northern exposure of the southern part of Mt. Parnassus. This vegetation is very circumscribed and linked to a little inclinated escarpments with very deep and fresh soils at an altitude of 1100–1200 m. It is localized wihin the meso-temperate bioclimatic belt and is characterized by the dominance of the rare Genista parnassica that usually forms large thorny cushion-like shrubs, aften growing with Astragalus angustifolius subsp. erinaceus and, occasionally, with Astragalus rumelicus subsp. rumelicus and A. parnassi. Differential species of this association is Onobrychis alba subsp. pentelica, while as concerns the species of the higher syntaxa are well represented.
Distribution: The association seems circumscribed to a very narrow area of the southern part of Mt. Parnassus.
  • Allio cithaeronis-Dianthetum serratifolii Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A25).
Holotypus: Appendix C, Table A25, rel. 1, hoc loco.
Characteristic species: Allium cithaeronis, Dianthus serratifolius subsp. serratifolius, Petrorhagia armerioides, Paronychia macedonica, Scabiosa ochroleuca.
Structure and ecology: The association is circumscribed at the cacuminal calcareous plateau of Mt. Kitheronas, at an altitude of 1350–1400 m. It is a very windy place, subjected, unfortunately, to overgrazing, falling in the meso-Mediterranean bioclimatic belt. Physiognomically, it is differentiated by the occurrence of some small chamaephytes as Dianthus serratifolius subsp. serratifolius, Petrorhagia armerioides, Paronychia macedonica, and Scabiosa ochroleuca, growing togheter with the endemic Allium cithaeronis.
Distribution: The association is exclusive of Mt. Kitheronas (Sterea Hellas).
  • Inulo methaneae-Sideritetum atticae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A26).
Holotypus: Appendix C, Table A26, rel. 5, hoc loco.
Characteristic species: Inula verbascifolia subsp. methanea, Sideritis raeseri subsp. attica, Aethionema saxatile subsp. graecum.
Structure and ecology: The association occurs on the calcareous slopes of Mt. Parnis at an altitude of 1150–1300 m, within an area characterized by a meso-Mediterranean bioclimate and, particularly, affected by a regime of dense fog. It is localized on flat or a little inclinated surfaces with variable exposure. Physiognomically, it is differentiated by the occurrence and often dominace of small shrubs, as Inula verbascifolia subsp. methanea, Sideritis raeseri subsp. attica, Aethionema saxatile subsp. graecum, Alyssum montanum subsp. hymettium, Achillea holosericea, etc.
Distribution: The association was surveyed only in cacuminal stands of Mt. Parnis near Athens.
  • ASTRAGALION CEPHALONICI Musarella, Brullo & Giusso all. nov. hoc loco.
Holotypus: Scutellario cephalonicae-Astragaletum cephalonici Musarella, Brullo & Giusso ass. nov. hoc loco.
Characteristic species: Astragalus cephalonicus, Centaurea subciliaris subsp. subciliaris, Thymus holosericeus, Petrorhagia fasciculata var. cephallenica, Scutellaria rupestris subsp. cephalonica.
Structure and ecology: The alliance replaces in the Ionian islands of Cephalonia and Lefkada the Marrubio velutini-Thymion parnassici distributed in Sterea Ellas and Attica. The syntaxon at issue is well differentiated from the previous alliance for some floristic and ecological peculiarity due to its geographical isolation. Floristically, it is also differentiated by some insular endemics exclusive of Cephalonia and Lefkada, taxonomically quite significant, such as Astragalus cephalonicus, Centaurea subciliaris subsp. subciliaris, Thymus holosericeus, Scutellaria rupestris subsp. cephalonica, and Petrorhagia fasciculata var. cephallenica. The communities belonging to this alliance are localized on the top of isolated mountain summits at altitudes between 800 and 1400 m, which are markedly affected by moist marine winds.
Distribution: The alliance seems circumscribed to the Ionian Islands of Cephalonia and Lefkada.
  • Helictotricho convoluti-Thymetum holosericei Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A27, rel. 1–5).
Holotypus: Appendix C, Table A27, rel. 3, hoc loco.
Characteristic species: Helictotrichon convolutum subsp. convolutum, Ononis pusilla, Allium lefkadensis, Aurinia saxatilis subsp. saxatilis, Erysimum linearifolium.
Structure and ecology: The association is localized on the cacuminal plateau more or less windy, characterized by very rocky calcareous substrata with immature soils. This vegetation has its optimum at 800–1000 m of altitude, within the upper meso-Mediterranean belt. Floristically, it is differentiated by the dominance of the endemic Thymus holosericeus which grows togheter with the tuffs of Helictotrichon convolutum subsp. convolutum, an Est-Mediterranean species, and the endemic Allium lefkadensis. In this association occurs also Astragalus cephalonicus which was already recorded in this mountain by Hofmann [85].
Distribution: This association is localized in the Lefkas Island in small places on Mt. Elati (Stravoti).
  • Saturejo cuneifoliae-Thymetum holosericei Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A27, rel. 6–9).
Holotypus: Appendix C, Table A27, rel. 6, hoc loco.
Characteristic species: Allium cephalonicum, Centaurea spruneri subsp. guicciardi, Satureja cuneifolia.
Structure and ecology: The association, ecologically very similar to the previous one, occurs on calcareous rocky outcrops at 800–1000 m of altitude in the Cephalonia Island. Floristically, it is differentiated from the previous one for the lack of Helictotrichon convolutum subsp. convolutum, while Satureja cuneifolia is frequent, which togheter with Thymus holosericeus and Astragalus cephalonicus, characterizes this cushion-like prostrate vegetation. Moreiover, the occurrence of Allium cephalonicum in this vegetation is significant, as a very rare and isolated endemic species, closely related to A. callidictyon C. A. Meyer ex Kunth [86].
Distribution: It is a geographical vicariant of the previous association in Cephalonia Island where it is localized on Mt. Ainos and Mt. Roudhi in open and windy places.
  • Scutellario cephalonicae-Astragaletum cephalonici Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A27, rel. 10–12).
Holotypus: Appendix C, Table A27, rel. 12, hoc loco.
Characteristic species: Astragalus cephalonicus, Galium ionicum, Erysimum cephalonicum.
Structure and ecology: This association replaces the previous one in the higher stands at altitudes between 1200 and 1400 m, where it is localized in more or less sloping stands characterized by calcareous rocky substrata. Floristically, it is differentiated from the previous association for the dominace of Astragalus cephalonicus which grows togheter with other endemisms as Erysimum cephalonicum and Scutellaria rupestris subsp. cephalonica. This vegetation is localized within supra-Mediterranean bioclimatic belt in the clearing of the Abies cephalonica woodlands that occur in the surfaces with more deep and mature soils.
Distribution: The association occuring in the Cephalonia Island, replaces at higher altitudes the Saturejo cuneifoliae-Thymetum holosericei.
  • Paronychio graecae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A27, rel. 13–19).
Holotypus: Appendix C, Table A27, rel. 15, hoc loco.
Characteristic species: Astragalus angustifolius subsp. erinaceus, Paronychia albanica subsp. graeca, Galium circae, Trinia glauca subsp. pindica, Aubrieta deltoidea, Viola cephalonica, Astragalus depressus subsp. depressus, Verbascum guicciardii.
Structure and ecology: This association is localized in cacuminal open stands at an altitude of 1600 m, colonizing the calcareous rocks of southern slopes usually quite inclined. These surfaces are strongly affected by winds and daily thermic changes, also subject to long periods of snow cover, with very superficial and eroded soils. Physiognomically it is characterized by small and flattened pulvines of Astragalus angustifolius subsp. erinaceus, growing together with other dwarf orophytes with chamaephytic or hemicryptophytic habit, some of them endemic, such as Paronychia albanica subsp. graeca, Galium circae, Viola cephalonica, Scutellaria rupestris subsp. cephalonica, etc. This vegetation occurs within supra-Mediterranean bioclimatic belt, which is replaced in the northern slopes with not eroded and mature soils by Abies cephalonica woodlands.
Distribution: The association is exclusive of Cephalonia Island it only occurs in the top of Mount Ainos.
  • ASTRAGALION EUBOICI Musarella, Brullo & Giusso all. nov. hoc loco.
Holotypus: Sideritido euboeae-Astragaletum euboici Musarella, Brullo & Giusso ass. nov., hoc loco.
Characteristic species: Astragalus rumelicus subsp. euboicus, Asperula suffruticosa, Hieracium pannosum subsp. euboeum, Nepeta dirphya, Paronychia euboaea, Sideritis euboea, Verbascum delphicum.
Structure and ecology: The alliance can be considered a geographical vicariant on the Euboea mountains of the Marrubio velutini-Thymion parnassici distributed in the continental Central Greece. It is differentiated from the latter alliance for its floristic peculiarities (represented by several endemics), linked to geographical isolation due to its insularity. The plant communities belonging to this syntaxon are surveyed at altitudes between 1000 and 1700 m on prevalently carbonatic substrata.
Distribution: The alliance is circumscribed to the Euboea Island in the Central Egean Sea.
  • Sideritido euboeae-Astragaletum euboici Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A28).
Holotypus: Appendix C, Table A28, rel. 4, hoc loco.
Characteristic species: Astragalus rumelicus subsp. euboicus, Cytisus supinus.
Structure and ecology: The association is localized on the carbonatic rocky outcrops at 1100–1200 m of altitude, occasionally reaching 1350 m. The surfaces colonized by this vegetation are more or less inclinate and represented by sunny slopes. The vegetation is dominated by pulvinate shrubs of Astragalus rumelicus subsp. euboicus, which covers also very large surfaces. Other shrubs are also very frequent, such as Cytisus supinus, Sideritis euboea, Inula candida subsp. limonella and Nepeta dirphya, species quite important from the physiognomical point of view.
Distribution. The association was surveyed on Mt. Dirfis in the Euboea Island.
  • Scabioso webbianae-Phlomidetum samiae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A29).
Holotypus: Appendix C, Table A29, rel. 3, hoc loco.
Characteristic species: Phlomis samia, Scabiosa webbiana, Viola euboaea, Helleborus cyclophyllus.
Structure and ecology: The association is circumscribed to the fresh depressions with more deep soils and rich in humus, localized at 1000–1100 m of altitude. Quite significant it is here the occurrence of some mesophilous species with herbaceous habit, such as: Phlomis samia, Scabiosa webbiana, Viola euboaea and Helleborus cyclophyllus.
Distribution: The association was surveyed on Mt. Dirfis in the Euboea Island.
  • Sideritido euboeae-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A30).
Holotypus: Appendix C, Table A30, rel. 1, hoc loco.
Characteristic species: Festuca cyllenica subsp. cyllenica, Sideritis euboea, Bolanthus graecus, Carum graecum subsp. graecum, Arenaria filicaulis subsp. euboica.
Structure and ecology: The cacuminal stands at altitudes over 1550 m are colonized by a herbaceous perennial vegetation dominated by Festuca cyllenica subsp. cyllenica. Usually, this species colonizes the stony soils and the consolidated screes, adapting well to long periods of snow cover. The association is well differentiated from the other communities characterized by the dominace of Festuca cyllenica subsp. cyllenica, distributed in the mountains of continental Greece, due to the occurrence of rare orophytes, some endemic of Euboea, such as Sideritis euboea.
Distribution: The association was surveyed on Mt. Dirfis in the Euboea Island.
  • Inulo limonellae-Seslerietum vaginalis Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A31).
Holotypus: Appendix C, Table A31, rel. 8, hoc loco.
Characteristic species: Sesleria vaginalis, Inula candida subsp. limonella.
Structure and ecology: The association covers the very inclinate southern rocky slopes of the calcareous summits at 1150–1500 m of altitude. Physiognomically, it is characterized by the dominace, with high coverage values, of Sesleria vaginalis, which grows with small shrubs of Inula candida subsp. limonella, Sideritis euboea and Astragalus rumelicus subsp. euboicus. The association replaces the Sideritido euboeae-Astragaletum euboici in the stands at altitudes over 1150 m of very opened and windy slopes.
Distribution: The association was surveyed on Mt. Dirfis in the Euboea Island.
  • FESTUCO ACHAICAE-MARRUBION CYLLENEI Musarella, Brullo & Giusso all. nov. hoc loco
Syn.: Eryngieto-Bromion Quézel 1964, Vegetatio, 12:326, p.min.p., nom. ambig. rejic. propos. (art. 36).
Eryngio multifidi-Bromion fibrosi Quézel 1964, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18:82 p.min.p.nom. ambig. rejic. propos. (art. 36).
Astragaleto-Seslerion Quézel 1964, Vegetatio, 12:326, p.min.p., nom. ambig. rejic. propos. (art. 36).
Astragalo angustifolii-Seslerion coerulantis Quézel 1964, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18:82, p.min.p., nom. ambig. rejic. propos. (art. 36).
Stipeto-Morinion Quézel 1964, Vegetatio, 12:326, p.min.p., nom ambig. rejic. propos. (art. 36).
Stipo pulcherrimae-Morinion persicae Quézel 1964, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18:82 p.min.p., nom. ambig. rejic. propos. (art. 36).
Holotypus: Festuco achaicae-Minuartietum stellatae Musarella, Brullo & Giusso ass. nov. hoc loco.
Characteristic species: Aster cylleneus, Astragalus calavrytensis, A. cylleneus, Festuca jeanpertii subsp. achaica, Globularia stygia, Marrubium cylleneum, Onobrychis montana subsp. macrocarpa, Sideritis clandestina subsp. peloponnesiaca, Taraxacum cylleneum, Verbascum cylleneum.
Structure and ecology: This alliance represents the southern geographical vicarious of Marrubio velutini-Thymion parnassici, grouping, similarly to the latter, orophilous plant communities structurally characterized by the dominance of chamaephytes and pulvinate nanophanerophytes, sometimes mixed with caespitose hemicryptophytes. Particularly, they differ from those ones occurring in the mountains of Sterea Ellas, apart from the occurrence of a rich set of endemics, also for their ecological requirements. In fact, these communities are subject to climatic conditions characterized by a a more marked thermophily, with higher average annual temperatures and drier rainfall regime, especially in summer. This area falls mainly in the supra-and oro-temperate of sub-Mediterranean type. Moreover, from the phytogeographical point of view, it is possible observe a strong increase of species belonging to taxonomic groups showing a more southern origin.
Distribution: The alliance is distributed in the mountains of northern Peloponnese (Mt. Erimanthos, Mt. Panachaiko, Mt. Chelmos, Mt. Klokos, Mt. Killini and Mt. Menalon).
Notes: The Festuco achaicae-Marrubion cyllenei has a strictly phytogeographical characterization, since it is floristically differentiated by species confined to the mountains of Achaia, Corinthia and North Arcadia. It groups plant communities occurring in high mountain stands at altitudes from 1200 to 2400 m. This alliance groups, in addition to several new associations, also other ones described by Quézel [35], Quézel and Katrabassa [40], Georgiadis and Dimopoulos [42], Maroulis and Georgiadis [44], which previously were attributed by these authors in the alliances Stipo-Morinion, Eryngio-Bromion and Astragalus-Seslerion.
  • Cirsio hypopsilii-Astragaletum taygetici Quézel 1964 corr. (Table A32)
Syn.: Association à Astragalus cylleneus et Cirsium cylleneum Quézel 1964, Vegetatio 12:332.
Astracantho thracicae-Marrubietum cyllenei Georgiadis & Dimopoulos 1993 Bot. Helv. 103:153, nom. inval. (art. 3 c, 5)
Marrubio cyllenei-Astragaletum rumelici Maroulis & Georgiadis 2005, Fitosociologia 42(1): 43, nom. illeg. (art. 22,23); Holotypus: Table 2, rel. 460, Maroulis & Georgiadis [44].
Lectotypus: Table 17, rel. 1, Quézel [35], hoc loco.
Characteristic species: Astragalus rumelicus subsp. taygeticus, Cirsium hypopsilium.
Structure and ecology: The association is localized on the slopes more or less inclined with variable exposure, characterized by carbonatic stony substrata with rocky outcrops. The soils are enough evolved, but with a significant component of coarse skeleton. It is widespread at altitudes from 1400 to 2000 m, within the supra-temperate sub-Mediterranean bioclimatic belt, with penetrations upwoard in the oro-temperate submediterranean belt and downward in the meso.Mediterranean one. In fact, examples of this vegetation can be observed up to 2150 m of altitude in places well exposed and sunny, as well as at relative low altitudes (1150 m), limited to cacuminal and very rocky windy stands. Physiognomically, this association is differentiated by large thorny pulvinate individuals, often quite raised from the ground, of Astragalus rumelicus subsp. taygeticus, that in the Peloponnese replaces the subsp. rumelicus, distributed in the central and northern Greece [87]. Previously, the populations of this Astragalus occurring in the M. Killini were identified by Quézel [35] and Georgiadis and Dimopoulos [42] as Astragalus cylleneus, quite rare species on this massif, where it is localized in habitat totally different from those ones normally occupied by the association in question. As regards the floristic composition of this pulvinate vegetation, it is observed a rich contingent of characteristic species of the alliance, as well as of higher syntaxa. It assumes usually a climatophilous role especially at altitudes over 1700–1800 m, while at lower altitudes can be considered as an edaphophilous vegetation, limitedly to cacuminal more rocky stands. Within the climatophilous belt relative to Abies cephalonica woodlands, the association represents usually a substitution aspect, due to degradation of this forest.
Distribution: The association is widespread and well represented in the various mountains of the northern Peloponnese, as Mt. Erimanthos, Mt. Panachaiko, Mt. Klokos and Mt. Killini, where it tends to occupy large surfaces.
Notes: This association was originally described by Quézel [35] for Mt. Killini as ass. à Astragalus cylleneus et Cirsium cylleneum and successively redescribed by Georgiadis and Dimopoulos [42], but changing its name in Astracantho thracicae-Marrubietum cyllenei comb. nova, not indicating the holotypus. Therefore, the last syntaxon is an invalid name, according to articles 3 c and 5. In both cases, the authors indicate as characteristic species, physiognomically dominant, Astragalus cylleneus (=Astracantha thracica subsp. cyllenea). Unfortunately, this species was misidentified by these authors, since on the Mt. Killini in the stands where they have carried out the relevés there is exclusively Astragalus rumelicus subsp. taygeticus, while the true A. cylleneus is very rare and confined in depressed areas, such as dolines, characterized by very deep soils rich in silt-clay component, not occurring never on rocky substrata. The association occurs with the same ecological characteristics and floristic composition also on Mt. Erimanthos, where it was correctly described by Maroulis and Georgiadis [44] as Marrubio cyllenei-Astragaletum rumelici. However, this syntaxon is an illegitimate name being a synonym of the association described by Quézel [35], whose name must be corrected in Cirsio hypopsilii-Astragaletum taygetici. In this association are well represented the characteristic species of the three alliances proposed by Quézel [35], particularity already evidenced by Georgiadis and Dimopoulos [42] and also by Maroulis and Georgiadis [44].
Syn.: Association à Aster cylleneus et Globularia stygia. Quézel 1964, Vegetatio, 12:337.
Lectotypus: Table 20, rel. 5, Quézel [35], hoc loco.
Characteristic species: Aster cylleneus, Globularia stygia, Macrotoma cephalotes, Taraxacum bythinicum.
Structure and ecology: The association has its best expression between 2000 and 2330 m of altitude, within the orotemperate sub-Mediterranean bioclimatic belt. It can be observed sometimes up to 1800 m in stands representated by rocky ridge. Usually, it is localized on markedly rocky surfaces, constitute by carbonate substrata, as the ridges, saddles and stabilized screes, stends generally very windy with very shallow and undeveloped soils. It is a vegetation dominated by small prostrate dwarf shrubs mixed with several hemicryptophytes. The most important species are Globularia stygia and Aster cylleneus, rare endemics known for Mt. Chelmos and Mt. Killini. Floristically, the association is rather poor with low values of coverage. Dynamically, it can be considered an essentially edaphophilous vegetation.
Distribution: The association is currently known only for Mt. Chelmos and Mt. Killini in the northern Peloponnese.
Notes: This association was previously included by Quézel [35] within Astragalo-Seslerion, even though, as evidenced by the same author, the species of this alliance were not well represented in the relevés.
  • Euphrasio salisburgensis-Asperuletum oetaeae Quézel & Katrabassa 1974, Rev. Biol. Ecol. Medit. 1(1):19, corr. (Appendix C, Table A34).
Syn.: Association à Asperula nitida et Euphrasia salisburgensis Quézel & Katrabassa 1974.
Lectotypus: Table 4, rel. 3, Quézel and Katrabassa [40], hoc loco.
Characteristic species: Asperula oetaea, Euphrasia salisburgensis, Iberis saxatilis subsp. saxatilis.
Structure and ecology: The association is localized at 2000 and 2200 m of altitude in the windy crests, with flat surfaces formed by eroded limestone cracked and free of soil. It is linked to the oro-temperate sub-Mediterranean bioclimatic belt, where it assumes a role clearly edaphophilous. Physiognomically, it is dominated by small prostrate chamaephytes mixed to rosulate hemicryptophytes with coverage values not too high. It is significant the occurrence of some orophytes that find in this vegetation type their optimal growth conditions, such as Asperula oetaea (by Quèzel and Katrabassa [40] quoted as A. nitida), Paronychia albanica subsp. graeca (as P. chionaea), Euphrasia salisburgensis and Iberis saxatilis subsp. saxatilis. These authors distinguish within this association two sub-associations proposed as erodietosum chrysanthi, located on compact limestone, and minuartietosum confusae, occurring on calcareous substrata that flake on plakes.
Distribution: The association occurs only on Mt. Chelmos in northern Peloponnese.
  • Marrubio cyllenei-Astragaletum calavrytensis Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A35).
Syn.: Association à Astragalus cylleneus et Cirsium cylleneum subass. à Astragalus cylleneus Quézel & Katrabassa 1974, Rev. Biol. Ecol. Medit. 1(1):16, non Quézel 1964.
Holotypus: Appendix C, Table A35, rel. 5, hoc loco.
Characteristic species: Astragalus calavrytensis.
Structure and ecology: The association is localized on the little inclined slopes with rocky outcrops and more or less developed soils, rich in coarse skeletal component. It is developped in the bioclimatic belts between the supra-temperate sub-Mediterranean and the oro-temperate sub-Mediterranean, at altitudes of 1800 and 2200 m. Sometimes examples of this vegetation are found up to 1500 m of altitude in the markedly rocky stands. It is a plant community dominated by thorny pulvini of Astragalus calavrytensis, by Quézel and Katrabassa [40] mistakenly attributed to A. cylleneus. This species showing often high values of coverage, it is usually associated with Marrubium cylleneum, which assumes also a significant physiognomical role. The association has usually a clear climatophilous role, although sometimes, especially at lower altitudes, it represents an aspect of substitution, or at most edaphophilous. It can be considered as a geographical vicariant of the Cirsio hypopsilii-Astragaletum taygetici occurring in other mountains of the Peloponnese. Whitin this association, three subassociations linked to altitudinal ranges can be distinguished: (a) elytrigietosum intermediae subass. nov. (holotypus: rel. 6, hoc loco), distributed at lower altitudes (1250–1650 m), differentiated by Elytrigia intermedia and Silene italica subsp. peloponnesiaca; (b) hippocrepidetum comosae subass. nov. (holotypus: rel. 10, hoc loco), distributed between 1650 and 2000 m of altitude, which is differentiated by Hippocrepis comosa; (c) tulipetosum australis subass. nov. (holotypus: rel. 21, hoc loco), localized at 2000–2200 m of altitude, characterized by Tulipa australis, Ornithogalum oligophyllum and Gagea villosa.
Distribution: On the basis of current knowledge, this association seems to be exclusive of Mt. Chelmos in the northern Peloponnese.
Notes: Previously Quézel and Katrabassa [40] attributed this vegetation to the Ass. à Astragalus cylleneus et Cirsium cylleneum described by Quézel [35] for Mt. Killini. Effectively as previously emphasized, the aforesaid authors mistakenly attributed these populations of A. calavrytensis to A. cylleneus. As clearly can be observed from floristic composition and ecology, the vegetation of Mt Chelmos is well differentiated from that one of Mt. Killini and therefore they must be treated as two distinct associations.
  • Plantagini graecae-Astragaletum cyllenei Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A36).
Holotypus: Appendix C, Table A36, rel. 4, hoc loco.
Characteristic species: Astragalus cylleneus, Alopecurus gerardii, Plantago atrata subsp. graeca, Potentilla recta.
Structure and ecology: The association is localized in small depressions, similar to dolines, in the middle of the carbonatic rock outcrops, where there is a fairly deep soil rich in silt and clay, accumulated as a result of processes of washing away of the surrounding surfaces more or less sloping. It was surveyed in the supra-temperate sub-Mediterranean bioclimatic belt at 1800–2000 m of altitude. Physiognomically, it is dominated by Astragalus cylleneus, usually associated with numerous other orophytes of the alliance and higher syntaxa. The deep and compact soil justifies the occurrence of mesic species of the Trifolion parnassi, such as Alopecurus gerardii, Plantago atrata subsp. graeca and Potentilla recta. The arrangment of this association in the Festuco achaicae-Marrubion cyllenei rather than in the Trifolion parnassi is justified by the fact that from the structural point of view it is a shrub vegetation of tragacanthoid type, as most of the community of the alliance in question and not of a meadow with prevalence of small herbaceous hemicryptophytes. In addition, the floristic contingent of species of the Cerastio candidissimi-Astragaletea rumelici as well as the related alliance is clearly prevalent respect to that one of Trifolietalia and Trifolion parnassi.
Distribution: This association was observed on Mt. Killini, where is localized exclusively on Mt. Simios.
Notes: The Plantagini graecae-Astragaletum cyllenei is floristically and ecologically quite related to the Nepeto epiroticae-Astragaletum corynthiaci occurring on M. Parnassuss. In fact, both associations are characterized by the dominance of vicariant tragacantoidi species of Astragalus and by the occurrence of species of Trifolion parnassi. In addition, they are localized exclusively in stands more or less depressed with very thick and compact soils, poor in skeleton.
  • Festuco achaicae-Minuartietum stellatae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A37).
Syn.: Aggr. à Minuartia stellata Quézel & Katrabassa 1974, Rev. Biol. Ecol. Medit. 1(1):18.
Comm. à Minuartia stellata Georgiadis & Dimopoulos 1993, Bot. Helv. 103:160.
Holotypus: Appendix C, Table A37, rel. 7, hoc loco.
Characteristic species: Minuartia stellata, Festuca jeanpertii subsp. achaica, Allium cylleneum.
Structure and ecology: The association is linked to rocky stands with calcareous outcrops or to compact rocky surfaces, more or less sloping at the foot of vertical walls. It is a habitat of semirupestrian type, with soils present only in rocky crevices or in small ledges. This vegetation seems to have its optimum in the oro-temperate sub-Mediterranean bioclimatic belt, at 2000–2250 m of altitude; examples can be observed also at lower altitudes (up to 1800 m) within the supra-temperate sub-Mediterranean belt. Physiognomically, the association is differentiated by the occurrence of compact and large pulvini of Minuartia stellata, sometimes mixed with smaller other ones of Asperula boissieri. The characteristics of the alliance of higher syntaxa are here well represented; among these show a greater diffusion and coverage Astragalus angustifolius subsp. erinaceus, Festuca janpertii subsp. achaica and Festuca cyllenica subsp. cyllenica. The association is a typical edaphophilous aspect, colonizing small areas scattered in midst of the tragacanthoid community of Cirsio hypopsilii-Astragaletum taygetici or Plantagini graecae-Astragaletum cyllenei. Previously, it was described by Quézel and Katrabassa [40] as. aggr. à Minuartia stellata and by Georgiadis and Dimopoulos (ref. [42] as comm. à Minuartia stellata).
Distribution: This association is well represented on Mt. Chelmos, Mt. Killini and Mt Klokos in the northern Peloponnese.
Notes: The Festuco achaicae-Minuartietum stellatae can be considered as a southern vicariant of the Erysimo parnassi-Minuartietum stellatae, association described by Quézel [35] for Mt. Parnassus.
  • Alysso taygetei-Plantaginetum alpestris Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A38).
Holotypus: Appendix C, Table A38, rel. 1, hoc loco.
Characteristic species: Alyssum taygeteum, Plantago holosteum var. alpestris, Scorzonera mollis.
Structure and ecology: The association is linked to cacuminal stations and very windy stands, localizing on carbonate substrata flaking in platelets, with primitive or very immature soils. It is distributed within the oro-temperate sub-Mediterranean bioclimatic belt, at 2000–2100, where it has its optimum on surfaces strongly eroded and subject to gelifluxion. It is a low pulvinar vegetation characterized by small, often prostrate, chamaephytes, in which play a significant role Alyssum taygeteum and Plantago holosteum var. alpestris, growing usually together with Astragalus angustifolius subsp. erinaceus and Astragalus rumelicus subsp. taygeticus.
Distribution: The association was observed only on Mt. Chelmos in the northern Peloponnese.
  • Hieracio sartoriani-Seslerietum tenerrimae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A39).
Syn.: Ass. à Astragalus cylleneus et Cirsium cylleneum subass. à Festuca varia facies à Sesleria coerulans Quézel & Katrabassa 1974, Rev. Biol. Ecol. Medit. 1(1):18.
Holotypus: Appendix C, Table A39, rel. 7, hoc loco.
Characteristic species: Sesleria tenerrima, Hieracium sartorianum, Arenaria cretica var. stygia, Galium incanum subsp. incanum, Silene auriculata.
Structure and ecology: The association is localized on the rocky ridges, sometimes cacuminal, on substrates consisting of compact craked limestone, with soil present only in the rocky ravines and ledges. It was observed at 1900–2350 m of altitude, within the oro-temperate sub-Mediterranean bioclimatic belt, in ecologically very specialized contexts. In fact, in these stands there are very rigid environmental conditions, as strong winds, soil erosion, marked acclivity, gelifluction, etc. This vegetation represents a typical orophilous thinned out grassland, dominated by Sesleria tenerrima. In the middle of the tuffs of this grass grow several hemicryptophytes and chasmophyte, that highlight the semirupestrian characteristics of the habitat. This association clearly constitutes an edaphophilous aspect, replaced in typically rocky habitats by casmophilous comminities of Asplenietea trichomanis.
Distribution: Based on current knowledge, the association is known only for Mt. Chelmos in northern Peloponnese.
Notes: Within this association some relevés carried out by Quézel and Katrabassa [40] and considered by them as a facies à Sesleria caerulans of the subass. à Festuca varia of the ass. à Astragalus cylleneus et Cirsium cyllenneum can be included.
  • Asperulo boissieri-Festucetum cyllenicae Georgiadis & Dimopoulos ex Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A40).
Syn.: Festuco cyllenicae-Asperuletum boissieri Georgiadis & Dimopoulos 1993, Bot. Helv. 103(2):158, nom. inval. (art. 5).
Holotypus: Table 3, rel. 1, Georgiadis and Dimopoulos [42], hoc loco.
Characteristic species: Festuca cyllenica subsp. cyllenica, Dianthus integer subsp. minutiflorus.
Structure and ecology: The association colonizes the rocky calcareous substrata and stabilized screens, more or less sloping with shallow undeveloped and heavily skeletal soils. It is usually distributed at 2000 and 2200 m of altitude, coming down sometimes up to 1800 m, within the oro-temperate sub-Mediterranean bioclimatic belt, penetrating marginally also in that one supra temperate sub-Mediterranean belt. Physiognomically, it is differentiated by the dominance of large tufts of Festuca cyllenica subsp. cyllenica, that, sometimes, are mixed with those ones of Sesleria vaginalis. Scattered with these grasses there are some low prostrate pulvini of Asperula boissieri and Astragalus angustifolius subsp. erinaceus. It usually assumes a climatophilous role in the higher cacuminal places of the mountains.
Distribution: The association is known only for Mt. Killini in the northern Peloponnese.
Notes: This association was described by Georgiadis and Dimopoulos [42] from various stands of Mt. Killini and included by them with some perplexity within the Astragalo-Seslerion, due to the occurrence of a relevant number of characteristics of the Eryngio-Bromion. However, this syntaxon is an invalid name, because the authors do not indicate the relevé type of the association.
  • Ranunculo brevifolii-Seslerietum tenerrimae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A41).
Holotypus: Appendix C, Table A41, rel. 3, hoc loco.
Characteristic species: Sesleria tenerrima, Ranunculus brevifolius, Ranunculus sartorianus, Dianthus serratifolius subsp. abbreviatus.
Structure and ecology: The association is linked to stabilized screes characterized by a marked acclivity and occurrence of undeveloped soils with a high percentage of skeleton. It is located at 2000–2100 m of altitude, within the oro-temperate sub-Mediterranean bioclimatic belt. It is a typical grassland characterized by the dominance of Sesleria tenerrima, showing a very scattered coverage, interspersed with small bare sufaces. Mixed with this grass there are tuffs of Festuca cyllenica subsp. cyllenica, which often show a high coverage, and several quite significant rosulate hemicryptophytes, such as Ranunculus brevifolius, Ranunculus sartorianus, Dianthus serratifolius subsp. abbreviatus. For its peculiar ecology, the association must to be considered as an edaphophilous aspect, which tends due to the natural evolution of the soil, towards pulvinate communities, structurally more evolved.
Distribution: The association occurs only in Killini massif on Mt. Simios (northern Peloponnese).
  • Astragaletum hellenico-erinacei Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A42).
Holotypus: Appendix C, Table A42, rel. 6, hoc loco.
Characteristic species: Astragalus angustifolius subsp. erinaceus, A. hellenicus.
Structure and Ecology: The association is localized on fairly inclined rocky slopes, with soils more or less deep and rich in coarse skeleton. From the structural point of view, the vegetation is differentiated by the dominance of tragacanthoid pulvini of Astragalus angustifolius subsp. erinaceus, which grows togheter with several chamaephytes and hemicryptophytes, among them Astragalus hellenicus, endemic species, rare in the Peloponnese. This association, showing usually a climatophilous character, at least in the rocky cacuminal stands, represents often a substitution aspect, replacing the forests of Abies cephalonica as a result of soil degradation processes.
Distribution: The association was suveyed only on Mt. Menalon in the Central Peloponnese.
Notes: On the whole, it can be considered as a thermophilous vicariant of the community with Astragalus rumelicus subsp. taygeticus occurring in the other massifs of the northern Peloponnese.
  • Festucetum polito-cyllenicae Maroulis & Georgiadis 2005, Fitosociologia 42(1):44, corr. (Appendix C, Table A43).
Syn.: Festuco politae-Festucetum cyllenicae Maroulis & Georgiadis 2005, Fitosociologia 42(1):44.
Holotypus: Table 2, rel. 509, Maroulis and Georgiadis [44].
Characteristic species: Festuca cyllenica subsp. cyllenica, Festuca polita, Campanula albanica subsp. albanica and Taraxacum delphicum.
Structure and ecology: The association is localized along the very sloped surfaces on stabilized screes or rocky stands with undevelopped calcareous soils rich in scheleton. It is widespread at 1750–2200 m of altitude, within the supra-temperate and oro-temperate sub-Mediterranean bioclimatic belts, where it plays a climatophilous role. This vegetation constitutes dense orophilous grasslands dominated by Festuca cyllenica subsp. cyllenica, Festuca polita and Sesleria vaginalis, where are frequent several other hemicryptophytes and small chamaephytes.
Distribution: According to literature, it is widespread on various mountains of the Erimanthos massif in the Northern Peloponnese.
Notes: The association described by Maroulis and Georgiadis [44] as Festuco politae-Festucetum cyllenicae, was included by the authors in the Eryngio-Bromion although there is a significant contingent of characteristics of Astragalo-Seslerion. For its structure and ecology, as well as for its floristic composition, this association is quite related to Asperulo boissieri-Festucetum cyllenicae from Mt. Killini, from which differs mainly for its floristic set.
  • Arenario filicaulis-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A44).
Holotypus: Appendix C, Table A44, rel. 1, hoc loco.
Characteristic species: Festuca cyllenica subsp. cyllenica, Arenaria filicaulis subsp. filicaulis, Ranunculus psilostachys.
Structure and ecology: The association occurs mainly on stabilized screes or on quite inclined slopes covered by calcareous stones, mixed with scarce humus. It is surveyed at 1500 and 1600 m of altitude on northern slopes, it colonizes large surfaces. Physiognomically, it is characterized by the dominance of large tufts of Festuca cyllenica subsp. cyllenica, which grows very well on inclined slopes subject to long periods of snow coverage. This vegetation, where it is frequent also Festuca jeanpertii subsp. achaica, results well differentiated from the other associations with Festuca cyllenica subsp. cyllenica for the occurrence of Arenaria filicaulis subsp. filicaulis and Ranunculus psilostachys.
Distribution: The association is frequent on Mt. Panachaiko in the northern Peloponnese.
  • Aurinio moreanae-Lomelosietum crenatae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A45).
Holotypus: Appendix C, Table A45, rel. 6, hoc loco.
Characteristic species: Aurinia moreana, Lomelosia crenata subsp. crenata.
Structure and ecology: The association is localized in semirupestrian habits on very sloped (70–80°) limestone outcrops, usually showing a northern exposure. This vegetation dominated by Lomelosia crenata subsp. crenata and Aurinia moreana, is distributed at 1600 and 1700 m of altitude. It is an edaphophilous community, replacing in this rocky stand the Cirsio hypopsilii-Astragaletum taygetici. On the whole, the species of the alliance and higher syntaxa are here well represented, among them there are Festuca jeanpertii subsp. achaica, Astragalus angustifolius subsp. erinaceus, Astragalus rumelicus subsp. taygeticus, Achillea umbellata, etc.
Distribution: The association was surveyed only on Mt. Klokos in northern Peloponnese.
  • Onosmo malickyi-Astragaletum hellenici Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A46).
Holotypus: Appendix C, Table A46, rel. 2, hoc loco.
Characteristic species: Onosma erectum subsp. malickyi, Astragalus hellenicus, Alyssum murale.
Structure and ecology: The association occurs at 1300–1400 m of altitude, in the clearing within the Abies cephalonica woodlands. The surfaces are slightly inclined, and the soils are covered with a bed of fir needles. Floristically, it is characterized by hemicryptophytes and small chamaephytes, among them Onosma erectum subsp. malickyi, Astragalus hellenicus, Alyssum murale, Helianthemum hymettium and Festuca jeanpertii subsp. achaica.
Distribution: This community was surveyed only on Mt. Chelmos near Mavros Logos.
  • Violo graecae-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A47).
Holotypus: Appendix C, Table A47, rel. 7, hoc loco.
Characteristic species: Festuca cyllenica subsp. cyllenica, Viola graeca, Ornithogalum oligophyllum.
Structure and ecology: The association occurs on calcareous stabilized screes and stony slopes at 2000 and 2500 m of altitude. It is a pioneer vegetation linked to slightly inclined surfaces and poor in soil. Physiognomically, it is characterized by the dominance of Festuca cyllenica subsp. cyllenica, which constitute wide grasslands where occur several orophytes of higher syntaxa. Small hemicryptophytes and geophytes found often refuge among the tuffs of this plant, among them Viola graeca, Ornithogalum oligophyllum, Allium frigidum, Galium taygeteum, Geocaryum peloponnesiacum, etc.
Distribution: This association is widespread on Mt. Chelmos.
  • Tripodio graeci-Helictotrichetum heldreichii Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A48).
Holotypus: Appendix C, Table A48, rel. 1, hoc loco.
Characteristic species: Helictotrichon convolutum subsp. heldreichii, Tripodion graecum.
Structure and ecology: The association occurs at 1400 and 1600 m of altitude, in the large rock clearing within the Abies cephalonica woodlands. Normally it is frequent along the more or less inclined slopes characterized by rocky outcrops with very shallow and immature soils. The occurrence of Tripodion graecum is significant, i.e., since it is a species known only from a few places in the Peloponnese and Anatolia (mainly in the Taurus region). It is usually associated with Helictotrichon convolutum subsp. heldreichii, generally with high values of coverage, and Festuca jeanpertii subsp. achaica. In this vegetation the species of higher syntaxa are overall well represented.
Distribution: The association is widespread in the lower montane belt of Mt. Menalon, Central Peloponnese.
  • SIDERITIDO CLANDESTINAE-ASPERULION MUNGIERI Musarella, Brullo & Giusso all. nov. hoc loco.
Syn.: Eryngieto-Bromion Quézel 1964, Vegetatio, 12:326, p.min.p., nom. ambig. rejic. propos. (art. 36).
Eryngio multifidi-Bromion fibrosi Quézel 1964, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18:82 p.min.p., nom. ambig. rejic. propos. (art. 36).
Astragaleto-Seslerion Quézel 1964, Vegetatio, 12:326, p.min.p., nom. ambig. rejic. propos. (art. 36).
Astragalo angustifolii-Seslerion coerulantis Quézel 1964, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18:82, p.min.p., nom. ambig. rejic. propos. (art. 36).
Stipeto-Morinion Quézel 1964, Vegetatio, 12: 26, p.min.p., nom. ambig. rejic. propos. (art. 36).
Stipo pulcherrimae-Morinion persicae Quézel 1964, corr. Quézel, Barbero & Akman 1992, Ecol. Medit. 18:82, p.min.p., nom. ambig. rejic. propos. (art. 36).
Holotypus: Sideritido clandestinae-Astragaletum taygetici Musarella, Brullo & Giusso ass. nov.
Characteristic species: Achillea setacea, Achillea taygetea, Allium pycnotrichum, Anthemis laconica, Asperula boryana, Asperula mungieri, Astragalus taygeteus, Asyneuma psaridis, Crepis heldreichiana, Nepeta camphorata, Phitosia crocifolia, Sideritis clandestina subsp. clandestina, Viola sfikasiana.
Structure and ecology: It gathers, likewise to the previous alliances included in order Eryngio multifidi-Armerietalia orphanidis, the orophilous plant communities rich in chamaephytes and nanophanerophytes, often with pulvinate habit, as well as in hemicryptophytes, while rarer are the geophytes. On the whole, the associations belonging to this alliance show a more marked thermophily than those ones of the other two alliances. In addition, the considerable contingent of endemics that characterizes this syntaxon is represented mainly by species taxonomically quite isolated or otherwise of remarkable phytogeographical significance. From the bioclimatic point of view, this alliance falls in an area affected by termotypes referring to supra-and oro-Mediterranean, since one detects a long period of high summer dryness enough, although there is a certain tendency towards the supra- and oro-temperate sub-Mediterranean type, with ombrotypes characterized by scarce rainfall, especially during the summertime.
Distribution: The alliance is confined to the southern Peloponnese including the massifs of the Taygetos and Parnon.
Notes: Into this alliance, analogously to the other two previously described, fall within part of the alliances described by Quézel [35], namely Eryngio-Bromion, Stipo-Morinion, and Astragalo-Seslerion.
  • Scabioso taygeteae-Onosmetum leptanthae Quézel 1964, Vegetatio, 12:327 (Appendix C, Table A49).
Syn.: Association à Scabiosa taygetea et Onosma leptanthum Quézel 1964, Vegetatio, 12: 327.
Lectotypus: Table 15, rel. 2, Quézel [35], hoc loco.
Characteristic species: Onosma leptantha, Scabiosa taygetea subsp. taygetea, Calamintha suaveolens, Tripodion graecum.
Structure and ecology: The association is located on rocky outcrops or however more or less rocky surfaces consisting of compact limestone subject to heavy erosion and washing away. The soils are very superficial and localized in crevices and ledges. It is widespread within the meso-mediterranean and supra-Mediterranean bioclimatic belt, at 1250–1800 m of altitude. This vegetation is dominated by chamaephytes and nanophanerophytes of small and medium size, mixed to several caespitose hemicryptophytesche, and among them there are Onosma leptantha, Scabiosa taygetea subsp. taygetea, Pterocephalus perennis spp. perennis, Stipa endotricha, Dasypyrum hordeaceum, Koeleria mitrushii, Bromus riparius, Festuca jeanpertii subsp. jeanpertii. The association has a purely edaphophilous role, although it represents a secondary aspect too, as a result of degradation processes of Abies cephalonica woodlands.
Distribution: The association is distributed on Mt. Taygetos in the southern Peloponnese.
Notes: This association was considered by Quézel et al. [80] as the nomenclatural type of the alliance Stipo pulcherrimae-Morinion persicae, although in the relative phytosociological table there are several characteristic species of the other two alliances described by Quézel [3].
  • Danthoniastro compacti-Fumanetum alpinae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A50).
Holotypus: Appendix C, Table A50, rel. 4, hoc loco.
Characteristic species: Fumana paphlagonica subsp. alpina, Danthoniastrum compactum.
Structure and ecology: The association is localized on the slightly sloping limestone slabs, especially with an eastern exposure. It is developped within the supra-Mediterranean bioclimatic belt at an altitude of about a 1700 m. The surfaces are free of soil except in the cracks and small depressions, that allow the establishment of a rather sparse vegetation. It is a vegetation rich in small prostrate chamaephytes, sometimes creeping, among them particularly significant are Fumana paphlagonica subsp. alpina, Helianthemum hymettium, Teucrium montanum var. parnassicum and Asperula mungieri. Several hemicryptophytes, such as Danthoniastrum compactum, Festuca jeanpertii subsp. jeanpertii, Koeleria mitrushii and Stipa endotricha are also well represented. This association plays a clearly edaphophilous role replacing the Scabioso taygeteae-Onosmetum leptanthae in the above-mentioned habitats.
Distribution: Basing on the current knowledge, the association is confined to a small area of Mt. Taygetos in the southern Peloponnese.
  • Sideritido clandestinae-Astragaletum taygetici Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A51).
Syn.: Association à Sideritis theezans, Quézel 1964, Vegetatio, 12:331, nom. illeg. (art. 29).
Holotypus: Appendix C, Table A51, rel. 14, hoc loco.
Characteristic species: Astragalus rumelicus subsp. taygeticus, A. taygeteus, Plantago holosteum var. alpestris, Hypericum olympicum and Arabis subflava.
Structure and ecology: The association is widely distributed on flat and sometimes more or less sloped surfaces, characterized by not very deep soils, rich in minute skeletal component of carbonatic nature. It grows at 1700 and 2100 m of altitude, within the supra-Mediterranean bioclimatic belt with penetrations in oro-Mediterranean that one. This vegetation is physiognomically differentiated by the dominance of flashy tragacanthoid pulvini of Astragalus rumelicus subsp. taygeticus, A. taygeteus and, more rarely, by A. angustifolius subsp. erinaceus. Many other small shrubs are also quite frequent, such as Plantago holosteum var. alpestris, Sideritis clandestina subsp. clandestina, Cerastium candidissimum and several hemicryptophytes. Overall, the association, which usually shows a high value of coverage, must be considered as a climatophilous aspect, spread on all slopes regardless of exposure. From the physiognomic-structural point of view, it is quite related with the other pulvinate tragacanthoid associations dominated by Astragalus rumelicus s.l., such as Cirsio hypopsilii-Astragaletum taygetici, Astragaletum lacteo-taygetici and Marrubio velutini-Astragaletum rumelici.
Distribution: The association is exclusive of Mt Taygetos, in the southern Peloponnese.
Notes: This vegetation was described by Quézel [35] with the name “Association à Sideritis theezans”, which actually is not very significant from the floristic-structural viewpoint. In fact, Sideritis theezans (whose correct name is S. clandestina subsp. clandestina) is a small camaephyte with a secondary physiognomically role in the context of this shrubby association, dominated by some tragacanthoid nanophanerophytes, such as Astragalus rumelicus subsp. taygeticus and A. taygeteus. According to art. 29, the syntaxon is an illegitimate name and therefore should be replaced by a new name that expresses in clear way its floristic and physiognomic-structural peculiarities. It is therefore proposed the new name Sideritido clandestinae-Astragaletum taygetici with a better floristic characterization. In this regard it should be noted that S. clandestina subsp. clandestina is not exclusive to this association, but it is an endemic chamaephyte widespread in various orophilous communities of southern Peloponnese and therefore it has been proposed as characteristics of the alliance Sideritido clandestinae-Asperulion mungieri.
  • Rindero graecae-Acantholimetum graeci Quézel 1964, Vegetatio, 12:336 (Appendix C, Table A52), corr.
Syn.: Association à Acantholimon echinus et Rindera graeca Quézel 1964, Vegetatio, 12:336.
Lectotypus: Table 19, rel. 2, Quézel [35], hoc loco.
Characteristic species: Sesleria vaginalis, Jurinea taygetea, Minuartia condensata, Campanula papillosa, Erigeron epiroticus, Aethionema carlsbergii, Alyssum taygeteum, Bupleurum sibthorpianum.
Structure and ecology: The association is localized in cacuminal stands of high altitude, about 2200–2400 m, within the oro-Mediterranean bioclimatic belt. It prefers quite acclive surfaces, where it shows a coverage of 40–70%, which decreases significantly at higher altitudes. The substrata are represented by carbonatic rocks that break up into plaquettes or sometimes by semi-stabilized screes. Physiognomically the vegetation is characterized by thorny pulvini of Astragalus angustifolius subsp. erinaceus and Acantholimon graecum, mixed to several caespitose hemicryptophytes, such as Sesleria vaginalis. In addition, it is very significant the occurrence of some rare endemics exclusive of this vegetation, as Jurinea taygetea and Aethionema carlsbergii. This community, showing a clear climatophilous role, is linked to winterproof environmental features, such as the prolonged snow cover, the accentuated phenomena of gelifluction, exposure to cold winds and the occurrence of rocky substrata with shallow and immature soils. The name of this association must be corrected in Rindero graecae-Acantholimetum graeci since Acantholimon echinus subsp. echinus used by Quézel [35] is taxonomically incorrect and should be attributed to Acantholimon graecum (see Dimopoulos et al. [71].
Distribution: The association is confined to the cacuminal higher part of Mt. Taygetos, in the southern Peloponnese.
Notes: This association was included by Quézel [35] in the Astragalo-Seslerion and afterwards indicated by Quézel et al. [80] as the lectotype of this alliance.
  • Onosmo heterophyllae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A53).
Holotypus: Appendix C, Table A53, rel. 3, hoc loco.
Characteristic species: Onosma heterophylla.
Structure and ecology: The association was surveyed on carbonatic rocky slopes more or less inclined occurring at relatively low altitudes (1300–1500 m), characterized by coarse material mixed with immature soils. It is localized within the meso-Mediterranean bioclimatic belt, usually occupied by Abies cephalonica woodlands. From the physiognomic-structural point of view, this vegetation is differentiated by thorny pulvini of Astragalus angustifolius subsp. erinaceus, that grow together with other shrubs and several caespitose hemicryptophytes; among the latter there are Onosma heterophylla, Stipa endotricha, Festuca jeanpertii subsp. jeanpertii, Koeleria mitrushii, Bromus riparius, Stipa holosericea. It is a substitution community linked to the degradation processes of the woody vegetation, although in strictly rocky conditions it tends to have an edaphophilous role.
Distribution: The association has been surveyed on M. Parnon, exclusively at Prophitis M. Ilias, near Agriani in the Southern Peloponnese.
Notes: This association is closely related to Scabioso taygeteae-Onosmetum leptanthi from Mt. Taygetos, of which it can be considered a geograpical vicariant.
  • Astragaletum lacteo-taygetici Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A54).
Holotypus: Appendix C, Table A54, rel. 7, hoc loco.
Characteristic species: Astragalus rumelicus subsp. taygeticus, A. lacteus, Cynoglossum pustulatum subsp. parviflorum.
Structure and ecology: The association is linked to rocky slopes characterized by very compact limestone with soil accumulating only in crevices and depressions of the rocks. It is well developed between 1400 and 1800 m of altitude, within the meso-Mediterranean and supra-Mediterranean bioclimatic belts, constituting usually a climatophilous vegetation which tends to expand towards lower elevations as a result of the degration processes of Abies cephalonica forest. This vegetation is physiognomically characterized by tragacanthoid pulvini of Astragalus rumelicus subsp. taygeticus and A. angustifolius subsp. erinaceus, in the midst of which grow several small chamaephytes and caespitose or rosulate hemicryptophytes.
Distribution: The association occurs only on the massif of Parnon, in the southern Peloponnese, where it is common in several mountains.
Notes: From the physiognomic-structural and partially floristic viewpoint, this association is quite similar to Sideritido clandestinae-Astragaletum taygetici from Mt. Taygetos, differing, however especially for the dynamic role, since the latter association is distributed in a higher altitudinal belt.
  • Violo parnoniae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A55).
Holotypus: Appendix C, Table A55, rel. 2, hoc loco.
Characteristic species: Viola parnonia, Astragalus agraniotii, Centaurea parnonia.
Structure and ecology: The association covers the rather inclined rocky slopes characterized by generally undeveloped calcareous soils, sometimes represented by lithosols. It is widespread within the bioclimatic supra-Mediterranean bioclimatic belt at 1700–1900 m of altitude, regardless of exposure. In this community plays a significant physiognomic role Astragalus angustifolius subsp. erinaceus, which tends to constitute with its characteristic compact thorny pulvini extensive populations. Furthermore, the occurrence of several chamaephytes and hemicryptophytes, including in particular some rare endemics such as Viola parnonia, Astragalus agraniotii and Centaurea parnonia, differentiate vey well this vegetation from other ones of this alliance. Based on the edaphic characteristics, it is possible to distinguish two subassociations, indicated as astragaletosum erinacei and asperuletosum malevonensis, which will be examined below.
Distribution: The association was surveyd exclusively on Megali Tourla, which is the highest mountain of the Parnon Massif in the southern Peloponnese.
(a) 
astragaletosum erinacei Musarella, Brullo & Giusso subass. nov. hoc loco (Appendix C, Table A55, rel. 1–3).
Holotypus: Appendix C, Table A55, rel. 2, hoc loco.
Characteristic species: Astragalus angustifolius subsp. erinaceus (dominant).
Structure and ecology: It represents the typical aspect of the association and is localized on the inclined slopes of the summit, where it colonizes surfaces rich in clastic stabilized material with more or less deep and rich in coarse skeleton soils. Physiognomically, it is differentiated by the dominance of Astragalus angustifolius subsp. erinaceus, which tends to cover most of the surface occupied by the association. This subassociation plays a prevalently climatophylous role, although currently it is also widespread in stands in the past occupied by Abies cephalonica forests, where has a secondary meaning as a result of degradation processes of soil.
Distribution: See association.
(b) 
asperuletosum malevonensis Musarella, Brullo & Giusso subass. nov. hoc loco (Appendix C, Table A55, rel. 4–11).
Holotypus: Appendix C, Table A55, rel. 10, hoc loco.
Characteristic species: Achillea umbellata, Asperula malevonensis, Helianthemum canum subsp. canum.
Structure and ecology: It replaces the typical aspect in correspondence of compact outcrops, consisting of more or less cracked limestones. In these stands, some species which show markedly chasmophytic habit often occur, such as Achillea umbellata, Helianthemum canum subsp. canum and the local endemic Asperula malevonensis, thus providing a distinct physiognomy. It is an edaphophilous aspect showing a scarce coverage, forming small patches in the middle of the previous subassociation.
Distribution: See association.
  • NOAEO MUCRONATAE-SILENETALIA URVILLEI Musarella, Brullo & Giusso ord. nov hoc loco.
Holotypus: Asperulion samiae Musarella, Brullo & Giusso all. nov. hoc loco.
Characteristic species: Acantholimon aegaeum, Aethionema saxatile subsp. creticum, Alopecurus davisii, Astragalus angustifolius subsp. aegeicus, Atraphaxis billardierei, Bunium microcarpum subsp. microcarpum, Centaurea urvillei subsp. urvillei, Dianthus zonatus, Draba heterocoma subsp. archipelagi, Erysimum hayekii, Galium heldreichii, Inula heterolepis, Jurinea cadmea, Koeleria lobata, Minuartia anatolica var. polymorpha, Noaea mucronata, Paracaryum aucheri, Paronychia chionaea, Pterocephalus pinardii, Sesleria anatolica, Sideritis sipylea, Silene urvillei, Stachys cretica subsp. smyrnaea, Verbascum pycnostachyum.
Structure and ecology: This order groups the orophilous pulvinate plant communities dominated by chamaephytes and nanophanerophytes with tragacanthoid habit linked to cacuminal very sunny and windy stands at altitudes higher than 900–1000 m. The substrates are prevalently carbonatic with immature soils rich in coarse skeleton occurring mainly in the rocky crevices. The vegetation belonging to this syntaxon colonize mainly rocky surfaces more or less denuded, often quite sloping, affected by moist marine winds or a regime of mists. During the winter period these stations are usually covered for quite short periods by snow. On the basis of investigations carried out in the Aegean area, the habitats colonized by this type of vegetation are represented mainly by the summit areas of island mountains, where the peculiar environmental conditions above emphasized can be found. From the bioclimatic point of view, the order is linked to mountain or high mountain habitats falling into meso- and supra-Mediterranean belts, extending marginally also in the oro-Mediterranean one. Floristically, the order is characterized by a rich contingent of species having mainly an East Aegean-Anatolian distribution, including also several rare endemics.
Distribution: Basing on the current knowledge, the order seems distributed on the mountains of some north-eastern Aegean islands, such as Samos, Chios, Lesvos and Thassos. It is likely that plant communities related to this syntaxon are also present on the island of Samothraki, Mt. Athos, and some coastal mountains of western Anatolia.
Notes: The Noaeo mucronatae-Silenetalia urvillei must be considered as the eastern vicariant of Eryngio multifidi-Armerietalia orphanidis, distributed in the mainland of central-southern Greece, as well as in some Ionian Islands and Euboea.
  • ASPERULION SAMIAE Musarella, Brullo & Giusso all. nov. hoc loco.
Holotypus: Astragaletum samii Musarella, Brullo & Giusso ass. nov. hoc loco.
Characteristic species: Allium hirtovaginatum subsp. samium, A. orosamium, Alyssum samium, Anthemis samia, Asperula samia, Erodium sibthorpianum. subsp. vetteri, Satureja spinosa var. glabra, Thymus samius.
Structure and ecology: This alliance gathers the plant communities occurring in cacuminal stands of island mountains, localized at 900–1400 m of altitute. It is an essentially calcicolous syntaxon linked to a meso-Mediterranean bioclimatic belt, extending towards the supra-Mediterranean one. It has its best expression in very peculiar ecological conditions, where some environmental factors play an important role, such as the marine moist winds, rather cold during the autumn and winter, the erosive action of weathering on rocky surfaces, the mists, and the marked summer dryness. Floristically, it is differentiated by a rich endemic and rare species contingent, having a considerable taxonomical and phytogeographical significance.
Distribution: The alliance is confined to the mountains of the island of Samos in the eastern Aegean.
Holotypus: Appendix C, Table A56, rel. 3, hoc loco.
Characteristic species: Astragalus creticus subsp. samius and Allium orosamium.
Structure and ecology: The association is localized on calcareous slopes of cacuminal areas at 1000–1400 m of altitude, where it tends to cover wide surfaces. It has its best expression on compact rocky substrates, often very sloping, represented by calcareous outcrops and buttresses, with soils present almost exclusively in the crevices and ledges. From the bioclimatic viewpoint, this vegetation grows within the meso-Mediterranean belt, extending marginally also in the oro-Mediterranean one, showing a role, not strictly climatophilous, but rather of edaphophilous vegetation. However, it is spread in an area located above the limit of the forests, consisting mainly of Pinus brutia and Quercus calliprinos woodlands. In the tracts with deeper and mature soils, this pulvinate vegetation is mixed to relict of orophilous conifer forest of Junipero-Pinetea sylvestris, where Juniperus foetidissima and J. oxycedrus play an important role. Floristically, the association is characterized by the dominance of thorny pulvini of Astragalus creticus subsp. samius, punctiform endemic of considerable phytogeographical interest. Several relevant endemic orophytes, such as Allium orosamium, Alyssum samium, Anthemis samia, Asperula samia, Erodium sibthorpianum. subsp. vetteri, and Thymus samius occur in this association and probably also Centaurea xylobasis, a rare endemic exclusive of these cacuminal stands.
Distribution: The association is exclusive of the cacuminal area of Mt. Kerkis in the island of Samos (East Aegean).
  • Thymo samii-Astragaletum condensati Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A57).
Holotypus: Appendix C, Table A57, rel. 10, hoc loco.
Characteristic species: Astragalus condensatus (=A. ptilodes), Valeriana dioscoridis, Phlomis grandiflora Fritillaria carica, Centaurea cariensis subsp. maculiceps, Petrorhagia armeriodes, Vincetoxicum canescens subsp. peduncolatum, Allium karvounis, Lomelosia polykratis, Ranunculus rumelicus, Crocus oliveri subsp. balansae.
Structure and ecology: The association is localized in a cacuminal area characterized by outcrops of compact crystalline limestone (marble), with surfaces flat or slightly sloping. The soils are very shallow and fill the depressions and cracks of the rock. The area in which it is developed, localized at 1100–1200 m of altitude, falls within the meso-Mediterranean bioclimatic belt. From the structural point of view, it is observed the dominance of low pulvinate or creeping shrubs, among them Astragalus condensatus, tragacanthoid species, playing a relevant role, and various other small shrubs, such as Asperula samia, Noaea mucronata, Satureja spinosa var. glabra, Thymus samius, etc. In this association are found numerous endemic species rather rare exclusive of these cacuminal stands. Outside of the limestone outcrops, in correspondence of the schistose substrata, this pulvinate vegetation is replaced by Pinus pallasiana woodlands, adaphically much more exigent. On the whole, this vegetation has a clear edaphophilous role.
Distribution: The association is exclusive of cacuminal area of Mt. Ambelos in the island of Samos (East Aegean).
Notes: The Thymo samii-Astragaletum condensatis can be considered a vicariant of the Astragaletum samii, occurring on different substrata in another mountain of Samos.
  • Campanulo lyratae-Genistetum parnassicae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A58).
Holotypus: Table 11, rel. 5, Christodoulakis and Georgiadis [41], hoc loco.
Characteristic species: Genista parnassica, Campanula lyrata subsp. lyrata.
Structure and ecology: Based on the relevés published by Christodoulakis and Georgiadis [41], at altitude lower than 1000 m always in calcareous rocky stands, more or less sloping, the Astragaletum samii is replaced by another type of shrub pulvinate vegetation, differentiated by the dominance of Genista parnassica. In the places occupied by this vegetation, Astragalus creticus subsp. samius is wholly absent, as well as the species most significant of the alliance and order decrease and become quite rare. This community, which is proposed as Campanulo lyratae-Genistetum parnassicae, therefore, can be considered as a vicariant of low altitude of the Astragaletum samii. From the bioclimatic point of view, the association is distributed in the meso-Mediterranean belt.
Distribution: The association is known only to Mt. Kerkis in the island of Samos (East Aegean).
  • Arenario guicciardii-Seslerietum anatolicae Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A59).
Holotypus: Appendix C, Table A59, rel. 3, hoc loco.
Characteristic species: Sesleria anatolica, Arenaria guicciardii, Pimpinella peregrina.
Structure and ecology: The association is localized in calcareous markedly sloping rocky places with soils occurring only in the cracks and the crevices. It seems to have its optimum at 900–1000 m of altitude on a little sunshine surface especially with northern exposure, within the meso-Mediterranean bioclimatic belt. This vegetation is dominated by Sesleria anatolica which grows togheter with a rich contingent of small pulvini or creeping shrubs, such as Anthemis samia, Inula heterolepis, Noaea mucronata, Satureja spinosa var. glabra, Sideritis sipylea, etc. As concerns its dynamic role, it is a community prevalently edaphophilous, occurring within the climatophilous Pinus brutia forests, which is linked to surfaces with mature and more or less deep soils.
Distribution: The association was surveyed on Mt. Kerkis in the island of Samos (East Aegean).
Notes: The Arenario guicciardii-Seslerietum anatolicae tends to replace the Astragaletum samii at altitudes lower than 1000 m, limited to shady and fresh stands.
  • FESTUCO PSEUDOSUPINAE-ASTRAGALION AEGEICI Musarella, Brullo & Giusso all. nov. hoc loco.
Holotypus: Anthemido discoideae-Astragaletum aegeici Musarella, Brullo & Giusso ass. nov. hoc loco.
Characteristic species: Anthemis cretica subsp. leucanthemoides, Astragalus lesbiacus, Crepis sancta subsp. nemausensis, Erysimum hayekii, Festuca pseudosupina.
Structure and ecology: The alliance gathers pulvinate plant communities dominated by small tragacanthoid shrubs occurring in the mountain cacuminal stands of insular mountains. They are localized at 900–1300 m of altitude, mainly within the meso-Mediterranean bioclimatic belt. The associations falling in this sintaxon are very specialized and linked to very peculiar edaphic and bioclimatic conditions. They are circumscribed to carbonatic substrata represented by ridges and rocky outcrops, with soils present only in the cracks and crevices. The alliance is floristically differentiated by endemic species exclusive to these summit stands, that emphasized their marked geographical isolation.
Distribution: The alliance is circumscribed to the East Aegean islands of Lesvos and Chios.
Notes: This syntaxon can be considered as a geographical vicariant of the Asperulion samiae.
  • Anthemido discoideae-Astragaletum aegeici Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A60, rel. 1–6).
Holotypus: Appendix C, Table A60, rel. 1, hoc loco.
Characteristic species: Astragalus angustifolius subsp. aegeicus, Anthemis aciphylla subsp. discoidea, Allium stamineum s.l., Silene lesbiaca, Paronychia macrosepala.
Structure and ecology: The association is restricted to cacuminal stands at 900–967 m of altitude, on compact limestone with very superficial soils confined to the crevices of the rock. It is developed within the meso-Mediterranean bioclimatic belt on rocky surfaces usually well exposed and windy. In this vegetation small often thorny pulvini occur, among which a relevant physiognomic role is played by Astragalus angustifolius subsp. aegeicus, Inula heterolepis, Noaea mucronata, Silene urvillei, Sideritis sipylea, Anthemis aciphylla subsp. discoidea, mixed to which there are some caespitose grasses, such as Festuca pseudosupina and Koeleria lobata. It is clearly an edaphophilous vegetation closely related to very peculiar environmental conditions, such as eroded soils, marked winds and mist regime. These factors taken together do not allow a natural evolution of the vegetation towards more mature forms, such as Pinus brutia pine forest widespread in the surrounding areas.
Distribution: The association is exclusive of Mt. Olymbos in the island of Lesbos (Eastern Aegean).
  • Diantho zonati-Astragaletum lesbiaci Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A60, rel. 7–11).
Holotypus: Appendix C, Table A60, rel. 7, hoc loco.
Characteristic species: Astragalus lesbiacus, Dianthus zonatus, Petrorhagia armerioides.
Structure and ecology: The association is localized on outcrops of calcareous rocks characterized by very shallow and immature soils. Usually it grows on fairly flat surfaces at altitudes between 700 and 800 m. Physiognomically, it shows a coverage rather scattered characterized by small prostrate shrubs, representated mainly by Astragalus lesbiacus, A. angustifolius subsp. aegeicus and Dianthus zonatus. The association usually covers small surfaces interspersed with uncultivated or reforested areas.
Distribution: The association was observed only on Mt. Marathovounos in Chios island.
  • Galio insularis-Thymetum sypilei Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A60, rel. 12–16).
Holotypus: Appendix C, Table A60, rel. 15, hoc loco.
Characteristic species: Thymus sipyleus, Minuartia attica subsp. idaea, Galium brevifolium subsp. insulare, Minuartia mesogitana subsp. kotschyana, Asyneuma virgatum subsp. cichoriforme.
Structure and ecology: The association colonizes the rocky ridges very windy and washed away at altitudes above 1100 m. The vegetation is rather thinned out with small dwarf shrubs that grow in the cracks of rocks. The more frequent species in this vegetation are Thymus sipyleus, Minuartia attica subsp. idaea, Galium brevifolium subsp. insulare, Minuartia mesogitana subsp. kotschyana, Festuca pseudosupina, Centaurea urvillei subsp. urvillei, Pterocephalus pinardii and Euphorbia herniariifolia. This vegetation is very degraded and floristically impoverished mainly due to heavy grazing
Distribution: The association occurs on Mt. Pelineon in Chios.
  • Acantholimo aegaei-Astragaletum lesbiaci Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A60, rel. 17–21).
Holotypus: Appendix C, Table A60, rel. 17, hoc loco.
Characterstics species: Astragalus lesbiacum, Acantholimon aegaeum, Thymus zygioides.
Structure and ecology: The association occurs on the cacuminal limestone plateaux, where it colonizes washed rocky surfaces at altitudes between 800 and 900 m. It is characterized by the dominance of pulvinate tragacanthoid shrubs, such as Astragalus lesbiacus, A. angustifolius subsp. aegeicus, Acantholimon aegaeum, and Silene urvillei.
Distribution: The association was surveyed exclusively on Mt. Plakes in Chios island.
  • SESLERIO ACHTAROVII-ANTHEMIDION TENUILOBAE Musarella, Brullo & Giusso all. nov. hoc loco.
Holotypus: Paronychio bornmuelleri-Astragaletum odoniani Musarella, Brullo & Giusso ass. nov. hoc loco.
Characteristic species: Anthemis tenuiloba, Festuca hirtovaginata, Galium insulare, Inula aschersoniana var. athoa, Satureja montana subsp. macedonica, Sesleria achtarovii.
Structure and ecology: This alliance brings plant communities linked to carbonatic substrates of mountain and high-mountain stands, dominated by thorny pulvini. This vegetation is distributed at altitudes above 900 m, where it is localized in places usually represented by summit rocky plateaux, ridges and cacuminal areas with very superficial and immature soils, present mainly in small depressions and crevices. From the bioclimatic viewpoint, this alliance is distributed within the meso-Mediterranean belt, with ombrotype more or less humid, even during the summer, penetrating probably in that supra-Mediterranean one. Floristically, it is differentiated by a set of endemic species with North Aegean distibution.
Distribution: The alliance is currently known only for the island of Thassos in the northen Aegean, but based on the geographic distribution of characteristic species, problably it occurs also in the coastal mountains of North Greece.
Notes: This syntaxon can be considered as a northern vicariant of the other two alliances included in the Noaeo mucronatae-Silenetalia urvillei previously described.
  • Paronychio bornmuelleri-Astragaletum odoniani Musarella, Brullo & Giusso ass. nov. hoc loco (Appendix C, Table A61).
Holotypus: Appendix C, Table A61, rel. 1, hoc loco.
Characteristic species: Astragalus angustifolius subsp. odonianus, Paronychia bornmuelleri, Cerastium moesiacum subsp. glutinosum, Allium cremnophilum, Dianthus gracilis subsp. xanthianus, Minuartia verna var. thasia.
Structure and ecology: The association is confined to the summit very windy and sunny plateaux, consisting of crystalline limestones, located at altitudes between 900 and 1000 m, falling within the bioclimatic meso-Mediterranean belt. It occurs on rocky substrates with very superficial and immature soils, reaching its maximum expression in situations of ridge. The vegetation is dominated by thorny pulvini of Astragalus angustifolius subsp. odonianus, which forms large populations mixed with small prostrate chamaephytes (Dianthus gracilis subsp. xanthianus, Minuartia verna var. thasia, Paronychia bornmuelleri, Cerastium moesiacum subsp. glutinosum) and several hemicriptophytes represented mainly by caespitose grasses (Festuca hirtovaginata, Sesleria achtarovii, Koeleria lobata, Stipa endotricha). This vegetation is typically edaphophile, since it is linked to peculiar environmental conditions that do not allow the normal development of the soil. In edaphic more mature situations, the association is usually replaced by Juniperus excelsa woodlands.
Distribution: The association is confined to rocky outcrops of the cacuminal stands of Mt. Ipsario in the island of Thassos (northern Aegean).

3. Materials and Methods

The methodology used for the study regarding this kind of orophilous vegetation was based on a careful analysis of the diagnostic components that characterize the biotic and abiotic landscape of the investigated area.
The 680 phytosociological relevés (460 unpublished and 220 from literature), carried out during the spring-summer of the several years (2003, 2004, 2005, 2006, 2007, 2008, 2011, 2019) according to the sigmatist method of Zürich-Montpellier school [88,89], allowed for the definition of the main vegetation typologies with the identification of many different plant communities, for whose correct syntaxonomic arrangement and the phytosociological nomenclature code was followed [90]. The literature data refer to the contributions of several authors who carried out phytosociological investigations on the mountain ranges included in this study [35,38,40,41,42,44]. All the identified syntaxa were analyzed from nomenclatural, floristic, structural, ecological, chorological and syndynamic point of view. With regard to single associations, these are provided with a phytosociological table in which the unpublished relevés are complemented by literature data after floristic update. For the identification of the plants listed in phytosociological relevés, several Balkan, European, and Mediterranean floras were used, while for the floristic nomenclature we were based on the most significant floras, checklist and taxonomic monographs regarding genera and critical groups. The main works consulted were: Boissier [91], Halácsy [92], Hayek [93], Tutin et al. [94,95], Davis [96], Cristodoulakis and Georgiadis [97], Greuter et al. [98], Scholz [99], Strid [73,74], Strid and Tan [75,76,77], Strasser [100], Tan et al. [70], Greuter [101], Krendl [102], Podlech and Zarre [103], Dimopoulos et al. [71], “Flora of Greece web” [103], and other regarding particular species [104,105]. The floristic list obtained from phytosociological relevés is reported in Appendix A (Table A1) and were used for the phytogeografic processing.
As regards the bioclimatic investigations, the classification of Rivas-Martínez [64] was followed, based on the thermopluviometric data by this author. In particular, the charts built according to the criteria proposed by Walter and Leith [67] are provided, using the extrapolation data according to the method of Hijmans et al. [68,69], which are listed in the “Global climate surfaces” and relate to the period 1950–2000. These data have been taken from a map grid of 10 km2, in which the toponym is not given but only the geographical coordinates of the centroid of the square.
For the taxonomic treatment of the new species and subspecies described in this work, the study is based on floristic collections carried out in the investigated territories, integrated by herbarium and literature data in order to clarify their morphological relationships. As regards the taxonomic approach, the international code of botanical nomenclature [106] was followed.

4. Conclusions

This study allowed to improve the knowledge on the orophilous pulvinate vegetation occurring in the high-mountains of continental and insular Greece. These plant communities probably dating back to the Messinian (late Miocene) following the desiccation of the Mediterranean basin, since they are featured by steppic species, that currently have their greatest diffusion in the Irano-Turanian region. In particular, these species having usually a cushion-like habit, often thorny, seem to have penetrated in the Mediterranean after the drying up of the climate, which led to climatically challenging and very harsh environmental conditions unfit for the pre-existing flora.
It is a very peculiar and phisiognomically well characterized vegetation, very rich in endemics represented mainly by pulvinate chamaephytes and nanophanerophytes as well as often by dominance of hemicryptophytes. Most of the endemic species have a relict distribution and belong to the ancient tertiary flora, which gives a remarkable phytogeographic significance to this kind of vegetation.
Compared to the previous syntaxonomic scheme proposed by Quézel [35], nomenclaturally updated by Quézel et al. [80] and more recently taken up by Mucina et al. [84], which did not provide clear information on the classification of the plant communities present in the cacuminal stations of the Greek mountains, a new treatment is proposed in this study, based above all on the phytogeographic role of endemic species and not on the altimetric ranges, at least as regards the alliances. On the whole, this new class, namely Cerastio candidissimi-Astragaletea rumelici, replacing the previous Daphno-Festucetea which must be considered as an ambiguous name, represent a geographical vicariant in Greece and Aegean area of other syntaxa already kwown in literature [2,22,31,45,48,51]. Such cases are the following: Carici-Genistetea lobelii Klein 1972 in Sardinia and Corsica; Rumici-Astragaletea siculi Pignatti & Nimis in Pignatti et al. 1980 in Sicily and Calabria; Saturejetea spinosae Zaffran 1990 in Crete; Diantho troodi-Teucrietea cyprii Brullo, Giusso & Guarino 2005 in Cyprus; and Astragalo-Brometea Quézel 1973 in Anatolia and Lebanon.
There are numerous problems related to the conservation of these high mountain vegetation aspects. The most important are the anthropogenic pressure, due to grazing, especially goats, and the landslide of some areas which makes them particularly inconsistent, and this causes continuous erosions of various strips of vegetation. If on the one hand, thorny pulvins are not eaten by grazing animals, it is also true, however, that their presence leads continuous trampling and excessive eutrophication.
Furthermore, the ongoing climate change will certainly have a further negative influence on these peculiar high mountain plant communities and can promote a change in species strategies and growth form [107]. In fact, increasing temperatures will result in less water availability at ever higher altitudes, resulting in the impossibility for the plant communities to be able to survive using their environmental adaptations, such as spinescence, pulvinate habit, etc. All this could involve changes in the vegetation typology, with a progressive replacement of the hitherto predominant angiosperms with dwarf gymnosperms, as species of Juniperus [108,109].
For all these reasons, a strictly ecological approach could provide more detailed information on the role that these plant communities have within the entire ecosystem of the high mountains involved in this study. This research related to conservation biology could be used mainly for protection policy.

Author Contributions

Conceptualization, C.M.M., S.B. and G.G.d.G.; data curation, C.M.M., S.B. and G.G.d.G.; formal analysis, C.M.M., S.B. and G.G.d.G.; investigation, C.M.M., S.B. and G.G.d.G.; methodology, C.M.M., S.B. and G.G.d.G.; resources, C.M.M., S.B. and G.G.d.G.; supervision, C.M.M., S.B. and G.G.d.G.; validation, C.M.M., S.B. and G.G.d.G.; visualization, C.M.M., S.B. and G.G.d.G.; writing—original draft, C.M.M., S.B. and G.G.d.G.; writing—review & editing, C.M.M., S.B. and G.G.d.G. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Acknowledgments

The authors are very grateful to the four anonymous referees for their important help in improving the original manuscript.

Conflicts of Interest

The authors declare no conflict of interest.

Appendix A

Table A1. Checklist of the taxa occuring in the phytosociological relevés with their life forms and chorotypes (from [70,71,72,73,74,75,76,77]).
Table A1. Checklist of the taxa occuring in the phytosociological relevés with their life forms and chorotypes (from [70,71,72,73,74,75,76,77]).
TaxonLife FormChorotype
Abies cephalonica LoudonPend Greece
Acantholimon aegaeum F.K. Mey.Ch pulvend E-Aegean
Acantholimon echinus Boiss. subsp. echinusCh pulvE-medit
Acantholimon graecum F.K. Mey.Ch pulvend Balkan
Achillea ageratifolia (Sm.) Benth. & Hook. f. subsp. ageratifoliaH caespend Balkan
Achillea fraasii Schultz Bip.H caespE-medit
Achillea holosericea Sm.H caespend Balkan
Achillea nobilis L.H caespeurosiberian
Achillea setacea Waldst. & Kit.H scapE-medit
Achillea taygetea Boiss. & Heldr.Ch suffrend Peloponnese
Achillea umbellata Sm.Ch suffrend Greece
Acinos alpinus (L.) Moench subsp. meridionalis (Nyman) BallCh suffrcircum-medit
Acinos arvensis (Lam.) DandyT scapcircum-medit
Aethionema carlsbergii Strid & PapanicolauCh suffrend Peloponnese
Aethionema saxatile (L.) R. Br.
  subsp. creticum (Boiss. & Heldr.) Andersson et al.
Ch suffrE-medit
Aethionema saxatile (L.) R. Br.
  subsp. graecum (Boiss. & Spruner) Hayek
Ch suffrE-medit
Ajuga orientalis L.H rhizE-medit
Alkanna graeca Boiss. & Spruner
  subsp. baeotica (DC.) Nyman
H caespend Greece
Allium achaium Boiss. & Orph.G bulbend Peloponnese
Allium cephalonicum Brullo, Pavone & SalmeriG bulbend Ionian islands
Allium cithaeronis Bogdanović et al.G bulbend Sterea Ellas
Allium cremnophilum Brullo, Pavone & SalmeriG bulbend N-Aegean
Allium cylleneum Brullo, Pavone & SalmeriG bulbend Peloponnese
Allium frigidum Boiss. & Heldr.G bulbend Peloponnese
Allium guttatum StevenG bulbcircum-medit
Allium hirtovaginatum Kunth
  subsp. samium Brullo, Pavone & Salmeri
G bulbend E-Aegean
Allium karvounis Brullo, Giusso del Galdo & MusarellaG bulbend E-Aegean
Allium orosamium Brullo, Giusso del Galdo & MusarellaG bulbend E-Aegean
Allium parnassicum (Boiss.) HalácsyG bulbend Sterea Ellas
Allium pycnotrichum Trigas, Kalpoutzakis & ConstantinidisG bulbend Peloponnese
Allium reuterianum Boiss.G bulbend E-Aegean
Allium rhodopeum Velen.G bulbend Balkan
Allium sardoum MorisG bulbcircum-medit
Allium stamineum Boiss. s.l.G bulbE-medit
Allium subhirsutum L.G bulbcircum-medit
Alopecurus davisii BorH caespE-medit
Alopecurus gerardii Vill.H caespcircum-medit
Alyssum fulvescens Sm.T scapE-medit
Alyssum montanum L. subsp. graecum (Halácsy) HayekCh suffrE-medit
Alyssum montanum L. var. hymettium Boiss.Ch suffrend Sterea Ellas
Alyssum murale Waldst. & Kit.H caespcircum-medit
Alyssum repens Baumgt. var. brachyphyllum HalácsyCh suffrend Peloponnese
Alyssum samium T.R.Dudley & Christod.Ch suffrend E-Aegean
Alyssum siculum JordanT scapcircum-medit
Alyssum taygeteum Heldr.Ch suffrend CS Greece
Anchusa hybrida Ten.H scapcircum-medit
Anemone blanda Schott & KotschyG rhizE-medit
Anthemis aciphylla Boiss. subsp. discoidea Boiss.Ch suffrE-medit
Anthemis arvensis L.T scapcosmop
Anthemis cretica L. subsp. creticaH caespE-medit
Anthemis cretica L. subsp. leucanthemoides (Boiss.) GriersonH caespE-medit
Anthemis laconica FranzenCh suffrend Peloponnese
Anthemis orientalis (L.) DegenCh suffrE-medit
Anthemis samia Rech. fil. Ch suffrend E-Aegean
Anthemis spruneri Boiss. & Heldr.Ch suffrend Sterea Ellas
Anthemis tenuiloba (DC.) R. FernandesCh suffrE-medit
Anthemis tinctoria L. subsp. parnassica (Boiss. & Heldr.) NymanH caespend Balkan
Anthoxanthum odoratum L.H caespcosmop
Anthoxanthum ovatum Lag.T scapcircum-medit
Anthyllis montana L. subsp. jacquinii (A. Kern.) HayekCh frutcircum-medit
Anthyllis vulneraria L. subsp. bulgarica (Sagorski) CullenH caespend Balkan
Anthyllis vulneraria L. subsp. praepropera (A. Kerner) Bornm.H caespN-medit
Anthyllis vulneraria L. subsp. rubriflora (DC.) Arcang.H caespcircum-medit
Arabis bryoides Boiss.H caespend Balkan
Arabis caucasica Willd.H scapE-medit
Arabis collina Ten.H scapcircum-medit
Arabis subflava JonesCh frutend CS Greece
Arenaria cretica Sprengel var. stygia Boiss. & Heldr.Ch frutE-medit
Arenaria filicaulis Fenzl subsp. filicaulisCh frutend Balkan
Arenaria filicaulis Fenzl subsp. graeca (Boiss.) Mc NeillCh frutend Balkan
Arenaria guicciardii Heldr. ex Boiss.T scapend Greece
Arenaria leptoclados (Reichenb.) Guss.T scapeurasian
Arenaria serpyllifolia L.T scapeurasian
Aristolochia rotunda L. G rhizcircum-medit
Armeria orphanidis Boiss.Ch caespend CS Greece
Arrhenatherum palestinum Boiss.H caespE-medit
Arum maculatum L.G rhizeuro-medit
Asperula boissieri Heldr. ex Boiss.Ch pulvend CS Greece
Asperula boryana (Walp.) HerendorfCh pulvend Peloponnese
Asperula lutea Sibth. & Sm.Ch suffrend CS Greece
Asperula malevonensis Ehrend. & Schonb.-TemesyCh pulvend Peloponnese
Asperula mungieri Boiss. & Heldr.Ch suffrend Peloponnese
Asperula oetaea (Boiss.) HalácsyH caespend Greece
Asperula purpurea (L.) Ehrend. subsp. apiculata (Sm.) Ehrend.Ch frutend Balkan
Asperula rigidula HalácsyCh reptend CS Greece
Asperula samia Christod. & GeorgiadisCh suffrend E-Aegean
Asperula suffruticosa Boiss. & Heldr.Ch suffrend NC Greece
Asperula thessala Boiss. & Heldr.Ch suffrend Greece
Asphodeline liburnica (Scop.) Rchb.G rhizE-medit
Asphodeline lutea (L.) Reichenb.G rhizeuro-medit
Aster cylleneus (Boiss. & Orph.) HalácsyH caespend Balkan
Astragalus agraniotii Orph.Ch pulvend Peloponnese
Astragalus angustifolius Lam.
  subsp. aegeicus Brullo, Giusso & Musarella
Ch pulvend E-Aegean
Astragalus angustifolius Lam.
  subsp. erinaceus (C. Presl) Brullo, Giusso & Musarella
Ch pulvend Greece
Astragalus angustifolius Lam.
  subsp. odonianus Brullo, Giusso & Musarella
Ch pulvend N-Aegean
Astragalus apollineus Boiss. & Heldr.H caespend CS Greece
Astragalus calavrytensis Beauverd & TopaliCh pulvend Peloponnese
Astragalus cephalonicus PreslCh pulvend Ionian islands
Astragalus condensatus Ledeb.Ch pulvE-medit
Astragalus corynthiacus Brullo, Giusso & MusarellaCh pulvend Sterea Ellas
Astragalus creticus Lam. subsp. samius (Sirj. & Rech.) Ponert Ch pulvend E-Aegean
Astragalus cylleneus Boiss. & Heldr.Ch pulvend Peloponnese
Astragalus depressus L. subsp. depressusH roscircum-medit
Astragalus hellenicus Boiss.H roscircum-medit
Astragalus lacteus Heldr. & Sart.H rosend Balkan
Astragalus lesbiacus P. CandargyCh pulvend E-Aegean
Astragalus monspessulanus L.H caespcircum-medit
Astragalus parnassi Boiss.Ch pulvend Sterea Ellas
Astragalus rumelicus Bunge subsp. rumelicusCh pulvE-medit
Astragalus rumelicus Bunge
  subsp. euboicus (Širj.) Brullo, Giusso & Musarella
Ch pulvend Euboea
Astragalus rumelicus Bunge
  subsp. taygeticus (Širj.) Brullo, Giusso & Musarella
Ch pulvend Peloponnese
Astragalus taygeteus Persson & StridCh pulvend Peloponnese
Astragalus tymphresteus Boiss. & SprunerCh pulvend NC Greece
Asyneuma limonifolium (L.) JanckenH scapE-medit
Asyneuma psaridis (Halácsy) Bornm.H scapend Peloponnese
Asyneuma virgatum (Labill.) Bornm. subsp. cichoriforme (Boiss.) DamboldtH scapE-medit
Atraphaxis billardierei Jaub. & SpachCh pulvE-medit
Aubrieta deltoidea (L.) DC. subsp. deltoideaCh suffrE-medit
Aubrieta deltoidea (L.) DC. var. integrifolia F. & M.Ch suffrE-medit
Aubrieta deltoidea (L.) DC.
  subsp. intermedia (Heldr. & Orph.) M. & P.
Ch suffrE-medit
Aurinia gionae (Quézel & Contandr.) Greuter & BurdetCh frutend NC Greece
Aurinia moreana Tzanoud. & IatroùH caespend Peloponnese
Aurinia saxatilis (L.) Desv. subsp. megalocarpa (Hausskn.) DudleyCh frutE-medit
Aurinia saxatilis (L.) Desv. subsp. orientalis (Ard.) T.R. DudleyH caespend Balkan
Avenochloa agropyroides (Boiss.) HolubH caespE-medit
Ballota acetabuolsa (L.) BenthamCh frutE-medit
Ballota pseudodictamnus Benth.Ch frutE-medit
Bellevalia trifoliata (Ten.) KunthG bulbcircum-medit
Bellis perennis L.H rospaleotemp
Berberis cretica L.NPE-medit
Beta nana Boiss. & Heldr.H rosend CS Greece
Bolanthus graecus (Schreb.) BarkoudahCh frutend Greece
Botrychium lunaria (L.) ScwartzT scapcosmop
Brachypodium retusum P. Beauv.H caespcircum-medit
Briza humilis M. Bieb.T scapE-medit
Bromus intermedius Guss.T scapcircum-medit
Bromus lacmonicus Hausskn.H caespE-medit
Bromus riparius Rehm.H caespE-medit
Bromus squarrosus L.T scappaleotemp
Bromus tectorum L.T scappaleotemp
Bunium microcarpum (Boiss.) Freyn subsp. microcarpumG bulbE-medit
Bupleurum falcatum L. subsp. cernuum (Ten.) ArcangeliH scapeuro-medit
Bupleurum glumaceum Sibth. & Sm. T scapE-medit
Bupleurum sibthorpianum Sibth. & Sm.Ch frutend CS Greece
Bupleurum trichopodum Boiss. & SprunerT scapE-medit
Cachrys ferulacea (L.) CalestaniH scapE-medit
Calamintha suaveolens Boiss.Ch suffrE-medit
Campanula aizoides Zaffran ex GreuterH biennend Greece
Campanula albanica Witasek subsp. albanicaH scapend Balkan
Campanula lyrata Lam. subsp. lyrataH scapE-medit
Campanula papillosa HalácsyH scapend Peloponnese
Campanula radicosa Bory & Chaub.H reptend CS Greece
Campanula spathulata Sibth. & Sm. subsp. spathulataG rhizend Balkan
Capsella bursa-pastoris L.T scapeuro-medit
Carduus nutans L. subsp. scabrisquamus ArènesH bienncircum-medit
Carduus taygeteus (Boiss. & Heldr.) HayekH bienncircum-medit
Carduus tmoleus Boiss.H biennend Balkan
Carex caryophyllea Latourr.H caespeurasian
Carex kitaibeliana Degen ex BechererH caespcircum-medit
Carex macrolepis DC.H caespeurasian
Carlina frigida Boiss. & Heldr.H scapE-medit
Carlina graeca Heldr. & SartoriH scapend Balkan
Carum graecum Boiss. & Heldr. subsp. graecumH scapend Balkan
Carum meoides (Griseb.) HalacsyH scapend Balkan
Centaurea affinis Friv. subsp. affinisH scapend Balkan
Centaurea affinis Friv. subsp. laconiae ProdanH scapend CS Greece
Centaurea affinis Friv. subsp. pallidior (Halácsy) HayekH scapend Balkan
Centaurea cariensis Boiss. subsp. maculiceps (Schwarz) WagenitzCh suffrE-medit
Centaurea parnonia HalácsyH caespend Peloponnese
Centaurea pichleri Boiss.H caespE-medit
Centaurea raphanina Sibth. & Sm. subsp. mixta (DC.) Runem.H rosend Greece
Centaurea spinosa L.Ch frutE-medit
Centaurea spruneri Boiss. & Heldr. subsp. guicciardi (Boiss.) HayekH caespend Balkan
Centaurea subciliaris Boiss. & Heldr. subsp. subciliarisH caespend Balkan
Centaurea urvillei DC. subsp. urvillei H caespE-medit
Cerastium brachypetalum Pers.
  subsp. roeseri (Boiss. & Heldr.) Nyman
T scapE-medit
Cerastium candidissimum CorrensCh frutend Greece
Cerastium decalvans Schlosser & Wuk.
  subsp. glutinosum (Strid) Niketic
H caespend N-Aegean
Cerastium illyricum comatum Desv.T scapE-medit
Cerasus prostrata (Labill.) Ser.NPcircum-medit
Ceterach officinarum Willd.H roseurasian
Chamaecytisus hirsutus (L.) LinkCh suffreuro-medit
Cirsium hypopsilium Boiss. & Heldr.H biennend Peloponnese
Colchicum graecum K. PerssonG bulbend CS Greece
Colchicum variegatum L.G bulbE-medit
Convolvulus althaeoides L.H reptcosmop
Convolvulus boissieri Steud.
  subsp. parnassicus (Boiss. & Orph.) Kuzmanov
Ch reptend Balkan
Convolvulus cantabrica L.Ch fruteurasian
Convolvulus elegantissimus MillerH reptcircum-medit
Corydalis solida (L.) Clairv. subsp. incisa LidenG bulbend Balkan
Crataegus monogyna Jacq.NPpaleotemp
Crataegus orientalis Pallas ex Bieb.NPeuro-medit-irano-turan
Crataegus pycnoloba Boiss. & Heldr.NPeurasian
Crepis fraasii Schultz-Bip. subsp. fraasiiH rosE-medit
Crepis heldreichiana (O. Kuntze) GreuterH scapend Peloponnese
Crepis incana Sm.H scapend CS Greece
Crepis neglecta L.T scapend Balkan
Crepis rubra L.T scapcircum-medit
Crepis sancta (L.) Babcock subsp. nemausensis T scapE-medit
Crepis sancta (L.) Babcock subsp. sanctaT scapmedit-irano-turan
Crocus oliveri Gay subsp. balansae (Baker) MathewG bulbE-medit
Crupina crupinastrum (Moris) Vis.T scapeurasian
Cyclamen peloponnesiacum (Grey-Wilson) Kit Tan subsp. peloponnesiacumG bulbend CS Greece
Cynoglossum montanum L.H scapeurasian
Cynoglossum pustulatum Boiss. subsp. parviflorum (Vis.) SutoryH scapend Balkan
Cynosurus echinatus L.T scapcircum-medit
Cytisus villosus Pourr.NPcircum-medit
Dactylis glomerata L.H caesppaleotemp
Dactylis hispanica RothH caespcircum-medit
Dactylorhiza sambucina (L.) SoóG bulbeuropean
Danthoniastrum compactum (Boiss. & Heldr.) Holub.H caespE-medit
Daphne oleoides SchreberCh frutcircum-medit
Dasypyrum hordeaceum Cand.H caespcircum-medit
Dasypyrum villosum (L.) BorbásT scapmedit-asian
Daucus carota L.H biennpaleotemp
Dianthus androsaceus (Boiss. & Heldr.) HayekCh suffrend Peloponnese
Dianthus biflorus Sm.Ch suffrend Greece
Dianthus gracilis Sm. subsp. xanthianus (Davidov) TutinCh suffrend NC Greece
Dianthus haematocalyx Boiss. & Heldr.
  subsp. ventricosus Maire & Petitm.
Ch suffrend Sterea Ellas
Dianthus integer Vis. subsp. minutiflorus (Halácsy) Bornm.Ch suffrend Balkan
Dianthus serratifolius Sm. subsp. abbreviatus (Heldr. ex Halácsy) StridCh suffrend Peloponnese
Dianthus serratifolius Sm. subsp. serratifoliusCh suffrend CS Greece
Dianthus tymphresteus (Boiss. & Spruner) Boiss.Ch suffrend CS Greece
Dianthus viscidus Bory & Chaub. var. viscidusCh suffrE-medit
Dianthus viscidus Bory & Chaub.
  var. parnassicus (Boiss. & Heldr.) Boiss.
Ch suffrend Sterea Ellas
Dianthus zonatus FenzlCh suffrE-medit
Dichoropetalum vittijugum (Boiss.) Pimenov & KljuykovH scapend Balkan
Digitalis ferruginea L.H scapmedit-irano-turan
Digitalis laevigata Waldst. & Kit.H scapend Balkan
Doronicum columnae Ten.G rhizeuro-medit
Dorycnium germanicum (Gremli) Rikli H caespeuropean
Dorycnium herbaceum Vill.H caespcircum-medit
Draba heterocoma Fenzl subsp. archipelagi (O.E. Schulz) ButtlerCh pulvE-medit
Draba lacaitae Boiss.Ch pulvend Balkan
Draba lasiocarpa RochelCh fruteuropean
Draba parnassica Boiss. & Heldr.Ch pulvend Sterea Ellas
Drypis spinosa L.Ch pulveuropean
Echinops spinosissimus TurraH scapcircum-medit
Echinops taygeteus Boiss. & Heldr.H scapend CS Greece
Edraianthus graminifolius (L.) DC. f. minorCh suffrend Balkan
Elytrigia intermedia (Host) NevskiG rhizeurasian
Ephedra procera Fischer & C.A. MeyerNPE-medit
Erica manipuliflora Salisb.Ch frutE-medit
Erigeron alpinus L.H scapeuro-medit
Erigeron epiroticus (Vierh.) HalácsyH scapE-medit
Erigeron glabratus Hoppe & Hornsc. ex Bluff & Fingerh.
  subsp. graecus Vierh.
H scapend NC Greece
Erodium chrysanthum L’Her. ex DC.H caespend CS Greece
Erodium sibthorpianum Boiss. subsp. vetteri (Barbey & Major) DavisH caespend E-Aegean
Erophila verna (L.) Chevall.T scappaleotemp
Eryngium campestre L.H scapeuro-medit
Eryngium multifidum Sibth. & Sm.T scapN-medit
Erysimum cephalonicum PolatschekH scapend Greece
Erysimum cuspidatum (Bieb.) DC.H biennmedit-irano-turan
Erysimum hayekii (Jav. & Rech. fil.) PolatschekH scapE-medit
Erysimum linearifolium TauschH caespend Balkan
Erysimum microstylum Ausskn.H caespend Balkan
Erysimum parnassi (Boiss. & Heldr.) Hausskn.Ch suffrend Sterea Ellas
Erysimum pectinatum Bory & Chaub.H scapend Peloponnese
Erysimum pusillum Bory & Chaub.Ch suffrend Peloponnese
Euphorbia acanthotamnos Heldr. & Sart. ex Boiss.Ch frutE-medit
Euphorbia deflexa Sibth. & Sm.Ch suffrE-medit
Euphorbia herniariifolia Willd.G rhizE-medit
Euphorbia myrsinites L.Ch reptE-medit
Euphorbia rigida Bieb.Ch suffrE-medit
Euphrasia salisburgensis Funk.T scapeuro-medit
Festuca callieri (St.-Yves) Markgr. subsp. callieriH caespeurasian
Festuca cyllenica Boiss. & Heldr. subsp. cyllenicaH caespend CS Greece
Festuca graeaca (Hackel) Markgraf subsp. graecaH caespend NC Greece
Festuca halleri All. subsp. riloensis Hack.H caespE-medit
Festuca hirtovaginata (Acht.) Markgr.-Dannenb.H caespE-medit
Festuca jeanpertii (St.-Yves) Markgr.
  subsp. achaica (I.Markgraf- Dannenberg) Markgr.-Dann.
H caespE-medit
Festuca jeanpertii (St-Yves) Markgraf subsp. jeanpertiiH caespE-medit
Festuca olympica VetterH caespend NC Greece
Festuca polita (Halácsy) TzelevH caespend CS Greece
Festuca pseudosupina VetterH caespend E-Aegean
Festuca sipylea (Hack.) Markgr.-Dann.H caespE-medit
Festuca spectabilis Jan
  subsp. affinis (Boiss. & Heldr. ex Hackel) Hackel
H caespE-medit
Filago arvensis L.T scappaleotemp
Fritillaria carica RixG bulbE-medit
Fritillaria graeca Boiss. & Spruner var. graeca G bulbend Balkan
Fritillaria guicciardii Heldr. & Sart.G bulbend CS Greece
Fumana paphlagonica Bornm. & Janchen
  subsp. alpina (Janchen) Greuter
Ch suffrE-medit
Fumana procumbens (Dunal) Gren. & GodronCh suffreuro-medit-irano-turan
Gagea villosa (M. Bieb.) SweetG bulbeurasian
Galium brevifolium Sm. subsp. insulare Ehrend. & Schönb.-Tem.T scapE-medit
Galium circae KrendlCh suffrend Greece
Galium citraceum Boiss.Ch suffrend CS Greece
Galium cyllenium Boiss. & Heldr.Ch pulvend Peloponnese
Galium heldreichii HalácsyH scapE-medit
Galium incanum Sibth. & Sm. subsp. incanumCh pulvE-medit
Galium insulare KrendlCh suffrend N-Aegean
Galium ionicum KrendlH caespend Ionian islands
Galium plebeium Boiss. & Heldr.Ch pulvE-medit
Galium taygeteum KrendlCh suffrend Peloponnese
Galium thymifolium Boiss. & Heldr.H caespend CS Greece
Genista parnassica Halácsy Ch pulvend Greece
Geocaryum parnassicum (Boiss. & Heldr.) EngstrandG bulbend CS Greece
Geocaryum peloponnesiacum EngstrandG bulbend Peloponnese
Geranium macrostylum Boiss.G rhizE-medit
Geranium pyrenaicum Burm. fil.H scappaleotemp
Geranium subcaulescens L’Her.H scapE-medit
Globularia cordifolia L.Ch fruteuro-medit
Globularia stygia Orph.Ch frutend Peloponnese
Halacsyella parnassica (Boiss. & Spruner) Janch.Ch suffrend CS Greece
Helianthemum canum (L.) Baumg. subsp. canumCh suffreuro-medit
Helianthemum hymettium Boiss. & Heldr.Ch suffrE-medit
Helianthemum nummularium (L.) Miller subsp. nummularium Ch suffreuro-medit
Helichrysum orientale (L.) DC.Ch suffrE-medit
Helictotrichon aetolicum (Rech. fil.) HolubH caespE-medit
Helictotrichon convolutum (Presl) Henrard subsp. convolutumH caespE-medit
Helictotrichon convolutum (Presl) Henrard
  subsp. heldreichii (Parl.) Gervais
H caespE-medit
Helleborus cyclophyllus A. BrownG rhizend Balkan
Herniaria incana Lam.T scapeurasian
Herniaria parnassica Heldr. & Sart. subsp. parnassicaCh suffrE-medit
Hieracium lazistanum Arv.-Touv. subsp. leithneri (Boiss.) GreuterH scapE-medit
Hieracium pannosum Boiss. subsp. euboeum (Halácsy) ZahnH scapend Greece
Hieracium sartorianum Boiss. & Heldr.H rosend CS Greece
Hippocrepis comosa L.Ch repteuro-medit
Hordeum bulbosum L.H scappaleotemp
Hypericum olympicum L.Ch frutend CS Greece
Hypochaeris cretensis (L.) Bory & Chaub.H rosE-medit
Iberis saxatilis L. subsp. saxatilisCh suffrN-medit
Iberis sempervirens L.Ch suffrcircum-medit
Inula aschersoniana Janka var. athoa Rech.Ch suffrend N-Aegean
Inula britannica L H caespeuropean
Inula candida (L.) Cass. subsp. limonella (Heldr.) Rech. f.H caespend Greece
Inula heterolepis Boiss.Ch suffrE-medit
Inula verbascifolia (Willd.) Hausskn.
  subsp. methanea (Hausskn.) Tutin.
Ch suffrend Greece
Iris attica Boiss. & Heldr.G rhizE-medit
Iris suaveolens Boiss. & Reut.G rhizE-medit
Juniperus excelsa Bieb.NPE-medit
Juniperus foetidissima Willd.NPE-medit
Juniperus hemisphaerica PreslNPcircum-medit
Juniperus oxycedrus L.Pcircum-medit
Jurinea cadmea Boiss.H rosE-medit
Jurinea mollis (L.) Rchb.H roseuropean
Jurinea taygetea HalácsyH rosend Peloponnese
Koeleria carniolica A. KernerH caespE-medit
Koeleria lobata (Bieb.) Roemer & SchultesH caespE-medit
Koeleria mitrushii UjhelyiH caespend Balkan
Lactuca intricata Boiss.H scapE-medit
Lactuca viminea (L.) J. & C. PreslH scappaleotemp
Lamium pictum Boiss. & Heldr.H scapend Greece
Lamium striatum Sibth. & Sm.H scapE-medit
Laserpitium pseudomeum Orph. & al.H rosend CS Greece
Lathyrus grandiflorus Sm.H scapcircum-medit
Legousia pentagonia DruceT scapE-medit
Leontodon asper (Waldst. & Kit) PoiretH rosN-medit
Leontodon cichoriaceus (Ten.) SanguinettiH caespE-medit
Leontodon graecus Boiss. & Heldr.H scapE-medit
Lepidium nebrodense (Raphin.) Guss.H scapE-medit
Linaria parnassica Boiss. & Heldr. H scapE-medit
Linaria peloponnesiaca Boiss. & Heldr.H scapE-medit
Linaria simplex Desf. T scapcircum-medit
Linum elegans Spruner ex Boiss.Ch suffrE-medit
Linum tenuifolium L.Ch suffreuro-medit
Lolium perenne L.H caespcircumboreal
Lomelosia crenata (Cirillo) Greuter & Burdet subsp. crenataCh frutcircum-medit
Lomelosia graminifolia (L.) Greuter & BurdetH caespeuro-medit
Lomelosia polykratis (Rech.f.) Greuter & BurdetCh frutE-medit
Lotus stenodon (Boiss. & Heldr.) Heldr.H scapend Balkan
Luzula spicata (L.) DC.H caesppaleotemp
Lychnis coronaria (L.) Desr.H scapcircum-medit
Lysimachia serpyllifolia SchreberH scapE-medit
Macrotomia cephalotes Boiss. H scapE-medit
Majorana onites Benth.Ch suffrE-medit
Malcolmia bicolor Bald.T scapend CS Greece
Marrubium cylleneum Boiss. & Heldr.H scapend Peloponnese
Marrubium velutinum Sibth. & Sm.H scapend NC Greece
Medicago lupulina L.T scappaleotemp
Medicago sativa L.H caespeurasian
Melica ciliata L. H caespeuro-medit
Micromeria juliana (L.) Bentham ex Reichenb.Ch suffrcircum-medit
Minuartia anatolica (Boiss.) Woron. var. polymorpha McNeillCh suffrE-medit
Minuartia attica Vierh. subsp. atticaCh suffrE-medit
Minuartia attica Vierh. subsp. idaea (Halácsy) Kamari & ConstantinCh suffrE-medit
Minuartia condensata (J. & C. Presl) Hand.-Mazz.Ch pulvN-medit
Minuartia confusa (Boiss.) Maire & Petitm.Ch reptend CS Greece
Minuartia juniperina (L.) Maire & Petitm.Ch pulvE-medit
Minuartia mesogitana (Boiss.) Hand.-Mazz.
  subsp. kotschyana (Boiss.) McNeill
T scapE-medit
Minuartia stellata (Clarke) Maire & Petitm.Ch pulvend Balkan
Minuartia verna (L.) Hiern var. thasia Stoj. & KitanovCh suffrend N-Aegean
Morina persica L.Ch suffrmedit-irano-turan
Muscari botryoides (L.) MillerG bulbeuro-medit
Muscari kerneri Marsh.G bulbeuro-medit
Muscari neglectum Guss.G bulbcircum-medit
Myosotis incrassata Guss.T scapcircum-medit
Myosotis suaveolens Waldst. & Kit. ex Willd.H scapend Balkan
Myosotis sylvatica Hoffm. subsp. cyanea (Hayek) VestergrenH scapE-medit
Neotinea maculata (Desf.) Stern.G bulbcircum-medit
Nepeta argolica Bory ex Chaub. subsp. argolicaCh suffrend CS Greece
Nepeta camphorata Boiss. & Heldr.Ch suffrend Peloponnese
Nepeta dirphya Boiss.H scapend Euboea
Nepeta nuda L. var. epirotica HalácsyCh suffrend Sterea Ellas
Nepeta parnassica Heldr. & Sartr. ex Boiss.Ch suffrend CS Greece
Nepeta spruneri Boiss.Ch suffrend NC Greece
Nigella arvensis L. subsp. glauca (Boiss.) A. Terrac.T scapE-medit
Noaea mucronata (Forssk.) Aschers. & Schweinf.Ch pulvE-medit
Noccaea graeca (Jordan) MeyerCh caespend Peloponnese
Nonea pulla (L.) DC.H scapeuro-medit
Onobrychis ebenoides Boiss. & SprunerCh suffrend CS Greece
Onobrychis laconica Orph. ex Boiss.Ch suffrend Greece
Onobrychis montana DC. subsp. macrocarpa StridCh suffrend Greece
Ononis pusilla L.H scapeuro-medit
Ononis spinosa L. subsp. antiquorum (L.) Arcang.Ch caespeuropean
Ononis spinosa L. subsp. leiosperma (Bois.) Sirj.Ch suffreuro-medit-irano-turan
Onopordum illyricum L.H scapcircum-medit
Onosma erecta Sm. subsp. malickyi TeppnerH caespend Peloponnese
Onosma heterophylla Griseb.Ch suffrend Balkan
Onosma leptantha Heldr.Ch suffrend Peloponnese
Origanum hirtum LinkH scapE-medit
Origanum sypileum L.H caespE-medit
Ornithogalum montanum Ten.G bulbE-medit
Ornithogalum nutans L.G bulbE-medit
Ornithogalum oligophyllum E.D. ClarkeG bulbE-medit
Ornithogalum sibthorpii Greuter G bulbE-medit
Papaver dubium L.T scappaleotemp
Paracaryum aucheri (A. DC.) Boiss. Ch suffrE-medit
Paronychia albanica Chaudri subsp. graeca ChaudriCh pulvend CS Greece
Paronychia bornmuelleri ChaudhriCh reptend N-Aegean
Paronychia chionaea Boiss. subsp. chionaea H caespE-medit
Paronychia euboaea Beauverd & TopaliH caespend Euboea
Paronychia macedonica ChaudhriH caespend Balkan
Paronychia macrosepala Boiss.H caespE-medit
Paronychia polygonifolia (Vill.) DC.H caespN-medit
Pedicularis graeca DC. H scapE-medit
Petrorhagia armerioides (Ser.) Ball & HeywoodCh suffrE-medit
Petrorhagia fasciculata (Margot & Reut.) Ball & Heywood
  var. cephallenica Damboldt & Phitos
Ch suffrend Ionian islands
Petrorhagia illyrica (Ard.) Ball & Heywood subsp. illyricaCh suffrend Balkan
Petrorhagia illyrica (Ard.) Ball & Heywood
  subsp. taygetea (Boiss.) Ball & Heywood
Ch suffrend Greece
Peucedanum longifolium Waldst. & Kit.H scapE-medit
Phitosia crocifolia (Sibth. & Sm.) Kamari & GreuterCh suffrend Peloponnese
Phleum alpinum L.H caespeuro-medit
Phleum graecum Boiss. & Heldr.T scapE-medit
Phleum montanum C. KochH caesppaleotemp
Phlomis fruticosa L.Ch frutcircum-medit
Phlomis grandiflora ThompsonCh frutE-medit
Phlomis samia L.Ch suffrend Balkan
Picnomon acarna (L.) Cass.T scapeuro-medit-irano-turan
Picris pauciflora Willd.T scapE-medit
Pilosella cimosa (L.) Schultz & Sch. Bip.
  subsp. sabina (Sebast.) Fuchs
H scapeurasian
Pilosella hoppeana F. W. Schultz & Sch. Bip.
  subsp. testimonialis (Nag. ex Pet.) Sell & C.West
H roseuro-medit
Pilosella leucopsilon (Arv.-Touv.) Gottschl.
  subsp. pilisquama (Nageli & Peter) Gottschl.
H roseuro-medit
Pilosella officinarum Vaill.H roseurosiberian
Pimpinella peregrina L.H scapeuro-medit
Pimpinella polyclada Boiss. & Heldr.H scapE-medit
Pimpinella tragium Vill. subsp. tragiumCh suffrN-medit
Plantago atrata Hoppe subsp. graeca (Halácsy) HolubH scapend Greece
Plantago holosteum Scop. var. alpestris (Griseb.) Rech. f.Ch pulvend CS Greece
Plantago lanceolata L.H roscircumboreal
Poa bulbosa L.H caesppaleotemp
Poa sylvicola Guss.H caespmedit-irano-turan
Poa thessala Boiss. & Orph.H caespend Balkan
Poa timoleontis Heldr. ex Boiss.H caespE-medit
Poa trichophylla Heldr. & Sart.H caespend Sterea Ellas
Podospermum canum C.A. Meyer var. alpinum Boiss.H scapend Greece
Polygala nicaeensis Koch subsp. mediterranea ChodatH scapcircum-medit
Polygala nicaeensis Koch subsp. tomentella (Boiss.) ChodatH scapend Greece
Potentilla recta L.H repteurasian
Potentilla speciosa Willd.Ch suffrE-medit
Prunella vulgaris L.H repteurasian
Prunus cocomilia Ten.NPE-medit
Pteridium aquilinum (L.) KuhnG rhizcosmop
Pterocephalus perennis Coult. subsp. perennisCh pulvend CS Greece
Pterocephalus pinardii Boiss.Ch pulvE-medit
Ptilostemon afer (Jacq.) GreuterH biennend Balkan
Ptilotrichium cyclocarpum Boiss. subsp. cyclocarpumCh suffrE-medit
Quercus calliprinos WebbPE-medit
Ranunculus brevifolius Ten.G rhizE-medit
Ranunculus ficarioides Bory & Chaub.G rhizE-medit
Ranunculus psilostachys Griseb.H rosend Balkan
Ranunculus rumelicus Griseb.G rhizE-medit
Ranunculus sartorianus Boiss. & Heldr.G rhizE-medit
Rhamnus oleoides L. subsp. graecus (Boiss. & Reut.) HolmboeNPE-medit
Rhamnus saxatilis Jacq. subsp. prunifolia (Sm.) AldénNPeuropean
Rhinanthus pubescens (Sterneck) Boiss. & Heldr. ex SoóT scapend NC Greece
Ribes uva-crispa L.NPeuro-medit-irano-turan
Rindera graeca (A. DC.) Boiss. & Heldr.Ch suffrend Greece
Rosa agrestis SaviNPeuropean
Rumex acetosella L. subsp. acetoselloides (Balansa) den NijsH scapE-medit
Rumex nebroides Campd.H scapcircum-medit
Rumex pulcher L.H scapcircum-medit
Salvia argentea L. var. alpina Heldr.H scapend Greece
Salvia fruticosa Mill.NPE-medit
Sanguisorba minor Scop. subsp. verrucosa (G. Don) Cout.H scapcosmop
Saponaria bellidifolia Sm.H reptN-medit
Saponaria calabrica Guss.T scapcircum-medit
Sarcopoterium spinosum (L.) SpachCh pulvE-medit
Satureja cuneifolia Ten.Ch suffrE-medit
Satureja montana L. subsp. macedonica (Formanek) Baden Ch suffrend NC Greece
Satureja parnassica Heldr. et Sart.Ch suffrend CS Greece
Satureja spinosa L. var. glabra W. Barbey & MajorCh pulvE-medit
Saxifraga adscendens L.H bienneuro-medit
Scabiosa columbaria L.H scapeurasian
Scabiosa ochroleuca L.H scapeurosiberian
Scabiosa taygetea Boiss. & Heldr. subsp. taygeteaH caespend CS Greece
Scabiosa webbiana D. DonH caespend Balkan
Scandix australis L.T scapcircum-medit
Scandix macroryncha C. A. MeyerT scapN-medit
Scilla nivalis L.G bulbend Greece
Scleranthus marginatus Guss.H caespE-medit
Scorzonera mollis Bieb.G rhizmedit-irano-turan
Scutellaria orientalis L. subsp. alpina (Boiss.) SchwarzCh suffrmedit-irano-turan
Scutellaria rupestris Boiss. & Heldr. subsp. rupestrisH scapend Peloponnese
Scutellaria rupestris Boiss. & Heldr.
  subsp. cephalonica (Rech. f.) Greuter & Burdet
H caespend Ionian islands
Secale strictum (Presl) StroblH caespcircum-medit
Sedum acre L.Ch succpaleotemp
Sedum album L.Ch succpaleotemp
Sedum dasyphyllum L.Ch succcircum-medit
Sedum hispanicum L.T scapE-medit
Sedum laconicum Boiss. & Heldr.Ch succE-medit
Sedum magellense Ten.Ch succcircum-medit
Sedum ochroleuchum ChaixCh succeuro-medit
Sedum tenuifolium (Sm.) StroblCh succcircum-medit
Sedum urvillei DC.Ch succE-medit
Sempervivum marmoreum Griseb.Ch succeuro-medit
Senecio squalidus L.H scapcircum-medit
Senecio thapsoides DC.H scapend Balkan
Senecio vernalis Wladst. & Kit.T scappaleotemp
Sesleria achtarovii DeylH caespcircum-medit
Sesleria anatolica DeylH caespE-medit
Sesleria krajinae DeylH caespend Euboea
Sesleria tenerrima (Frirsch) HayekH caespend Balkan
Sesleria vaginalis Boiss. & Orph.H caespend Greece
Sideritis clandestina (Bory & Chaub.) Hayek subsp. clandestinaCh suffrend Peloponnese
Sideritis clandestina (Bory & Chaub.) Hayek
  subsp. peloponnesiaca (Boiss. & Heldr.) Baden
Ch suffrend Peloponnese
Sideritis euboea Heldr.Ch suffrend Euboea
Sideritis raeseri Boiss. & Heldr. subsp. raeseriCh suffrE-medit
Sideritis raeseri Boiss. & Heldr.
  subsp. attica (Heldr.) Papan. & Kokkini
Ch suffrend Sterea Ellas
Sideritis sipylea Boiss.Ch suffrE-medit
Silene auriculata Sibth. & Sm.Ch pulvend CS Greece
Silene bupleuroides (L.) subsp. staticifolia (Sm.) ChowdhuriCh suffrE-medit
Silene conica L.T scapeurasian
Silene italica (L.) Pers. subsp. italicaCh caespeuro-medit
Silene italica (L.) Pers. subsp. peloponnesiaca GreuterCh caespend CS Greece
Silene lesbiaca Cand.Ch caespend E-Aegean
Silene multicaulis Guss. subsp. multicaulisH scapE-medit
Silene parnassica Boiss. & SprunerCh suffrend Greece
Silene radicosa Boiss. & Heldr. subsp. radicosaCh pulvend Balkan
Silene roemeri Friv. subsp. macrocarpa (Vandas) GreuterH caespend Balkan
Silene ungeri FenzlT scapE-medit
Silene urvillei SchottCh pulvE-medit
Silene vulgaris (Moench) Garcke
  subsp. prostrata (Gaudin) Chater & Walters
H scapend CS Greece
Sorbus graeca (Spach) Lodd. ex S. SchauerNPeurasian
Stachys alopecurus (L.) Bentham.H scapeuro-medit
Stachys cretica L. subsp. smyrnaea Rech. fil.H scapE-medit
Stachys heldreichii Boiss.H scapend Balkan
Stachys tymphaea Hausskn.H scapE-medit
Stenbergia colchiciflora Waldst. & KitG bulbN-medit
Stipa endotricha Martinovský H caespend CS Greece
Stipa holosericea Trin.H caespmedit-irano-turan
Taraxacum albomarginatum RichardsH rosend Greece
Taraxacum bythinicum DC.H rosE-medit
Taraxacum cfr. graecum Dahlst.H rosend Greece
Taraxacum cylleneum FurnkranzH rosend Peloponnese
Taraxacum delphicum Dahlst.H rosend Greece
Taraxacum gracilens Dahlst.H rosE-medit
Taraxacum laevigatum DC.H roseuro-medit
Taraxacum minimum (Guss.) N. Terracc.H roscircum-medit
Telephium orientale Boiss.Ch suffrmedit-irano-turan
Teucrium capitatum L.Ch suffrcircum-medit
Teucrium chamaedrys L.Ch suffreuro-medit
Teucrium divaricatum Heldr.Ch frutE-medit
Teucrium montanum L. var. parnassicum Čelak.Ch suffrend Greece
Thesium arvense HorvatovszkyCh reptE-medit
Thesium bergeri Zucc.Ch reptE-medit
Thesium parnassi A. DC.Ch reptE-medit
Thlaspi ochroleuchum Boiss. & Heldr.Ch suffrE-medit
Thlaspi perfoliatum L.T scappaleotemp
Thymbra capitata (L.) Cav.Ch frutcircum-medit
Thymbra spicata L.T scapE-medit
Thymus chaubardii (Boiss. & Heldr.) CelakCh suffrE-medit
Thymus holosericeus Celak. Ch suffrend Ionian islands
Thymus leucospermus HaltvigCh suffrend NC Greece
Thymus leucotrichus HalácsyCh suffrE-medit
Thymus parnassicus HalácsyCh suffrend Sterea Ellas
Thymus samius Ronniger & Rech. fil.Ch suffrend E-Aegean
Thymus sibthorpii Benth.Ch suffrE-medit
Thymus sipyleus Boiss.Ch suffrE-medit
Thymus striatus VahlCh suffrE-medit
Thymus teucrioides Boiss. & Spruner subsp. teucrioidesCh suffrend NC Greece
Thymus zygioides Griseb.Ch suffrend Balkan
Tordylium hirtocarpum Cand.T scapE-medit
Tragopogon crocifolius L. subsp. samaritanii (Boiss.) RichardsonH rosE-medit
Trifolium campestre Schreb.T scappaleotemp
Trifolium ottonis Sprun.H caespend CS Greece
Trifolium parnassi Boiss. & SprunerCh caespend Greece
Trifolium physodes Steven ex Bieb.H scapE-medit
Trifolium pignantii Fauché & Chaub.G rhizend Balkan
Trifolium pratense L.H scapcosmop
Trifolium repens L.H reptcosmop
Trifolium uniflorum L.H caespend Balkan
Trinia frigida (Boiss. & Heldr.) DrudeH scapend CS Greece
Trinia glauca (L.) Dumort. subsp. pindica HartvigH scapeuropean
Trinia guicciardii (Boiss. & Heldr.) DrudeH scapend CS Greece
Tripodium graecum (Boiss.) LassenCh suffrE-medit
Trisetum tenuiforme JonsellH caespE-medit
Tulipa australis LinkG bulbeuro-medit-irano-turan
Urtica dioica L.H rhizcosmop
Valantia aprica (Sibth. & Sm.) Boiss. & Heldr.H scapE-medit
Valeriana bertiscea PancicH scapend Sterea Ellas
Valeriana dioscoridis Sm.H rhizE-medit
Valeriana tuberosa L.H scappaleotemp
Verbascum acaule (Bory & Chaub.) KuntzeH rosend Peloponnese
Verbascum cylleneum (Boiss. & Heldr.) O. KuntzeH scapend Peloponnese
Verbascum delphicum Boiss. & Heldr.H scapend Greece
Verbascum densiflorum Bertol.H bienneuro-medit-irano-turan
Verbascum epixanthinum Boiss. & Heldr. var. epixanthinumH scapend Greece
Verbascum graecum Heldr. & SartoriH scapend Balkan
Verbascum guicciardii Heldr.H biennend Balkan
Verbascum megaphlomos (Boiss. & Heldr.) Hal.H bienneuro-medit-irano-turan
Verbascum parnassicum HalácsyH scapend Sterea Ellas
Verbascum pycnostachyum Boiss. & Heldr.H biennE-medit
Veronica arvensis L.T scappaleotemp
Veronica austriaca L. subsp. teucrioides (Boiss. & Heldr.) Hal.H scapend NC Greece
Veronica chamaedrys L.H scapeuro-medit
Veronica erinoides Boiss.& SprunerCh suffrend CS Greece
Veronica jacquinii Baumg.H scapE-medit
Veronica sartoriana Boiss. & Heldr.T scapend Greece
Veronica thymifolia Sibth. & Sm.Ch suffrE-medit
Veronica verna L.T scapeuro-medit-irano-turan
Vicia cracca L.H reptcircumboreal
Vincetoxicum hirundinaria Medicus
  subsp. nivale (Boiss. & Heldr.) Markgraf
H scapE-medit
Vincetoxicun canescens (Willd.) Decne subsp. peduncolatum BrowiczH scapE-medit
Viola cephalonica Bornm.H reptend Ionian islands
Viola chelmea Boiss. & Heldr.H reptend CS Greece
Viola euboaea (Halácsy) HalácsyH reptend Euboea
Viola graeca (Becker) HalácsyH reptend Greece
Viola mercurii HalácsyH reptend CS Greece
Viola parnonia Tan, Sfikas & VoldH scapend Peloponnese
Viola parvula Tin.T scapcircum-medit
Viola sfikasiana ErbenH scapend Peloponnese
Viola sieheana BeckerH caespE-medit
Viola stojanowii W. BeckerH scapend NC Greece

Appendix B

Table A2. Synoptic table of the old associations arranged according to Quézel [35] traitment.
Table A2. Synoptic table of the old associations arranged according to Quézel [35] traitment.
Plants 09 01678 i001
Plants 09 01678 i002
Table A3. Synoptic table of the old associations reported in Table A2 arranged according to the new syntaxonomical traitment.
Table A3. Synoptic table of the old associations reported in Table A2 arranged according to the new syntaxonomical traitment.
Plants 09 01678 i003
Plants 09 01678 i004
Table A4. Synoptic table of the associations belonging to Eryngio multifidi-Armerietalia orphanidis.
Table A4. Synoptic table of the associations belonging to Eryngio multifidi-Armerietalia orphanidis.
Plants 09 01678 i005
Plants 09 01678 i006
Plants 09 01678 i007
Table A5. Synoptical tables of the associations belonging to Noaeo mucronatae-Silenetalia urvillei order.
Table A5. Synoptical tables of the associations belonging to Noaeo mucronatae-Silenetalia urvillei order.
Plants 09 01678 i008
Plants 09 01678 i009

Appendix C

Table A6. Marrubio velutini-Astragaletum rumelici Quézel 1964.
Table A6. Marrubio velutini-Astragaletum rumelici Quézel 1964.
Plants 09 01678 i010
Plants 09 01678 i011
Table A7. Astragalo lactei-Convolvuletum cochlearis Quézel 1964.
Table A7. Astragalo lactei-Convolvuletum cochlearis Quézel 1964.
Plants 09 01678 i012
Table A8. Nepeto epiroticae-Astragaletum corynthiaci (Quézel 1964) Musarella, Brullo & Giusso nom. nov.
Table A8. Nepeto epiroticae-Astragaletum corynthiaci (Quézel 1964) Musarella, Brullo & Giusso nom. nov.
Plants 09 01678 i013
Table A9. Nepeto spruneri-Astragaletum corynthiaci Musarella, Brullo & Giusso ass. nov.
Table A9. Nepeto spruneri-Astragaletum corynthiaci Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i014
Table A10. Thymo parnassici-Paronychietum polygonifoliae Quézel 1964 corr.
Table A10. Thymo parnassici-Paronychietum polygonifoliae Quézel 1964 corr.
Plants 09 01678 i015
Table A11. Nepeto sprunerii-Astragaletum tymphrestei Musarella, Brullo & Giusso ass. nov.
Table A11. Nepeto sprunerii-Astragaletum tymphrestei Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i016
Table A12. Violo stojanowii-Seslerietum vaginalis Quézel 1973 corr.
Table A12. Violo stojanowii-Seslerietum vaginalis Quézel 1973 corr.
Plants 09 01678 i017
Table A13. Erysimo parnassi-Minuartietum stellatae Quézel 1964.
Table A13. Erysimo parnassi-Minuartietum stellatae Quézel 1964.
Plants 09 01678 i018
Table A14. Aurinio gionae-Minuartietum stellatae Musarella, Brullo & Giusso ass. nov.
Table A14. Aurinio gionae-Minuartietum stellatae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i019
Table A15. Achilleo fraisii-Dianthetum tymphrestei Musarella, Brullo & Giusso ass. nov.
Table A15. Achilleo fraisii-Dianthetum tymphrestei Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i020
Table A16. Asperulo luteae-Achilleetum umbellatae Musarella, Brullo & Giusso ass. nov.
Table A16. Asperulo luteae-Achilleetum umbellatae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i021
Table A17. Astragalo lactei-Asperuletum apiculatae Musarella, Brullo & Giusso ass. nov.
Table A17. Astragalo lactei-Asperuletum apiculatae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i022
Table A18. Diantho minutiflori-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
Table A18. Diantho minutiflori-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i023
Table A19. Scabioso ochroleucae-Sideridetum raeseri Musarella, Brullo & Giusso ass. nov.
Table A19. Scabioso ochroleucae-Sideridetum raeseri Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i024
Table A20. Ranunculo psilostachydis-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
Table A20. Ranunculo psilostachydis-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i025
Table A21. Edraiantho parnassici-Globularietum cordifoliae Musarella, Brullo & Giusso ass. nov.
Table A21. Edraiantho parnassici-Globularietum cordifoliae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i026
Table A22. Thymo parnassici-Astragaletum parnassi Musarella, Brullo & Giusso ass. nov.
Table A22. Thymo parnassici-Astragaletum parnassi Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i027
Table A23. Chamaecytiso hirsuti-Astragaletum parnassi Musarella, Brullo & Giusso ass. nov.
Table A23. Chamaecytiso hirsuti-Astragaletum parnassi Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i028
Table A24. Onobrychido laconicae-Genistetum parnassicae Musarella, Brullo & Giusso ass. nov.
Table A24. Onobrychido laconicae-Genistetum parnassicae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i029
Table A25. Allio cithaeronis-Dianthetum serratifolii Musarella, Brullo & Giusso ass. nov.
Table A25. Allio cithaeronis-Dianthetum serratifolii Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i030
Table A26. Inulo methaneae-Sideritetum atticae Musarella, Brullo & Giusso ass. nov.
Table A26. Inulo methaneae-Sideritetum atticae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i031
Table A27. Helictotricho convoluti-Thymetum holosericei Musarella, Brullo & Giusso ass. nov. (a) rel. 1–5; Saturejo cuneifoliae-Thymetum holosericei Musarella, Brullo & Giusso ass. nov. (b) rel. 6–9; Scutellario cephalonicae-Astragaletum cephalonici Musarella, Brullo & Giusso ass. nov. (c) rel. 10–12; Paronychio graecae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov. (d) rel. 13–19.
Table A27. Helictotricho convoluti-Thymetum holosericei Musarella, Brullo & Giusso ass. nov. (a) rel. 1–5; Saturejo cuneifoliae-Thymetum holosericei Musarella, Brullo & Giusso ass. nov. (b) rel. 6–9; Scutellario cephalonicae-Astragaletum cephalonici Musarella, Brullo & Giusso ass. nov. (c) rel. 10–12; Paronychio graecae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov. (d) rel. 13–19.
Plants 09 01678 i032
Table A28. Sideritido euboeae-Astragaletum euboici Musarella, Brullo & Giusso ass. nov.
Table A28. Sideritido euboeae-Astragaletum euboici Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i033
Table A29. Scabioso webbianae-Phlomidetum samiae Musarella, Brullo & Giusso ass. nov.
Table A29. Scabioso webbianae-Phlomidetum samiae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i034
Table A30. Sideritido euboeae-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
Table A30. Sideritido euboeae-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i035
Table A31. Inulo limonellae-Seslerietum vaginalis Musarella, Brullo & Giusso ass. nov.
Table A31. Inulo limonellae-Seslerietum vaginalis Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i036
Table A32. Cirsio hypopsilii-Astragaletum taygetici Quézel 1964 corr.
Table A32. Cirsio hypopsilii-Astragaletum taygetici Quézel 1964 corr.
Plants 09 01678 i037
Plants 09 01678 i038
Plants 09 01678 i039
Plants 09 01678 i040
Plants 09 01678 i041
Table A33. Asteri cyllenei-Globularietum stygiae Quézel 1964.
Table A33. Asteri cyllenei-Globularietum stygiae Quézel 1964.
Plants 09 01678 i042
Table A34. Euphrasio salisburgensis-Asperuletum oetaeae Quézel & Katrabassa 1974 corr.
Table A34. Euphrasio salisburgensis-Asperuletum oetaeae Quézel & Katrabassa 1974 corr.
Plants 09 01678 i043
Table A35. Marrubio cyllenei-Astragaletum calavrytensis Musarella, Brullo & Giusso ass. nov.
Table A35. Marrubio cyllenei-Astragaletum calavrytensis Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i044
Plants 09 01678 i045
Table A36. Plantagini graecae-Astragaletum cyllenei Musarella, Brullo & Giusso ass. nov.
Table A36. Plantagini graecae-Astragaletum cyllenei Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i046
Table A37. Festuco achaicae-Minuartietum stellatae Musarella, Brullo & Giusso ass. nov.
Table A37. Festuco achaicae-Minuartietum stellatae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i047
Table A38. Alysso taygetei-Plantaginetum alpestris Musarella, Brullo & Giusso ass. nov.
Table A38. Alysso taygetei-Plantaginetum alpestris Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i048
Table A39. Hieracio sartoriani-Seslerietum tenerrimae Musarella, Brullo & Giusso ass. nov.
Table A39. Hieracio sartoriani-Seslerietum tenerrimae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i049
Table A40. Asperulo boissieri-Festucetum cyllenicae Georgiadis & Dimopoulos ex Musarella, Brullo & Giusso ass. nov.
Table A40. Asperulo boissieri-Festucetum cyllenicae Georgiadis & Dimopoulos ex Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i050
Table A41. Ranunculo brevifolii-Seslerietum tenerrimae Musarella, Brullo & Giusso ass. nov.
Table A41. Ranunculo brevifolii-Seslerietum tenerrimae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i051
Table A42. Astragaletum hellenico-erinacei Musarella, Brullo & Giusso ass. nov.
Table A42. Astragaletum hellenico-erinacei Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i052
Table A43. Festucetum polito-cyllenicae Maroulis & Georgiadis 2005.
Table A43. Festucetum polito-cyllenicae Maroulis & Georgiadis 2005.
Plants 09 01678 i053
Table A44. Arenario filicaulis-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
Table A44. Arenario filicaulis-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i054
Table A45. Aurinio moreanae-Lomelosietum crenatae Musarella, Brullo & Giusso ass. nov.
Table A45. Aurinio moreanae-Lomelosietum crenatae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i055
Table A46. Onosmo malickyi-Astragaletum hellenici Musarella, Brullo & Giusso ass. nov.
Table A46. Onosmo malickyi-Astragaletum hellenici Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i056
Table A47. Violo grecae-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
Table A47. Violo grecae-Festucetum cyllenicae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i057
Table A48. Tripodio graeci-Helictotrichetum heldreichii Musarella, Brullo & Giusso ass. nov.
Table A48. Tripodio graeci-Helictotrichetum heldreichii Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i058
Table A49. Scabioso taygeteae-Onosmetum leptanthae Quézel 1964.
Table A49. Scabioso taygeteae-Onosmetum leptanthae Quézel 1964.
Plants 09 01678 i059
Table A50. Danthoniastro compacti-Fumanetum alpinae Musarella, Brullo & Giusso ass. nov.
Table A50. Danthoniastro compacti-Fumanetum alpinae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i060
Table A51. Sideritido clandestinae-Astragaletum taygetici Musarella, Brullo & Giusso ass. nov.
Table A51. Sideritido clandestinae-Astragaletum taygetici Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i061
Table A52. Rindero graecae-Acantholimetum graeci Quézel 1964 corr.
Table A52. Rindero graecae-Acantholimetum graeci Quézel 1964 corr.
Plants 09 01678 i062
Table A53. Onosmo heterophyllae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov.
Table A53. Onosmo heterophyllae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i063
Table A54. Astragaletum lacteo-taygetici Musarella, Brullo & Giusso ass. nov.
Table A54. Astragaletum lacteo-taygetici Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i064
Table A55. Violo parnoniae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov. (a) astragaletosum erinacei Musarella, Brullo & Giusso subass. nov. (b) asperuletosum malevonensis Musarella, Brullo & Giusso subass. nov.
Table A55. Violo parnoniae-Astragaletum erinacei Musarella, Brullo & Giusso ass. nov. (a) astragaletosum erinacei Musarella, Brullo & Giusso subass. nov. (b) asperuletosum malevonensis Musarella, Brullo & Giusso subass. nov.
Plants 09 01678 i065
Table A56. Astragaletum samii Musarella, Brullo & Giusso ass. nov.
Table A56. Astragaletum samii Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i066
Table A57. Thymo samii-Astragaletum condensati Musarella, Brullo & Giusso ass. nov.
Table A57. Thymo samii-Astragaletum condensati Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i067
Table A58. Campanulo lyratae-Genistetum parnassicae Musarella, Brullo & Giusso ass. nov.
Table A58. Campanulo lyratae-Genistetum parnassicae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i068
Table A59. Arenario guicciardii-Seslerietum anatolicae Musarella, Brullo & Giusso ass. nov.
Table A59. Arenario guicciardii-Seslerietum anatolicae Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i069
Table A60. Anthemido discoideae-Astragaletum aegeici Musarella, Brullo & Giusso ass. nov. (a); Diantho zonati-Astragaletum lesbiaci Musarella, Brullo & Giusso ass. nov. (b); Galio insularis-Thymetum sypilei Musarella, Brullo & Giusso ass. nov. (c); Acantholimo aegaei-Astragaletum lesbiaci Musarella, Brullo & Giusso ass. nov. (d).
Table A60. Anthemido discoideae-Astragaletum aegeici Musarella, Brullo & Giusso ass. nov. (a); Diantho zonati-Astragaletum lesbiaci Musarella, Brullo & Giusso ass. nov. (b); Galio insularis-Thymetum sypilei Musarella, Brullo & Giusso ass. nov. (c); Acantholimo aegaei-Astragaletum lesbiaci Musarella, Brullo & Giusso ass. nov. (d).
Plants 09 01678 i070
Table A61. Paronychio bornmuelleri-Astragaletum odoniani Musarella, Brullo & Giusso ass. nov.
Table A61. Paronychio bornmuelleri-Astragaletum odoniani Musarella, Brullo & Giusso ass. nov.
Plants 09 01678 i071

References

  1. Pignatti, S. Plant geographical and morphological evidencies in the evolution of the Mediterranean flora. Webbia 1979, 34, 243–255. [Google Scholar] [CrossRef]
  2. Pignatti, E.; Pignatti, S.; Nimis, P.L.; Avanzini, A. La vegetazione ad arbusti spinosi emisferici: Contributo alla interpretazione delle fasce di vegetazione delle alte montagne dell’Italia mediterranea. AQ/1/79 Coll. Progr. Fin. Promoz. Qual. Ambiente 1980, 1–130. [Google Scholar]
  3. Nimis, P.L. The thorny cushions vegetation in Mediterranean Italy. Phytogeographical Problems. An. Jard. Bot. Madr. 1981, 37, 339–351. [Google Scholar]
  4. Bacchetta, G.; Brullo, S. Taxonomic Revision of the Astragalus genargenteus Complex (Fabaceae). Willdenowia 2006, 36, 157–167. Available online: http://www.jstor.org/stable/3997691 (accessed on 4 September 2020). [CrossRef]
  5. Podlech, D.; Zarre, S. A Taxonomic Revision of the Genus Astragalus L. (Leguminosae) in the Old World; Naturhistorisches Museum Wien-Austria, Grasl Druch und Neue Medien GmbH: Bad Voslou, Austria, 2013; pp. 1–2439. [Google Scholar]
  6. Baden, C. Cerastium L. In Mountain Flora of Greece; Strid, A., Tan, K., Eds.; Edinburgh University Press: Edinburgh, Scotland, 1991; Volume 2, pp. 82–84. [Google Scholar]
  7. Jalas, J. Cerastium L. In Flora Europaea, 2nd ed.; Tutin, T.G., Heywood, V.H., Burges, N.A., Moore, D.M., Valentine, D.H., Walters, S.M., Webb, D.A., Eds.; Cambridge University Press: Cambridge, UK, 1993; Volume 1, pp. 164–173. [Google Scholar]
  8. Möschl, W.; Barberis, G. Cerastium L. In Flora d’Italia, 2nd ed.; Pignatti, S., Ed.; Edagricole: Milano, Italy, 2017; Volume 2, pp. 115–132. [Google Scholar]
  9. Baden, C. Marrubium L. In Mountain Flora of Greece; Strid, A., Tan, K., Eds.; Edinburgh University Press: Edinburgh, Scotland, 1991; Volume 2, pp. 82–84. [Google Scholar]
  10. Baden, C. Sideritis L. In Mountain Flora of Greece; Strid, A., Tan, K., Eds.; Edinburgh University Press: Edinburgh, Scotland, 1991; Volume 2, pp. 84–90. [Google Scholar]
  11. Pignatti, S. Sideritis L. In Flora d’Italia, 2nd ed.; Pignatti, S., Ed.; Edagricole: Milano, Italy, 2017; Volume 2. [Google Scholar]
  12. Baden, C. Nepeta L. In Mountain Flora of Greece; Strid, A., Tan, K., Eds.; Edinburgh University Press: Edinburgh, Scotland, 1991; Volume 2, pp. 108–120. [Google Scholar]
  13. Dimopoulos, P.; Raus, T.; Bergmeier, E.; Constantinidis, T.; Iatrou, G.; Kokkini, S.; Strid, A.; Tzanoudakis, D. Vascular plants of Greece. An annotated checklist. Englera 2013, 31, 1–372. [Google Scholar] [CrossRef] [Green Version]
  14. Pignatti, S. Carlina L. In Flora d’Italia, 2nd ed.; Pignatti, S., Ed.; Edagricole: Milano, Italy, 2018; Volume 3, p. 116. [Google Scholar]
  15. Brullo, S.; Giusso Del Galdo, G.P. Taxonomic remarks on Sesleria nitida Ten. (Poaceae), an orophyte endemic to Sicily and the central-southern Apennines. Plant Biosyst. Int. J. Deal. Asp. Plant Biol. 2006, 140, 43–49. [Google Scholar] [CrossRef]
  16. Peccenini, S. Erysimum L. In Flora d’Italia, 2nd ed.; Pignatti, S., Ed.; Edagricole: Milano, Italy, 2017; Volume 2, pp. 898–908. [Google Scholar]
  17. Merxmüller, H.; Erben, M. Viola L. In Flora d’Italia, 2nd ed.; Pignatti, S., Ed.; Edagricole: Milano, Italy, 2017; Volume 2, pp. 366–391. [Google Scholar]
  18. Boissier, P.E. Diagnoses Plantarum Orientalium Novarum. ser.; Biblioteca Digital Real Jardin Botánico; Typis Ramboz et Schruchardt: Geneve, Switzerland, 1859; Volume 2, pp. 5–146. Available online: https://bibdigital.rjb.csic.es/idurl/1/10696 (accessed on 23 November 2020).
  19. Brullo, S.; Guarino, R. Armeria Willd, 2nd ed.; Pignatti, S., Ed.; Edagricole: Milano, Italy, 2017; Volume 2, pp. 11–18. [Google Scholar]
  20. Quézel, P. Contribution a l’étude phytosociologique et géobotanique de la Sierra Nevada. Mem. Soc. Brot. 1953, 9, 5–77. [Google Scholar]
  21. Quézel, P. Peuplement végétal des hautes montagnes de l’Afrique du Nord. Encycl. Biogeogr. Ecol. 1957, 10, 1–464. [Google Scholar]
  22. Klein, J.C. Le Genisteto-Carlinetum macrocephalae ass. nov. de l’étage montagnarde et le Ligusticetum corsici ass. nov. de l’étage subalpin des massifs du Cinto et du Campochile orientale. Vegetation 1972, 25, 311–333. [Google Scholar]
  23. Gamisans, J. La végétation des montagnes corses. Deuxiéme partie. Phytocoenologia 1977, 4, 35–131. [Google Scholar]
  24. Arrigoni, P.V. Contributo alla conoscenza della vegetazione del monte Gennargentu in Sardegna. Boll. Soc. Sarda. Sci. Nat. 1986, 25, 63–96. [Google Scholar]
  25. Arrigoni, P.V.; Di Tommaso, P.L. La vegetazione delle montagne calcaree della Sardegna centro-orientale. Boll. Soc. Sarda. Sci. Nat. 1991, 28, 201–310. [Google Scholar]
  26. Frei, M. Die Pflanzen-Assoziationen der alpinen Stufe des Etna. Ber. Geobot. Forschunginst. Rübel Zürich Jahr 1940, 1939, 86–92. [Google Scholar]
  27. Gilli, A. Die Vegetationsvethältnisse der subalpinen und alpinen Stufe des Ätna. Beihefte Bot. Centralb. 1943, 62, 43–67. [Google Scholar]
  28. Poli, E. La vegetazione altomontana dell’Etna. Flora Veg. Ital. 1965, 5, 1–241. [Google Scholar]
  29. Raimondo, F.M. Carta della vegetazione di Piano della Battaglia e del territorio circostante (Madonie, Sicilia). Coll. Progr. Fin. Promoz. Qual. Ambiente 1980, 1, 1–43. [Google Scholar]
  30. Brullo, S. Contributo alla conoscenza della vegetazione delle Madonie (Sicilia Settentrionale). Boll. Acc. Gioenia Sci. Nat. Catania 1984, 16, 251–420. [Google Scholar]
  31. Brullo, S.; Cormaci, A.; Giusso del Galdo, G.; Guarino, R.; Minissale, P.; Siracusa, G.; Spampinato, G. A syntaxonomical survey of the sicilian dwarf shrub vegetation belonging to the class Rumici-Astragaletea siculi. Ann. Bot. 2005, 5, 57–104. [Google Scholar]
  32. Giacomini, V.; Gentile, S. Observations synthétiques sur la végétation anthropogène montagnarde de la Calabre (Italie Méridionale). Anthr. Veg. 1966, 3, 135–145. [Google Scholar] [CrossRef]
  33. Brullo, S.; Scelsi, F.; Spampinato, G. La vegetazione dell’Aspromonte. Studio fitosociologico; Laruffa Editore Bookstore: Reggio Calabria, Italy, 2001; pp. 1–368. [Google Scholar]
  34. Brullo, S.; Gangale, C.; Uzunov, D. The orophilous cushion-like vegetation of the Sila Massif (S Italy). Bot. Jahrbücher Syst. Pflanz. 2004, 125, 453–488. [Google Scholar] [CrossRef]
  35. Quézel, P. Vegetation des hautes montagnes de la Grece meridionale. Vegetation 1964, 12, 289–386. [Google Scholar] [CrossRef]
  36. Quézel, P. La végétation des hauts sommets du Pinde et de l’Olympe de Thessalie. Vegetation 1967, 14, 127–226. [Google Scholar] [CrossRef]
  37. Quézel, P. La végétation du massif du Bela Voda (Macedoine nord-occidentale). Biol. Gallo-Hellen. 1969, 2, 93–112. [Google Scholar]
  38. Quézel, P. Contribution à l’etude de la vegetation du Vardoussia. Biol. Gallo-Hellen. 1973, 5, 139–166. [Google Scholar]
  39. Quézel, P. Contribution à l’étude phytosociologique des pelouse ecorchées culminales du Massif du Falakron. Bios 1989, 1, 187–193. [Google Scholar]
  40. Quézel, P.; Katrabassa, M. Premier apercu sur la vegetation du Chelmos (Peloponèse). Rev. Biol. Ecol. Médit. 1974, 1, 11–26. [Google Scholar]
  41. Christodoulakis, D.; Georgiadis, T. The vegetation of the island of Samos, Greece. Ann. Mus. Goulandris 1990, 8, 45–80. [Google Scholar]
  42. Georgiadis, T.; Dimopoulos, P. Etude de la vegetation supraforestière du Mont Kyllini (Péloponnèse-Grèce). Bot. Helv. 1993, 103, 149–175. [Google Scholar]
  43. Karagiannakidou, V. Contribution to the study of mountain-subalpine grassland vegetation on Mount Menikion, north eastern Greece. Ecol. Medit. 1994, 20, 73–84. [Google Scholar] [CrossRef]
  44. Maroulis, G.; Georgiadis, T. The vegetation of supra-forest meadows and rock crevices of Mount Erimanthos (NW Peloponnisos, Greece). Fitosociology 2005, 42, 33–56. [Google Scholar]
  45. Zaffran, J. Contribution à la Flore et Végétation de la Créte; Pu Provence: Aix en Provence, France, 1980; pp. 1–615. ISBN 9782853992312. [Google Scholar]
  46. Bergmeier, E. The vegetation of the high mountains of Crete a revision and multivariate analysis. Phytocoenologia 2002, 32, 205–249. [Google Scholar] [CrossRef]
  47. Quézel, P.; Pamukçuoglu, A. Vegetation des hautes montagnes d’Anatolie nord-occidentale. Isr. J. Bot. 1970, 19, 348–400. [Google Scholar]
  48. Quézel, P. Contribution à l’étude phytosociologique du Massif du Taurus. Phytocoenologia 1973, 1, 131–222. [Google Scholar]
  49. Akman, Y.; Quézel, P.; Yurdakulol, E.; Ketenollu, O.; Demirors, M. La végétation des hauts sommets de l’Ilgaz Dag. Ecol. Medit. 1987, 13, 119–129. [Google Scholar] [CrossRef]
  50. Akman, Y.; Quézel, P.; Barbero, M.; Ketenollu, O.; Daydoldu, M. La végétation des steppes pelouses écorchées à xérophythes épineux de l’Antitauros dans la partie sud-ouest de l’Anatolie. Phytocoenologia 1991, 19, 391–428. [Google Scholar] [CrossRef]
  51. Brullo, S.; Giusso del Galdo, G.; Guarino, R. The orophilous dwarf-shrub vegetation of Mt. Trodos (Cyprus). Bot. Chron. 2005, 18, 63–73. [Google Scholar]
  52. Rivas-Martínez, S. Esquema de la vegetación potencial y su correspondencia con los suelos de la España peninsular. Anal. Inst. Bot. Cavanilles 1964, 22, 341–405. [Google Scholar]
  53. Rivas-Martínez, S.; Fernandez-Gonzalez, F.; Loidi, J. Checklist of plant communities of Iberian Peninsula, Balearic and Canary Islands to suballiance level. Itinera Geobot. 1999, 13, 353–451. [Google Scholar]
  54. Rivas-Martínez, S.; Fernandez-Gonzalez, F.; Loidi, J.; Lousã, M.; Penas, A. Syntaxonomical checklist of vascular plant communities of Spain and Portugal to association level. Itinera Geobot. 2001, 14, 5–341. [Google Scholar]
  55. Rivas-Martínez, S.; Diaz, T.E.; Fernandez-Gonzalez, F.; Izco, J.; Loidi, J.; Lousã, M.; Penas, A. Vascular plant communities of Spain and Portugal. Addenda to the syntaxonomical checklist of 2001. Itinera Geobot. 2002, 15, 5–432. [Google Scholar]
  56. Stanisci, A. Gli arbusteti altomontani dell’Appennino centrale e meridionale. Fitosociologia 1997, 34, 3–46. [Google Scholar]
  57. Brullo, S.; Giusso del Galdo, G.; Guarino, R. The orophilous communities of the Pino-Juniperetea class in the Central and Eastern Mediterranean area. Feddes Repert. 2001, 112, 261–308. [Google Scholar] [CrossRef]
  58. Aplada, E.; Georgiadis, T.; Tiniakou, A.; Theocharopoulos, M. Phytogeography and ecological evalutation on the flora and Vegetation of Mt. Parnitha (Attica, Greece). Edimb. J. Bot. 2007, 64, 185–207. [Google Scholar] [CrossRef]
  59. Knapp, R. Die Vegetation von Kephallinia, Griechenland; Koelz: Koenigstein, Germany, 1965; pp. 1–206. [Google Scholar]
  60. Higgins, M.D.; Higgins, R. A Geological Companion to Greece and the Aegean; Cornell University Press: Ithaca, NY, USA, 1996; pp. 1–240. [Google Scholar]
  61. Van Hinsbergen, D.J.J.; Van Der Meer, D.G.; Zachariasse, W.J.; Meulenkamp, J.E. Deformation of western Greece during Neogene clockwise rotation and collision with Apulia. Acta Diabetol. 2005, 95, 463–490. [Google Scholar] [CrossRef]
  62. Higgins, M.D. Geology of the Greek Islands. 2009. Available online: https://www.researchgate.net/publication/256975462 (accessed on 22 January 2020).
  63. Rivas-Martínez, S. Clasificación bioclimática de la Tierra (Bioclimatical Classification System of the World). Folia Bot. Matritensis 1995, 16, 1–25. [Google Scholar]
  64. Rivas-Martínez, S.; Rivas-Saenz, S. Worldwide Bioclimatic Classification System. 1996–2020. Phytosociological Research Center, Spain. Available online: http://www.globalbioclimatics.org (accessed on 21 November 2020).
  65. Rivas-Martínez, S.; Penas, A.; Díaz, T.E. Bioclimatic Map of Europe, Bioclimates. Cartographic Service; University of León: León, Spain, 2004. [Google Scholar]
  66. Rivas-Martínez, S.; Penas, A.; Díaz, T.E. Bioclimatic Map of Europe, Thermoclimatic Belts. Cartographic Service; University of León: León, Spain, 2004. [Google Scholar]
  67. Walter, H.; Leith, H. Klimadiagramm-Weltatlas. In Drei Lieferungen Mit Etwa 8000 Klimastationen (Etwa 9000 Diagramme); Gustav Fischer Verlag: Jena, Germany, 1960–1973. [Google Scholar]
  68. Hijmans, R.J.; Cameron, S.E.; Parra, J.L.; Jones, P.G.; Jarvis, A. Very high resolution interpolated climate surfaces for global land areas. Int. J. Clim. 2005, 25, 1965–1978. [Google Scholar] [CrossRef]
  69. Hijmans, R.J.; Cameron, S.E.; Parra, J.L.; Jones, P.G.; Jarvis, A.; Richardson, K. Worldclim, Version 1.4; University of California: Berkeley, CA, USA, 2006. [Google Scholar]
  70. Tan, K.; Iatrou, G.; Johnsen, B. Endemic Plants of Greece: The Peloponnese; Gad Publishers: Copenaghen, Denmark, 2001. [Google Scholar]
  71. Dimopoulos, P.; Raus, T.; Bergmeier, E.; Constantinidis, T.; Iatrou, G.; Kokkini, S.; Strid, A.; Tzanoudakis, D. Vascular plants of Greece: An annotated checklist. Supplement. Willdenowia 2016, 46, 301–347. [Google Scholar] [CrossRef] [Green Version]
  72. Flora Ionica Working Group. Flora Ionica–An Inventory of Ferns and Flowering Plants of the Ionian Islands (Greece). 2016. Available online: https://floraionica.univie.ac.at/ (accessed on 21 January 2020).
  73. Strid, A. The Mountain Flora of Greece with Special Reference to the Anatolian Element; Cambridge University Press (CUP): Cambridge, UK, 1986; Volume 89, pp. 59–68. [Google Scholar]
  74. Strid, A. Atlas of the Aegean Flora. Part 1: Text & Plates. Part 2: Maps. Englera 2016, 33, 1–878. [Google Scholar]
  75. Barneby, R.C.; Strid, A.; Tan, K. Mountain Flora of Greece. Brittonia 1991, 43, 177. [Google Scholar] [CrossRef]
  76. Strid, A.; Tan, K. Flora Hellenica; Sven Koeltz: Koenigstein, Germany, 1997; Volume 1, pp. 1–547. [Google Scholar]
  77. Strid., A.; Tan, K. Flora Hellenica; A.R.G. Gantner Verlag: Ruggel, Liechtenstein, 2002; Volume 2, pp. 1–511. [Google Scholar]
  78. Brullo, S.; Giusso del Galdo, G.; Musarella, C.M. Taxonomic revision of Astragalus angustifolius group (Fabaceae). Bocconea 2012, 24, 19–52. [Google Scholar]
  79. Sirjaev, G. Conspectus Tragacantharum (Astragalus L. subgenus Tragacantha Bge.). I. Repert. Spec. Nov. Regni Veg. 1939, 47, 194–208. [Google Scholar]
  80. Quézel, P.; Barbero, M.; Akman, Y. Typification de sintaxa décrits en région méditérranéenne orientale. Ecol. Medit. 1992, 18, 81–87. [Google Scholar]
  81. Rivas-Martínez, S. Mapa de series, geoseries y geopermaseries de vegetación de España. Parte I. Itin. Geobot. 2011, 18, 5–424. [Google Scholar]
  82. Rivas-Martínez, S. Mapa de series, geoseries y geopermaseries de vegetación de España. Parte II. Itin. Geobot. 2011, 18, 425–800. [Google Scholar]
  83. Markgraf-Dannenberg, I. Festuca, L. In Flora Europaea; Tutin, T.G., Heywood, V.H., Burges, N.A., Moore, D.M., Valentine, D.H., Walters, S.M., Webb, D.A., Eds.; Cambridge University Press: London, UK, 1980; Volume 5, pp. 125–153. [Google Scholar]
  84. Mucina, L.; Bültmann, H.; Dierßen, K.; Theurillat, J.-P.; Raus, T.; Čarni, A.; Šumberová, K.; Willner, W.; Dengler, J.; García, R.G.; et al. Vegetation of Europe: Hierarchical floristic classification system of vascular plant, bryophyte, lichen, and algal communities. Appl. Veg. Sci. 2016, 19, 3–264. [Google Scholar] [CrossRef]
  85. Hofmann, U. Untersuchungen an Flora und Vegetation der Ionischen Insel Levkas. Vierteljahrsschr. Naturf. Ges. Zürich. 1968, 113, 209–256. [Google Scholar]
  86. Brullo, S.; Pavone, P.; Salmeri, C. Biosystematic researches on Allium cupani group (Amarillidaceae) in the Mediterranean area. Flora Medit. 2015, 25, 209–244. [Google Scholar]
  87. Reer, U.; Podlech, D. Die europăischen vertreter der gattung Astracantha Podl. (Leguminosae). Mitt. Bot. Staatssamm München 1986, 22, 513–569. [Google Scholar]
  88. Braun-Blanquet, J. Pflanzensoziologie. Grundzüge der Vegetationskunde, 3rd ed.; Springer: Wien, Austria, 1964; pp. 1–631. [Google Scholar]
  89. Westhoff, V.; Van Der Maarel, E. The Braun-Blanquet Approach. Classif. Plant Communities 1978, 5, 287–399. [Google Scholar] [CrossRef]
  90. Weber, H.; Moravec, J.; Theurillat, J.-P. International Code of Phytosociological Nomenclature. J. Veg. Sci. 2000, 11, 739–768. [Google Scholar] [CrossRef]
  91. Boissier, E. Flora Orientalis; Ex typis Careyanis: Genevae, Switzerland, 1867–1888; Volume 1–5, pp. 1-868, 1-1017, 1-1033, 1-1159, 1-1276. Available online: https://www.biodiversitylibrary.org/bibliography/20323#/summary (accessed on 23 November 2020).
  92. Holm, S. A simple sequentially rejective multiple test procedure. Scand. J. Stat. 1979, 65–70. [Google Scholar] [CrossRef]
  93. Hayek, A. Prodromus Florae Peninsulae Balcanicae. Vol. 1–3. Repert. Spec. Nov. Regni Veg. Beih. 1924–1933, 30, 1–472, 1–1152, 1–1193. Available online: https://openlibrary.org/books/OL19635602M/Prodromus_florae_peninsulae_Balcanicae (accessed on 23 November 2020).
  94. Tutin, T.G.; Heywood, W.H.; Burges, N.A.; Moore, D.M.; Valentine, D.H.; Walters, M.; Webb, D.A. Flora Europea, 1st ed.; Cambridge University Press: Cambridge, UK, 1964–1980; Volume 1–5. [Google Scholar]
  95. Tutin, T.G.; Burges, N.A.; Chater, A.O.; Edmondson, J.R.; Heywood, V.H.; Moore, D.M.; Valentine, D.H.; Walters, M.; Webb, D.A. Flora Europea, 2nd ed.; Cambridge University Press: Cambridge, UK, 1992; Volume 1, pp. 1–581. [Google Scholar]
  96. Davis, P.H. Flora of Turkey and the East Aegean Islands; Edinburgh University Press: London, UK, 1965; Volume 1. [Google Scholar]
  97. Christodoulakis, D.; Georgiadis, T. Eine neue Asperula-Art (Rubiaceae) von der Insel Samos, Griechenland. Willdenowia 1983, 13, 341–344. [Google Scholar]
  98. Greuter, W.; Burdet, H.; Long, G. Med-Checklist, Vol. 1,3,4; Conservatoire et Jardin Botanique de la Ville de Genève: Genève, Switzerland, 1984–1989. [Google Scholar]
  99. Scholz, H. Poa studies 5. The genus Poa (Gramineae) in Greece: Annotated cheklist and key to the species. Willdenowia 1986, 15, 393–400. [Google Scholar]
  100. Strasser, W. Pflanzen des Peloponnes (Süd-Griechenland); A.R.G. Gantner Verlag KG: Vaduz, Liechtenstein, 1997; p. 321. [Google Scholar]
  101. Greuter, W. Med-Checklist, Vol. 2; Tipolitografia Luxograph s.r.l.: Palermo, Italy, 2008; pp. 1–798. [Google Scholar]
  102. Krendl, F. Die Arten der Galium mollugo–Gruppe in Griechenland. Bot. Chron. 1988, 6, 5–168. [Google Scholar]
  103. Flora of Greece Web. Available online: http://portal.cybertaxonomy.org/flora-greece/intro (accessed on 8 October 2020).
  104. Bogdanovic, S.; Brullo, C.; Brullo, S.; del Galdo, G.G.; Musarella, C.M.; Salmeri, C. Allium achaium Boiss. (Alliaceae), a critical species of Greek Flora. Candollea 2011, 66, 57–64. [Google Scholar] [CrossRef]
  105. Bogdanović, S.; Brullo, C.; Brullo, S.; Giusso del Galdo, G.; Musarella, C.M.; Salmeri, C. Giusso del Galdo G, Musarella CM, Salmeri C (2011a) Allium cithaeronis Bogdanović, C. Brullo, Brullo, Giusso, Musarella & Salmeri (Alliaceae), a new species from Greece. Candollea 2011, 66, 377–382. [Google Scholar] [CrossRef]
  106. Turland, N.J.; Wiersema, J.H.; Barrie, F.R.; Greuter, W.; Hawksworth, D.L.; Herendeen, P.S.; Knapp, S.; Kusber, W.-H.; Li, D.-Z.; Marhold, K.; et al. (Eds.) International Code of Nomenclature for Algae, Fungi, and Plants (Shenzhen Code) Adopted by the Nineteenth International Botanical Congress Shenzhen, China, July 2017; Koeltz Botanical Books: Glashütten, Germany, 2018; ISBN 978-3-946583-16-5. [Google Scholar] [CrossRef]
  107. Frate, L.; Carranza, M.L.; Evangelista, A.; Stinca, A.; Schaminée, J.H.J.; Stanisci, A. Climate and land use change impacts on Mediterranean high-mountain vegetation in the Apennines since the 1950s. Plant Ecol. Divers 2018, 11, 85–96. [Google Scholar] [CrossRef]
  108. Cano-Ortiz, A.; Pinto Gomes, C.J.; Musarella, C.M.; Cano, E. Expansion of the Juniperus genus due to anthropic activity. In Old-Growth Forest and Coniferous Forests; Weber, R.P., Ed.; Nova Science Publishers: New York, NY, USA, 2015; pp. 55–65. [Google Scholar]
  109. Cano, E.; Musarella, C.M.; Cano-Ortiz, A.; Fuentes, J.C.P.; Torres, A.R.; González, S.D.R.; Gomes, C.P.; Quinto-Canas, R.; Spampinato, G. Geobotanical Study of the Microforests of Juniperus oxycedrus subsp. badia in the Central and Southern Iberian Peninsula. Sustainability 2019, 11, 1111. [Google Scholar] [CrossRef] [Green Version]
Figure 1. Distribution map of the massifs (A) and mountains (B) investigated in Greece.
Figure 1. Distribution map of the massifs (A) and mountains (B) investigated in Greece.
Plants 09 01678 g001
Figure 2. Climograms of 15 thermo-pluviometric stations of some continental and insular mountains from Greece, obtained from data interpolated by WorldClim according to [68,69].
Figure 2. Climograms of 15 thermo-pluviometric stations of some continental and insular mountains from Greece, obtained from data interpolated by WorldClim according to [68,69].
Plants 09 01678 g002
Table 1. Life forms of the investigated orophilous flora (from [70,71,72,73,74,75,76,77]).
Table 1. Life forms of the investigated orophilous flora (from [70,71,72,73,74,75,76,77]).
Life Formn.%
Ch total22134.86
Ch caesp71.10
Ch frut284.42
Ch pulv457.10
Ch rept91.42
Ch succ91.42
Ch suffr12319.40
G total629.78
G bulb426.62
G rhiz203.15
H total27343.06
H bienn132.05
H caesp10516.56
H rept132.05
H rhiz30.47
H ros304.73
H scap10917.19
T total589.15
T scap589.15
NP172.68
P30.47
TOTAL634100
Table 2. Chorotypes of the investigated orophilous flora (from [70,71,72,73,74,75,76,77]).
Table 2. Chorotypes of the investigated orophilous flora (from [70,71,72,73,74,75,76,77]).
ChorotypesN.%
Wide distribution
total355.52
cosmop91.42
circumboreal30.47
paleotemp233.63
Europeans
total7411.67
european101.58
eurasian203.15
euro-siberian30.47
euro-medit325.05
euro-medit-irano-turan91.42
Mediterraneans
total26942.43
circum-medit619.62
E-medit 18829.65
N-medit101.58
medit-irano-turan91.42
medit-asian10.16
Endemics
total25640.38
end Balkan589.15
end Greece396.15
end NC Greece152.37
end CS Greece487.57
end Sterea Ellas162.52
end Peloponnese457.10
end Euboea60.95
end Ionian islands71.10
end E-Aegean152.37
end N-Aegean71.10
TOTAL634100
Table 3. Endemic chorotypes of the investigated orophilous flora.
Table 3. Endemic chorotypes of the investigated orophilous flora.
Chorotypen.%
end Balkan5822.66
end CS Greece4818.75
end Peloponnese4517.58
end Greece3915.23
end Sterea Ellas166.25
end NC Greece155.88
end E-Aegean145.86
end Ionian islands72.73
end N-Aegean72.73
end Euboea62.34
TOTAL256100
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Musarella, C.M.; Brullo, S.; del Galdo, G.G. Contribution to the Orophilous Cushion-Like Vegetation of Central-Southern and Insular Greece. Plants 2020, 9, 1678. https://doi.org/10.3390/plants9121678

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Musarella CM, Brullo S, del Galdo GG. Contribution to the Orophilous Cushion-Like Vegetation of Central-Southern and Insular Greece. Plants. 2020; 9(12):1678. https://doi.org/10.3390/plants9121678

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Musarella, Carmelo Maria, Salvatore Brullo, and Gianpietro Giusso del Galdo. 2020. "Contribution to the Orophilous Cushion-Like Vegetation of Central-Southern and Insular Greece" Plants 9, no. 12: 1678. https://doi.org/10.3390/plants9121678

APA Style

Musarella, C. M., Brullo, S., & del Galdo, G. G. (2020). Contribution to the Orophilous Cushion-Like Vegetation of Central-Southern and Insular Greece. Plants, 9(12), 1678. https://doi.org/10.3390/plants9121678

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