Next Article in Journal
Geographical Patterns in Functional Diversity of Chinese Terrestrial Vertebrates
Next Article in Special Issue
No Tail No Fail: Life Cycles of the Zoogonidae (Digenea)
Previous Article in Journal
Are Iron-Rich Calcareous Mine Sites Easily Invaded by Invasive Plant Species?
Previous Article in Special Issue
A Phylogenetic Re-Evaluation of the Stenakrine Opecoelids (Trematoda, Digenea: Opecoeloidea) with Some Taxonomic Novelties
 
 
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

Rediscovering Monogenoids (Platyhelminthes) Parasitizing Pomacentrid and Chaetodontid Fishes from Cayo Arcas Reef, Gulf of Mexico †

by
Edgar F. Mendoza-Franco
1,*,
Nuno Simões
2,3,4,
Víctor M. Vidal-Martínez
5 and
M. Leopoldina Aguirre-Macedo
5
1
Instituto de Ecología, Pesquerías y Oceanografía del Golfo de México, Campus VI, Universidad Autónoma de Campeche (EPOMEX-UAC), Campeche 24029, Mexico
2
Unidad Multidisciplinaria de Docencia e Investigación de Sisal (UMDI-Sisal), Facultad de Ciencias, Universidad Nacional Autónoma de México (FC, UNAM), Sisal 97356, Mexico
3
Laboratorio Nacional de Resiliencia Costera (LANRESC), Laboratorios Nacionales, CONACyT, Sisal 97356, Mexico
4
International Chair for Coastal and Marine Studies, Harte Research Institute for Gulf of Mexico Studies, Texas A&M University-Corpus Christi, Corpus Christi, TX 78412, USA
5
Laboratorio de Patología Acuática, Centro de Investigacion y de Estudios Avanzados del IPN (CINVESTAV-IPN) Unidad Mérida, Mérida 97319, Mexico
*
Author to whom correspondence should be addressed.
LSID urn:lsid:zoobank.org:act: 9F3533C0-2467-42F3-B4E3-D751F52A7E7B.
Diversity 2022, 14(11), 985; https://doi.org/10.3390/d14110985
Submission received: 23 September 2022 / Revised: 27 October 2022 / Accepted: 10 November 2022 / Published: 16 November 2022
(This article belongs to the Special Issue Diversity of Macroparasites in Marine Fishes)

Abstract

:
During a research of gill ectoparasites on damselfishes (Pomacentridae) and butterflyfishes (Chaetodontidae) from the Cayo Arcas reef in the Campeche Bank (Gulf of Mexico), the following monogenoids (Platyhelminthes) were found: Paraeuryhaliotrema pomacentris n. gen., n. sp. (Dactylogyridae) on beaugregory Stegastes xanthurus (Poey, 1860) (Pomacentridae) that is characterized, in part, by possessing a haptor armed with a dorsal, ventral anchor-bar complexes, seven pairs of similar hooks; two pairs of eyespots; overlapping gonads; a copulatory complex composed of a male copulatory organ (MCO) and an accessory piece; MCO tubular with a bulbous base from which arises a coiled shaft in the clockwise direction; and a dextral vaginal pore; Neohaliotrema variabilis n. sp. on bicolor damselfish Stegastes partitus (Poey, 1868) (type host), beaugregory Stegastes xanthurus (Poey, 1860) and beaugregory Stegastes leucostictus (Müller & Troschel, 1848); Neohaliotrema manubrium n. sp., Neohaliotrema aliamanubrium n. sp. and Neohaliotrema bifidum n. sp., Neohaliotrema bychowskii Zhukov, 1976 and Neohaliotrema macracanthum Zhukov, 1976 on Sergeant-major Abudefduf saxatilis (Linnaeus, 1758) (Pomacentridae); Neohaliotrema similium n. sp. on S. xanthurus; Haliotrema brevicirrus Zhukov 1976 on spotfin butterflyfish Chaetodon ocellatus Bloch 1787 (Chaetodontidae); Microcotyle multilineatus n. sp. (Microcotylidae) on brown chromis Chromis multilineata (Guichenot 1853) (Pomacentridae). The new species are described and illustrated; new illustrations and measurements of the haptoral structures, and new redescription and illustrations are provided for N. bychowskii, N. macracanthum and H. brevicirrus, respectively. The present study represents the first knowledge about ectoparasitic monogenoids of fishes in the Cayo Arcas reef from the Gulf of Mexico.

1. Introduction

It is widely recognized that coral reefs harbor a great biodiversity of fishes along with their parasites. However, references of that high biodiversity have been mainly documented from coral reefs from the Indo-Pacific [1,2,3,4,5,6]. In the Mexican waters, however, that knowledge of fish parasites from coral reefs remains very limited or unexplored. In [7], Santander-Monsalvo et al. carried out an inventory of the Mexican reef ecosystems revealing the existence of about 755 sites on both coasts (Caribbean Sea, Gulf of Mexico and the Pacific Ocean) (see [8]) from which, in most of them, parasitological studies on fishes as a component of the total biodiversity were not considered. Only recently the fish parasite diversity of coral reefs from the coasts of Veracruz (southern Gulf of Mexico) and Quintana Roo (Caribbean Sea) has been partially studied in Mexico [9,10]. In this context, the Cayo Arcas is a small, offshore reef complex on the southwest corner of Campeche Bank, Gulf of Mexico which includes 162 fish species from 41 families, most of them widespread in the Greater Caribbean [11]. As part of an investigation carried out by Dr. Nuno Simões (UNAM) and Dr. Robertson (Smithsonian Tropical Research Institute, Panamá) sampling fishes to update their diversity in the Cayo Arcas in 2019, gill subsamples were preserved for parasitology examination from which monogenoidean species of Paraeuryhaliotrema n. gen., Neohaliotrema (Yamaguti 1965) Lim and Gibson 2010, Haliotrema Young 1968 (Dactylogyridae) and Microcotyle van Beneden and Hesse, 1863 (Microcotylidae) were found parasitizing damselfishes (Pomacentridae) and butterflyfishes (Chaetodontidae). In the present paper, the new species are morphologically described. In addition, new illustrations, supplemental observations, measurements of the haptoral structures, and a new redescription are provided for the remaining known monogenoidean species found.

2. Materials and Methods

Fish specimens were obtained by SCUBA diving using either a monofilament barrier net with a mesh size 10 mm stretch and hand nets or microspears from continuous reef habitats in the Cayo Arcas reef (0.21° N, −91.98° W) (Gulf of Mexico). The gills of each collected fish infected with monogeneans were removed and placed in vials containing 4% formaldehyde for fixation. The vials were labelled, shaken vigorously for 15–30 s, and subsequently shipped to the Laboratory of Parasitology of the Instituto EPOMEX (Autonomous University of Campeche, Mexico) for further examination. In the laboratory, parasites were picked from the sediments or gill lamellae using a small probe and dissecting under a stereomicroscope Leica EZ4. Some specimens were mounted unstained in a Gray and Wess medium or in a mixture of lactic-acid and glycerin-ammonium picrate, and then remounted in Canada balsam [12] to obtain measurements and line drawings of haptoral structures and the copulatory complex; other specimens were stained with Gomori’s trichrome and mounted in Canada balsam for observing and measuring internal soft organs. Illustrations were made with the aid of a drawing tube, using a Leica microscope DM 2500 with Nomarski interference contrast. Measurements, all in micrometers (µm), represent straight-line distances between extreme points of the structures measured and are expressed as the mean followed by the range and number (n) in parentheses. Direction of the coil (when present, i.e., counterclockwise orientation) of the copulatory organ followed Kritsky et al. [13]. Numbering and distribution of hook pairs in species of Neohaliotrema followed Lim and Gibson [14]. Definitions of ecological terms follow Bush et al. [15]. Type and voucher specimens were deposited in the National Helminthological Collection of Mexico (CNHE), Institute of Biology, National Autonomous University of Mexico, Mexico.

3. Results

3.1. Six Fish Species Examined were Positive with 10 Gill Monogenoidean Species (7 New) from the Cayo Arcas Reef, Gulf of Mexico

The sergeant-major Abudefduf saxatilis (Linnaeus, 1758) harbored the highest number of monogenoidean species (5 spp.) followed by the beaugregory Stegastes xanthurus (Poey, 1860) (with 3 monogenoidean species) and bicolor damselfish, Stegastes partitus (Poey, 1868), beaugregory Stegastes leucostictus (Müller & Troschel, 1848), brown chromis, Chromis multilineata (Guichenot, 1853) (all Pomacentridae), and the spotfin butterflyfish Chaetodon ocellatus Bloch 1787 (Chaetodontidae) with 1 monogenoidean species each (Table 1).

3.1.1. Diagnosis of Paraeuryhaliotrema n. gen.

Class Monogenoidea Bychowsky, 1937
Subclass Polyonchoinea Bychowsky, 1937
Order Dactylogyridea Bychowsky, 1937
Dactylogyridae Bychowsky, 1933
The body comprising a body proper (cephalic region, trunk, short peduncle), haptor. Tegument smooth. Cephalic margin rounded. Head organs, cephalic lobes present. Eyespots present. Mouth subterminal, midventral, prepharyngeal; pharynx made up of muscular, glandular bulb; esophagus, intestinal ceca 2, confluent posterior to gonads, lacking diverticula. Common genital pore midventral, immediately posterior to intestinal bifurcation. Gonads intercaecal, overlapping; testis dorsal to germarium. Seminal vesicle a simple dilation of vas deferens; prostatic reservoir present. Copulatory complex composed of a male copulatory organ (MCO), accessory piece. MCO tubular, sclerotized, comprising a bulbous base from which arises coiled shaft in clockwise direction. Seminal receptacle not observed; vaginal aperture dextroventral. Vitellaria in trunk, peduncle, absent in regions of other reproductive organs. Haptor bilobed, armed with dorsal, ventral anchor-bar complexes, seven pairs of similar hooks, each with upright thumb, shank comprising one subunit. Type species: Paraeuryhaliotrema pomacentris n. gen., n. sp. from the gills of Stegastes xanthurus (Pomacentridae).
Taxonomic summary:—Type species: Paraeuryhaliotrema pomacentris n. sp. from the gills of Stegastes xanthurus (Poey, 1860), (Perciformes: Pomacentridae).
Etymology:—The genus name refers to the resemblance of the new taxon to Euryhaliotrema Kritsky and Boeger 2002, whose members are described and/or reported on the gills of snappers (Lutjanidae), drums and croakers (Sciaenidae), porgies (Sparidae) and grunts (Haemulidae) from the Gulf of Mexico and the eastern Pacific, Indowest Pacific and eastern Atlantic Ocean.
Remarks:—Previous investigations of monogenoids parasitizing pomacentrids from the Gulf of Mexico and Cuban waters have revealed the occurrence of species of Neohaliotrema (Yamaguti 1965) Lim and Gibson 2010, Paraneohaliotrema Zhukov 1976 and Microcotyle Beneden and Hesse, 1863 (see [1,16,17]). Species of these three genera are differentiated from Paraeuryhaliotrema n. gen., n. sp. in having a coiled MCO (curved tube in Neohaliotrema and Paraneohaliotrema) and haptor with ventral anchor-bar complexes (haptor armed with clamps in Microcotyle). Paraeuryhaliotrema n. gen., n. sp. most resembles species of Euryhaliotrema (Kritsky and Boeger 2002) Kritsky 2012, from fish hosts worldwide (including Gulf of Mexico) of the Ambassidae, Chaetodontidae, Caesionidae, Haemulidae, Lutjanidae, Sciaenidae, and Sparidae. Species of both genera share the following morphologic features: a coiled MCO with bulbous-shaped base, an accessory piece without articulation to the base of the MCO (see this latter character in the species-group 3 proposed by Sun and Yang [18] for Euryhaliotrema), vaginal aperture dextroventral and hooks, each with upright acute thumb, slender shank comprised of one subunit. Paraeuryhaliotrema pomacentris n. gen., differs from species of Euryhaliotrema by having a coiled MCO with rings in clockwise orientation (counterclockwise rings in Euryhaliotrema), simple accessory piece (multibranched or poorly developed in Euryhaliotrema), overlapping gonads (tandem or slightly overlapping in Euryhaliotrema) and by general shape and size of hooks, i.e., 10–12 vs. 14–17 in species of Euryhaliotrema (see [6,18,19,20,21]). Paraeuryhaliotrema pomacentris n. gen., n. sp. also differs of species of Haliotrematoides Kritsky, Yang and Sun 2009 (which include features in common with those of Euryhaliotrema), which have been reported on haemulids, lutjanids and sparids fishes from the Gulf of Mexico, Caribbean and Pacific ocean for Mexican and Cuban waters in lacking hook pairs 1, 2 and 3 on the ventral surface of peduncle, absence of an accessory piece and gonads tandem (present in Haliotrematoides spp.) (see [22,23]). Paraeuryhaliotrema pomacentris n. sp. is the first described dactylogyrid species on the pomacentrid S. xanthurus from the Gulf of Mexico.

3.1.2. Description of Paraeuryhaliotrema pomacentris n. sp.

Body proper elongate, fusiform, 253 (217–285; n = 6) long, with greatest width 48 (38–65; n = 8) at level of gonads. Cephalic region moderately broad; cephalic lobes poorly differentiated. Three bilateral pairs of head organs poorly defined; cephalic glands not observed. Tegument smooth. Two pairs of eyespots, posterior pair larger than members of anterior pair; accessory chromatic granules small, few in cephalic region. Mouth subterminal, midventral, prepharyngeal. Pharynx subspherical, 15 (13–17; n = 5) wide; esophagus short to nonexistent; intestinal ceca two, lacking diverticula, confluent posterior to testis. Peduncle broad and short; haptor sub-hexagonal, 55 (50–62; n = 3) wide. Ventral anchor 24 (23–26; n = 8) long, with rounded deep root, tapered superficial root, evenly elongate curved shaft and elongate point; base 12 (n = 5) wide. Dorsal anchor 26 (26–27; n = 8) long, with poorly developed superficial root, widened superficial root, distally tapered, arcing shaft with elongate point extending to near level of tip of superficial root; base 13 (12–13; n = 5) wide. Ventral bar 20 (18–20; n = 6) long, rod-shaped, with ends slightly expanded and directed anteriorly; dorsal bar 24 (21–27; n = 7) long, V-shaped, with ends directed laterally. Hooks similar; each 11 (10–12; n = 6) long, with uniform shank, tapered proximally, upright acute thumb, curved shaft and evenly curved point; filamentous hook (FH) loop about 60% shank length. Common genital pore ventral at level of intestinal bifurcation. Copulatory complex 26 (23–28; n = 8) long; male copulatory organ (MCO) a coiled tube with about two and a half clockwise rings, elongate bulbous base with distal bilateral flange; proximal ring diameter, 16–20. Accessory piece 13 (11–14; n = 3) long, flattened with distal claw enclosing terminal portion of MCO. Gonads overlapping, germarium pre-testicular (germarium ventral to testis); margins of testis obscured by the germarium. Testis, 22–25 long, 15–17 wide; proximal vas deferens slightly visible; seminal vesicle a simple dilation of distal vas deferens, lying on body midline posterior to MCO; prostatic reservoir not observed. Germarium pyriform, 34–35 long, 22 wide; oviduct, oötype and uterus not observed (see Figure 1).
Vagina pore dextromarginal; vagina distally funnel shaped, proximal portion an elongate, meandering sclerotized duct before discharging into seminal receptacle situated anterior to germarium. Vitelline follicles scattered throughout trunk except in regions of reproductive organs. Egg not observed.
Taxonomic summary:—Type host: Beaugregory Stegastes xanthurus (Poey, 1860), (Perciformes: Pomacentridae). Type locality: Cayo Arcas Reef, Gulf of Mexico. Site in host: Gill lamellae.
Prevalence and intensity of infection:—A total of 2 fish infected of 2 examined (100%); intensity on infection, 4.5.
Specimens examined:—Holotype, eight paratypes in CNHE (11,766 and 11,767, respectively).
Etymology:—This species is derived from the family name of its host.
Remarks:Paraeuryhaliotrema pomacentris n. sp. is the type species of the genus.

3.1.3. Description of Neohaliotrema variabilis n. sp.

Body T-inverted shaped; greatest width at level of gonads. Cephalic region broad; cephalic lobes poorly differentiated. Three bilateral pairs of head organs well developed; cephalic glands comprising small cephalic cells posterolateral to pharynx. Tegument smooth. Two prominent eyespots (some specimens with lenses); free chromatic granules or scarce in cephalic region. Mouth subterminal, midventral, prepharyngeal. Pharynx subspherical; esophagus short to nonexistent; intestinal ceca two, lacking diverticula, confluent posterior to testis. Peduncle broad and short; haptor with bilateral elongated ends containing hook pairs 4–6. Ventral anchor, variable, with tapered deep root, moderately elongated rounded or tapered superficial root, straight shaft, short point. Dorsal anchor, variable, with poorly developed deep root, elongated acute superficial root, distally curved, straight shaft and short point. Ventral bar, variable, rod-shaped with tapered ends directed posteriorly; dorsal bar, rod-shaped, from straight to slightly arched with laterally rounded ends directed posteriorly. Hook pairs 1 and 7 smaller than other hook pairs; hooks 2 and 3 (morphometrically modified); hook pairs 1 and 7 with uniform shank, tapered proximally, upright acute thumb, curved shaft and evenly curved point; filamentous hook (FH) loop about 60% shank length; hook pairs 4–6 with slender shank, protruding thumb, curved shaft and evenly curved point; filamentous hook (FH) loop about 60% shank length; hook pairs 1 and 3 with uniform shank, protruding thumb, filamentous hook loop (FH) loop imperceptible; pair three robust with twisted shaft and point (usually). Common genital pore ventral at level of intestinal bifurcation. Copulatory complex comprising MCO and accessory piece; MCO a simple sclerotized, straight or C-shaped tube and delicate sheath-like accessory piece enclosing it, posteroventrally bent distally end; a conspicuous spherical MCO base. Gonads slightly overlapping, germarium pre-testicular (germarium ventral to testis) (see Figure 2 and Figure 3).
Testis subspherical; proximal vas deferens not observed; seminal vesicle elongated, a simple dilation of distal vas deferens, lying on body midline posterior to MCO; prostatic reservoir not observed. Germarium pyriform; oviduct, oötype and uterus not observed. Vagina pore dextromarginal, comprising a poorly sclerotized tube connected to subspherical seminal receptacle on midventral position, anterior to germarium. Vitelline follicles scattered throughout trunk except in regions of reproductive organs. Egg not observed. Measurements from different host species are provided in Table 2.
Taxonomic summary:—Type Host: Bicolor damselfish Stegastes partitus (Poey, 1868), (Perciformes: Pomacentridae). Other hosts: Beaugregory Stegastes xanthurus (Poey, 1860) and Stegastes leucostictus (Müller & Troschel, 1848). Type locality: Cayo Arcas Reef, Gulf of Mexico. Site in host: Gill lamellae.
Prevalence and intensity of infection:—A total of 4 fish infected of 5 examined (80%); intensity on infection, 6.2.
Specimens examined:—Holotype, 24 paratypes in CNHE (11,768); 4 (from S. xanthurus) and 3 (from S. leucostictus) vouchers in CNHE (11,769 and 11,770, respectively).
Etymology:—This species is derived from Latin (variabilis= variable) and refers to the variable ventral bar and anchors.
Remarks:—This new species is allocated in Neohaliotrema Yamaguti 1965 based on agreement with the amended generic diagnosis provided by Lim and Gibson [14], i.e., species with a single pair of eyespots, hooks morphometrically modified (especially pairs 1, 2 and 3), gonads overlapping (testis overlaps postero-dorsal region of ovary) and MCO comprising a simple tube with accessory piece.
To date, there are 13 described and/or reported species of Neohaliotrema from pomacentrid species of Abudefduf and Microspathodon from the Hawaiian coast, Gulf of Mexico off Cuba, China, Malaysia and Palmyra Atoll, Central Pacific (see [14,16,24]). The new species differs from other species of the genus in lacking anchors with inner root sclerites and bars straight to broad-V- or U-shaped (present in all and some species from Malaysia, respectively) and vaginal aperture sinistral (dextrally oriented in the new species). Based on comparative haptoral morphology, N. variabilis n. sp. most closely resembles Neohaliotrema nagibinae Zhukov 1976 originally described on yellowtail Microspathodon chrysurus (Cuvier, 1830) from the Gulf of Mexico.
Both monogenoidean species possess a haptor with bilateral elongated ends and morphometrically similar anchors (see metrical differences in Table 2), especially dorsal anchors with elongate acute superficial root. Neohaliotrema variabilis n. sp. differs from N. nagibinae by having a rod-shaped ventral bar with tapered ends directed posteriorly (slightly curved in N. nagibinae) and slightly arched dorsal bar with laterally rounded ends directed posteriorly (dorsal bar with comparatively curved and tapered ends in N. nagibinae, see Figure 1 on page 364 in Zhukov [16]). Additionally, it differs in the size of its hooks and MCO; hook pair 1 (length 9–10 vs. 11–14 in N. nagibinae), hook pair 2 (25–30 vs. 17–25) and hook pair 3 (39–42 vs. 54–66); MCO (length 12–20 vs. 30–31 in N. nagibinae) (see Table 1). Other structures, such as reproductive organs (i.e., gonads, vagina and accessory piece (all these herein described)) are not described and/or illustrated in the original description of N. nagibinae (see [16]). Only two specimens of N. variabilis n. sp. exhibited an inconspicuous central hole on the haptor (not illustrated), it might be associated with the term of “fenestrated haptor” of Lim and Gibson [14]. Furthermore, present specimens showed that vas deferens (not illustrated because it is densely covered by vitellaria) is looping in the left intestinal caecum (see Figure 2) (vas deferens does not cross intestinal caecum in the emended generic diagnosis of Lim and Gibson [14]). Although the shape of the ventral bar and anchors of N. variabilis n. sp. are relatively constant, the size of these structures varied among specimens. These variants are considered conspecific since specimens with bars/anchors of intermediate size were found in the collection. While the ventral bar is slightly deformed as a result of coverslip pressure, the indistinct ends directed posteriorly of the ventral bar (see Figure 3O), in one of the three specimens of N. variabilis n. sp. found on S. leucostictus, the basic morphology of the ventral bar shows their conspecificity with this species; the morphology of the hook pair two the with shank slightly showing a junction (see Figure 3P) also is considered as a variation of N. variabilis n. sp. Lastly, measurements of the ventral and dorsal bars for N. nagibinae were imported from Zhukov 1976 and incorrectly added in Table 2 presented by Lim and Gibson [14], in that the ventral bar (as that connecting the ventral anchors, as illustrated in the Zhukov’s original drawings) is longer and the dorsal bar is shorter (see correction in Table 1). Present finding of N. variabilis n. sp. represents the first dactylogyrid described and reported on Stegastes spp. from the Gulf of Mexico.

3.1.4. Description of Neohaliotrema manubrium n. sp.

Body proper elongated with lateral margins usually parallel, 495 (390–570; n = 20) long, with greatest width 71 (50–90; n = 15) at level of gonads. The cephalic region narrowed; cephalic lobes poorly differentiated. Three bilateral pairs of head organs well developed; cephalic glands comprising small cephalic cells posterolateral to pharynx. Tegument smooth. Two eyespots, each with small lenses (in some specimens); accessory chromatic granules scarce in cephalic region. Mouth subterminal, midventral, prepharyngeal. Pharynx subspherical, 26 (21–30; n = 17) wide; esophagus short to nonexistent; intestinal ceca two, lacking diverticula, confluent posterior to testis. Peduncle broad, moderately elongated; haptor 100 (82–110; n = 25) wide, subhexagonal, with well-developed lateral lobes with gland cell accumulations (usually). Ventral anchor 39 (38–41; n = 10) long, with rounded deep root, tapered superficial root, curved shaft and moderately elongated point; base 15 (15–16; n = 9) wide. Dorsal anchor 43 (41–46; n = 6) long, with well-developed tapered deep root, elongate tapered superficial root (approximately three times the length of deep root), arching shaft, moderately elongate point extending just past level of tip of superficial root; base 17 (16–18; n = 3) wide. Ventral bar 46 (42–54; n = 9) long (distance between ends), handle grip-shaped, straight on its midportion forming a quadrangular area with slightly expanded ends directed anterolaterally; dorsal bar 45 (41–57; n = 17) long, U-shaped with enlarged ends directed laterally. Hook pairs 1–3 (morphometrically modified) bigger than hook pairs 4–7; hook pair 1- 41 (37–47; n = 23) long; hook pair 2–31 (27–34; n = 16) long; hook pair 3- 37 (34–42; n = 18) long; hook pairs 4–7- 13 (12–14; n = 16) long; hook pairs 1–3 (pair 1 being more robust than others, with hooklet connected to the shank by a conspicuous junction; J-shaped hook pair 2, with hooklet at distal end of curve of J, directed posteriorly and positioned back-to-back in X-shaped formation, dorsal to hook pair 1) with uniform shank, tapered proximally, upright acute thumb, curved shaft and delicate curved point; filamentous hook loop (FH) loop about 10% shank length; hook pairs 4–7 with slender shank, upright acute thumb, curved shaft and evenly curved point; filamentous hook loop (FH) loop about 50% shank length. Common genital pore ventral at level of intestinal bifurcation (see Figure 4).
Copulatory complex 28 (24–35; n = 16) long; MCO a simple sclerotized arched tube covered by a delicate sheath-like accessory piece; a conspicuous subspherical MCO base. Gonads slightly overlapping, germarium pre-testicular (germarium ventral to testis). Testis, 63 (40–90; n = 7) long, 15 (15–40; n = 11) wide; proximal vas deferens not observed; seminal vesicle undifferentiated from distal vas deferens, lying on the body midline posterior to MCO; prostatic reservoir not observed. Germarium pyriform, 54 (40–65; n = 6) long, 23 (18–28; n = 6) wide; oviduct not observed; uterus conspicuous, with oötype surrounded by Mehlis’ gland. Vagina pore inconspicuous, comprising an unsclerotized tube (difficult to see) connected to subspherical seminal receptacle on midventral position, anterior to germarium. Vitelline follicles scattered throughout trunk except in regions of reproductive organs. Egg subovate, 24 long (not including filament), 18 wide, with long posterior filament.
Taxonomic summary:—Host: Sergeant-major Abudefduf saxatilis (Linnaeus, 1758) (Perciformes: Pomacentridae). Locality: Cayo Arcas Reef, Gulf of Mexico. Site in host: Gill lamellae.
Prevalence and intensity of infection:—A total of 10 fish infected of 14 examined (71.4%); intensity on infection, 2.7.
Specimens examined:—Holotype, 26 paratypes in CNHE (11,771 and 11,772, respectively).
Etymology:—The specific name is from Latin (manubrium= handle grip-shaped) and refers to the shape of the ventral bar.
Remarks:—This new species most resembles Neohaliotrema bychowskii, originally described on the same host species by Zhukov [16] in the general morphology of the haptoral sclerites, i.e., posteriorly directed J-shaped hook pair 2. Neohaliotrema manubrium n. sp. differs from this latter species in having anchors with curved shaft (anchors with straight and elongated shafts in N. bychowskii) and ventral bar with differentiated straight midportion (slender and elongated ventral bar in N. bychowskii, see Figure 1 in Zhukov [16] and Figure 8C,D,G,H in the present study). Additionally, it differs in the length of the ventral/dorsal anchors and bars (ventral anchors: 38–41 vs. 45–50 in N. bychowskii; dorsal anchors: 41–46 vs. 50–55; ventral bar: 42–54 vs. 52–77; dorsal bar: 41–57 vs. 52–77). Although abundance estimation was not determined, N. manubrium n. sp. appears to be the most common species, based on number of specimens encountered on A. saxatilis compared to other species of Neohaliotrema (i.e., N. aliamanubrium n. sp., N. bifidum n. sp. and N. bychowskii in the present study) on this host species from Cayo Arcas reef.

3.1.5. Description of Neohaliotrema aliamanubrium n. sp.

Reduced to short description and measurements of sclerotized parts of the haptor: Ventral anchor 44 (42–46; n = 3) long, with tapered deep root, tapered superficial root, elongate and slightly curved shaft, short point; base 16–20 wide. Dorsal anchor 50 (49–51; n = 3) long, prominent tapered deep root, moderately elongated tapered superficial root, elongate straight shaft, curved short point. Ventral bar 52–60 long (distance between ends), handle grip-shaped, with elongate expanded ends directed anteriorly; dorsal bar 40–52 long, U-shaped with curved ends directed posteriorly. Hook pairs 1–3 (morphometrically modified) bigger than hook pairs 4–7; hook pair 1,47 (45–51; n = 4) long; hook pair 2–31 (30–32; n = 3) long; hook pair 3 33–36 long; hook pairs 4–7- 11 (10–13; n = 8) long; hook pairs 1–3 (pairs 1 and 2 being more robust, each with hooklet connected to the shank by a conspicuous junction; J-shaped hook pair 2, with hooklet at distal end of curve of J, directed posteriorly and positioned back-to-back in X-shaped formation, dorsal to hook pair 1) with uniform shank, tapered proximally, upright acute thumb, curved shaft and delicate curved point; filamentous hook loop (FH) loop about 0.5% shank length; hook pairs 4–7 with slender uniform shank, upright acute thumb, curved shaft and evenly curved point; filamentous hook loop (FH) loop about 40% shank length (see Figure 5).
Taxonomic summary:—Type host: Sergeant-major Abudefduf saxatilis (Linnaeus, 1758) (Perciformes: Pomacentridae). Type locality: Cayo Arcas Reef, Gulf of Mexico. Site in host: Gill lamellae.
Prevalence and intensity of infection:—A total of 1 fish infected of 14 examined (7.1%); intensity on infection, 2.
Specimens examined:—Holotype, one paratype in CNHE (11,773 and 11,774, respectively).
Etymology:—The specific name is from Latin (alia= another + manubrium= handle grip-shaped) and refers to the shape of the ventral bar which most resembles that found in Neohaliotrema manubrium n. sp.
Remarks:—This species is described on the basis of the haptoral armament morphology because the only 2 available specimens were unstained and mounted in picrate which precluded observing details of the soft internal anatomy. Nonetheless, these specimens represent a new species, which is morphologically close to but distinct from N. manubrium n. sp. Neohaliotrema aliamanubrium n. sp. resembles N. manubrium n. sp. by sharing a handle grip-shaped ventral bar and posteriorly directed J-shaped hook pair 2. The new species is easily separated from N. manubrium n. sp. by having anchors dissimilar in shape and size, i.e., ventral anchor (length 42–46) with elongate and slightly curved shaft and short point vs. 38–41 long, with curved shaft and moderately elongate point in N. manubrium n. sp.; dorsal anchor (length 49–51) with prominent tapered deep root, and straight elongate shaft with curved short point vs. 41–46 long, with moderately long rounded deep root, arching shaft with moderately elongate point extending just past level of tip of superficial root in N. manubrium n. sp. (see Figure 4I,J and Figure 5A,B, respectively). Additionally, the ventral bar in N. aliamanubrium n. sp. is noticeably longer than that from N. manubrium n. sp., i.e., 52–60 vs. 42–54, respectively. The copulatory complex and vagina were not observed in N. aliamanubrium n. sp., apparently these structures are unsclerotized.

3.1.6. Description of Neohaliotrema bifidum n. sp.

Reduced to short description and measurements of body and sclerotized parts of haptor: Body, 257 (240–285; n = 3) long, greatest width 60, near body midlength. Two eyespots, each with small lenses; accessory chromatic granules, ovate, lightly scattered in cephalic region, ovate. Pharynx subspherical, 19–21 wide; haptor longer than wide, 55–60 wide. Ventral anchor 39 (38–40; n = 4) long, with tapered deep root, rounded superficial root with a sclerite on its distal margin, elongated straight shaft with elongated and recurved bifid point; base 14 (13–14; n = 3) wide. Dorsal anchor 49 (45–50; n = 6) long, prominent tapered deep root, elongated tapered superficial root with sclerites on its distal margin, elongated straight shaft with elongated and curved bifid point; base 10 wide, not clearly differentiated with shaft. Ventral bar 22–25 long, rod-shaped; dorsal bar 25–29 long, U-shaped with dilated ends directed laterally. Hooks dissimilar in size with filamentous hook loop (FH) loop about 1–1.5 hooklet length, uniform shank; hook pair 1 17 (n = 2) long; hook pair 2 15 long; hook pair 3 19 long; hook pair 4 12 long; hook pair 5 19 (18–20; n = 4) long; hook pair 6 12 (10–15; n = 4) long; hook pair 7 20 (20–21; n = 3) long; hook pairs 1–3 located on peduncle (see Figure 6).
Taxonomic summary:—Type host: Sergeant-major Abudefduf saxatilis (Linnaeus, 1758) (Perciformes: Pomacentridae). Type locality: Cayo Arcas Reef, Gulf of Mexico. Site in host: Gill lamellae.
Prevalence and intensity of infection:—A total of 1 fish infected of 14 examined (7.1%); intensity on infection, 3.
Specimens examined:—Holotype, 2 paratypes in CNHE (11,775 and 11,776, respectively).
Etymology:—The specific name is from Latin (bifidus= bifid) and refers to the bifid points of anchors of this parasite species.
Remarks:Neohaliotrema bifidum n. sp. on A. saxatilis from Cayo Arcas, Gulf of Mexico is closest morphologically to Neohaliotrema bombini Lim and Gibson [14] from the indo Pacific sergeant Abudefduf vaigensis (Quoy and Gaimard, 1825) from Malaysia, and Abudeduf septemfasciatus (Cuvier) and Abudefduf sordidus (Forsskål) from Palmyra Atoll Central Pacific [24].
The characteristics shared by both monogenoidean species are anchors with bifid points and sclerites at the distal tip of their superficial roots (as “spatulate points with grooves and inner root sclerites” in Lim and Gibson [14], hook pairs 1–3 on ventral surface of peduncle and smallest hook pair 6, i.e., 10–15 long (11–14 in N. bombini) (see Lim and Gibson [14]). Neohaliotrema bifidum n. sp. differs from N. bombini in the body length (i.e., 240–285 vs. 315–518 in N. bombini), size of hook pairs 1–3 (i.e., 15–19 long vs. from 18 to 34 in N. bombini), bars without anterior processes (present in N. bombini), and ventral bar rod-shaped (V-shaped in N. bombini). In other features, N. bifidum n. sp. resembles species of Haliotrematoides (Dactylogyridae) on haemulids, lutjanids and sparids fishes from the Gulf of Mexico and neighboring areas in having hook pairs 1–3 on peduncle. Neohaliotrema bifidum n. sp. is differentiated from species of this latter genus in lacking four eyespots, dorsal anchor with perforated base and not well-developed deep roots, ventral bar usually with two submedial pockets, and hooks similar in size (all these characters are in species of Haliotrematoides). Information on some internal features (i.e., copulatory complex and vagina) could not be determined in N. bifidum n. sp. based on three unstained specimens mounted in picrate and glycerine jelly. Nonetheless, the species is easily differentiated from its closest congeneric species, N. bombini, by the characters mentioned above.

3.1.7. Description of Neohaliotrema similium n. sp.

Reduced to short description and measurements of sclerotized parts of haptor: Body, 230–285 long, greatest width 82, near body mid-length. Two eyespots; accessory chromatic granules, ovate, lightly scattered in cephalic region. Pharynx subspherical, 19 wide. Haptor 90, wide. Ventral anchor 41 (39–43; n = 4) long, with poorly developed deep root, rounded superficial root, elongate and curved shaft, short point; base 12 (11–13; n = 4) wide. Dorsal anchor 29 (27–30; n = 3) long, inconspicuous tapered deep root, acute superficial root with curved tip directed posteriorly, slightly straight shaft, short point; base 18 (17–19; n = 3) wide. Ventral bar 33–42 long (distance between ends), rod-shaped, with tapered ends; dorsal bar 50 (n = 2) long, rod-shaped, slightly arched posteriorly with rounded ends. Hook pairs 2 and 3 (morphometrically modified) bigger than hook pairs 1, 4–7; hook pairs 1 and 4–6 14 (13–14; n = 14) long; hook pair 2 27 (25–30; n = 3) long; hook pair 3 50 (47–53; n = 4) long; hook pair 7 10 (n = 2) long; hook pairs 1 and 4–6, with variable shank, from slightly expanded to narrowed proximally, upright acute thumb, curved shaft and delicate curved point; filamentous hook loop (FH) loop about 50% shank length; hook pairs 2 and 3 (robust), with uniform shank, upright acute thumb, curved shaft and evenly curved point; filamentous hook loop (FH) loop about 20% and 0.5% shank length, respectively. Copulatory complex 22 long; MCO a delicate sclerotized tube covered by a grooved, Y-inverted shaped accessory piece; inconspicuous MCO base (see Figure 7).
Taxonomic summary:—Type host: Stegastes xanthurus (Poey, 1860), (Perciformes: Pomacentridae). Type locality: Cayo Arcas Reef, Gulf of Mexico. Site of infection: Gill lamellae.
Prevalence and intensity of infection:—A total of 1 fish infected of 2 examined (50%); intensity on infection, 2.
Specimens deposited:—Holotype, 1 paratype in CNHE (11,777 and 11,778, respectively).
Etymology:—The specific name is from Latin (similis = resembling) and reflects the similarity of the species with its congeners.
Remarks:—This species most resembles N. variabilis n. sp. and N nagibinae in having similar anchors, i.e., ventral anchor with elongated rounded superficial root and dorsal anchor with acute superficial root, distally curved. Neohaliotrema similium n. sp. differs from these latter species in having a Y-inverted shaped accessory piece (rod-shaped with a conspicuous spherical MCO base in N. variabilis n. sp. and N nagibinae).

3.1.8. Description of Neohaliotrema bychowskii Zhukov, 1976

Supplemental observations (measurements from the original description follow those of the present study in parentheses, respectively): Body, 335 long, greatest width 70, near peduncle. Two eyespots with conspicuous lens; accessory chromatic granules scarce in cephalic region. Haptor, 145 wide, with well-developed lobes. Ventral anchor 47–48 (45–50) long, 18 wide (n = 2), with well-differentiated roots, elongated straight shaft and short point. Dorsal anchor 52–53 long (50–55), well-developed rounded deep root, tapered superficial root, elongate and slightly curved shaft and point; base 18–19 wide. Ventral bar 92 long (distance between ends) (52–77), rod-shaped with enlarged ends directed anteriorly; dorsal bar 71 long (52–77), straight on its midportion with enlarged and expanded ends directed anterolaterally. Hook pairs 1–3 (morphometrically modified) bigger than hook pairs 4–7; hook pair 1–56–55 (49–65) long; hook pair 2–45–47 (49–65) long; hook pair 3–49–50 (49–65) long; hook pairs 4–7–13 (12–13; n = 3) (10–16); hook pairs 1–3 with hooklet connected to the shank by a conspicuous junction, uniform shank, rounded proximally, upright acute thumb, curved shaft and delicate curved point; filamentous hook loop (FH) loop about 0.5% shank length; J-shaped hook pair 2, with hooklet at distal end of curve of J, directed posteriorly and positioned back-to-back in X-shaped formation, dorsal to hook pair 1); hook pairs 4–7 with slender shank, upright acute thumb, curved shaft and evenly curved point; filamentous hook loop (FH) loop about 50% shank length (see Figure 8).
Taxonomic summary:—Host: Sergeant-major Abudefduf saxatilis (Linnaeus, 1758) (Perciformes: Pomacentridae). Locality: Cayo Arcas Reef from the Gulf of Mexico. Site in host: Gill lamellae.
Prevalence and intensity of infection:—A total of 1 fish infected of 14 examined (7.1%); intensity on infection, 1.
Specimens examined:—One reference specimen in CNHE (11,779).
Remarks:—This species was originally described from the same host species from the Gulf of Mexico by Zhukov [16] providing illustrations of the sclerotized structures of the haptor and copulatory complex. Herein, the identification of a single specimen as N. bychowskii is based on the comparative morphology of the haptoral structures which is basically equivalent morphometrically with that originally described. The single specimen examined is unstained, which precludes determination of internal anatomy, i.e., the morphology of the copulatory complex and vagina.

3.1.9. Description of Neohaliotrema macracanthum Zhukov, 1976

Supplemental observations (measurements from Zhukov [16] follow those of the present study in parentheses, respectively): Body, 309 (275–340; n = 4) (120–330) long, with greatest width 47 (45–50; n = 4) (66–110) at level of body midlength. Two eyespots, each with lenses (present in 3 specimens); accessory chromatic granules in cephalic region, ovate. Haptor 70–95 wide. Ventral anchor 41 (40–46; n = 7) (34–39) long, with well-differentiated roots, elongate straight shaft with distal inner blade, straight recurved point; base 13 (12–14; n = 4) wide. Dorsal anchor 53 (50–55; n = 6) (43–52) long, with robust rounded deep root, tapered superficial root, elongate and straight shaft with prominent distal inner blade, straight recurved point; base 16 (15–17; n = 4) wide. Ventral bar 42 (35–48; n = 3) (32–43), long (distance between ends), rod-shaped, slightly arched posteriorly; dorsal bar 40 long (34–42), slightly V-shaped, expanded posteriorly on its midportion with ends directed laterally. Hook pairs 1–3 (morphometrically modified) longer than hook pairs 4–7; hook pair 1 34 (32–35; n = 4) (26–33) long; hook pair 2 26 (25–28; n = 3) (24–28) long (proximal subunit); hook pair 3 38 (36–39; n = 3) (35–45) long; hook pairs 4–7 11 (10–14; n = 7) (10–16) long; hook pair 2, J-shaped with robust proximal subunit, with hooklet at distal end of curve of J (slender distal subunit), directed posteriorly and positioned back-to-back in X-shaped formation, dorsal to hook pair 1, each with uniform shank, tapered proximally, upright acute thumb, curved shaft and delicate curved point; filamentous hook (FH) loop about 0.5% shank length; hook pairs 4–7 with slender shank, upright acute thumb, curved shaft and a delicate point; filamentous hook (FH) loop about 50% shank length. MCO, U-shaped, 34 long (43–47 length for the copulatory organ tube in Zhukov, 1976).
Taxonomic summary:—Host: Sergeant-major Abudefduf saxatilis (Linnaeus, 1758)
Locality: Cayo Arcas Reef, Gulf of Mexico. Site in host: Gill lamellae.
Prevalence and intensity of infection:—A total of 1 fish infected of 14 examined (7.1%); intensity on infection, 4.
Specimens examined:—4 reference specimens in CNHE (11,780).
Remarks:—The only previous descriptive information on N. macracanthum is that of the original description based on seven specimens from the same host species in the Gulf of Mexico off Cuba. This species is clearly differentiated from its congeners in having blades on the inner surfaces of the anchor shafts (see [16]). Present specimens did not significantly differ in morphology from those in the original account; the differences in measurements of the MCO length (i.e., 34 vs. 43–47) are apparently attributable to intraspecific variation and/or effects of different methods of specimen collection/preparation and measuring. In addition of N. macracanthum, which is also reported on night sergeant Abudefduf taurus (Müller & Troschel) from the Gulf of Mexico off Cuba, there is another species of Neohaliotrema with blades on the inner surfaces of their respective anchor shafts, Neohaliotrema sp. on Indo-Pacific sergeant Abudefduf vaigiensis (Quoy & Gaimard) from Malaysia [14,16]. These superficial blade-like projections on the distal shaft of the anchors have also been described in some species of Haliotrematoides on haemulids, lutjanids and sparids fishes from the Gulf of Mexico. The resemblance of this latter characteristic between species of both monogenoidean genera likely represents an example of convergence in shape rather than a phylogenetic relationship.

3.1.10. Redescription of Haliotrema brevicirrus Zhukov, 1980

Measurements from the original description follow those of the present study in parentheses, respectively: Body fusiform, 575 (495–730; n = 16) (210–370) long, with greatest width 101 (85–130; n = 10) (80–140) at level of gonads. Cephalic region broad; cephalic lobes moderately developed. Three bilateral pairs of head organs connected to cephalic glands located posteriorly to pharynx. Two pairs of eyespots; members of anterior pair slightly closer together, accessory chromatic granules small, few in cephalic region. Mouth subterminal, midventral, prepharyngeal. Pharynx subovate, 33 (28–38; n = 17) wide; oesophagus short; intestinal ceca confluent posterior to gonads, lacking diverticula. Peduncle elongated; haptor 112 (97–127; n = 11) wide, sub-hexagonal. Ventral anchor 44 (41–47; n = 8) (45–60) long, broad base with poorly differentiated roots, slightly straight shaft, moderately elongated point; base 20 (19–23; n = 4) wide; dorsal anchor 42 (41–42; n = 3) (51–68) long, base-shaft junction hinged, inconspicuous deep root, elongate superficial root, slightly curved shaft, elongated point. Ventral bar 49 (43–57; n = 11) (50–67) long, opened M-shaped, with rounded ends; dorsal bar 50 (47–58; n = 14) (51–68) long, slightly arched anteriorly, with sublateral anterior expansions. Hooks 12 (12–13; n = 13) (12–14) long, all similar, with rounded thumb, delicate point, slender shank, uniform, slightly curved proximally; filamentous hooklet (FH) loop about 90% shank length. MCO, 55 (47–60; n = 9) long, tapered, tubular, slightly twisted tip, cylinder-shaped base, terminating in diagonal opening; accessory piece, membranous, shaped like a vane, encircling MCO to form two complete spirals from anterior margin of base to terminal portion of MCO. Gonads in tandem, germarium pre-testicular; testis 75 (47–98; n = 12) long, 37 (15–48; n = 12) wide, subovate, intercecal, lying slightly posterior to body midlength; proximal vas deferens and seminal vesicle not observed. Prostatic reservoir large, pyriform, tapered distally; prostatic gland cells not observed. Germarium, 48 (32–65; n = 14) long, 29 (24–40; n = 13) wide, irregular; oviduct, oötype and uterus not observed. Vagina pore dextromarginal; vaginal canal narrowed, extending diagonally to join subspherical seminal receptacle, anterior to germarium. Vitelline follicles scattered throughout trunk except in regions of reproductive organs. Eggs not observed (see Figure 9).
Taxonomic summary:—Host: Spotfin butterflyfish Chaetodon ocellatus Bloch 1787 (Acanthuriformes: Chaetodontidae). Locality: Cayo Arcas Reef, Gulf of Mexico. Site in host: Gill lamellae.
Prevalence and intensity of infection:—A total of 4 fish infected of 5 examined (80%); intensity on infection, 12.2.
Specimens examined:—A total of 19 reference specimens plus 30 additional specimens (not measured) in CNHE (11,781).
Remarks:—The original description of this species by Zhukov [25] was based on four specimens from the gills of Chaetodon striatus Linnaeus 1758 (type host) in association with two other butterflyfishes, Chaetodon capistratus Linnaeus 1758 and C. ocellatus, all from the Gulf of Mexico. Since then, H. brevicirrus has not been reported on these latter or other filial hosts. The morphology of the haptoral sclerites and copulatory complex of the newly collected specimens of H. brevicirrus from C. ocellatus revealed that it is consistent with that of the original description of this species (see Figure 1 in Zhukov [25]).
However, while these latter structures are satisfactory for specific identification, other organs are not clearly identified in the original description. Therefore, we provided a needed redescription of H. brevicirrus including an illustration of a whole specimen to clarify the morphology of this species, i.e., position of the vaginal aperture and gonads (both characters not described and/or illustrated in Zhukov [25]). Additionally, the presence of an accessory piece on MCO found in the present specimens was not described in the original description of this species. Consistently, Cruces et al. [26] also described an accessory piece in their new species, Haliotrema sanchezae on Scarus perrico Jordan & Gilbert (Scaridae) from Peru and listed 11other species of Haliotrema possessing it of which only H. pacificum, (Mizelle & Kritsky, 1969) Vala, Maillard & Overstreet, 1982, is found on a chaetodontid, Johnrandallia nigrirostris (Gill, 1862) in the Mexican Pacific. Specimens from C. ocellatus metrically differ from those specimens from C. striatus by the body length (495–730 vs. 210–370 in the original description) and dorsal anchor length (41–42 vs. 51–68). These metric differences of the body and dorsal anchors in specimens from different host species, are considered as intraspecific variation (i.e., effect of the host size). Additionally, it is worth noting that the length of the MCO of H. brevicirrus provided by Zhukov [25] was measured in two parts, i.e., copulatory organ tube plus MCO base length. Therefore, we deduce that the MCO length of H. brevicirrus from C. ocellatus (present study) is nearly identical metrically to that of H. brevicirrus from C. striatus, i.e., 47–60 vs. 30–38 plus 19–25 (copulatory organ tube and MCO base of Zhukov [27], respectively). In addition of those species of Haliotrema from chaetodontids mentioned above, there is another species reported from the Mexican Pacific, i.e., H. cirrhitusi Mendoza-Franco & Violante-Gonzalez, 2011 from Cirrhitus rivulatus Valenciennes (Cirrhitidae) [28], and other 10 species described from Gulf of Mexico by Zhukov [24,26] (i.e., H. conspecta, H. auribaculum, H. curvicirrus, H. longirectocirrus, H. myripristisi, H. tenuihamus, H. papillibaculum, H. ampliomacrohamus, H. ampliomicrohamus and H. teuthis) from fishes of the Scaridae, Holocentridae and Acanthuridae. However, a revision of these latter Haliotrema spp. Is probably necessary to recognize their generic status. Only Haliotrema lactophrys (MacCallum, 1915), Vala, Maillard & Overstreet, 1982, have been described and/or reported on scrawled cowfish Acanthostracion quadricornis (type-host) (Linnaeus, 1758) and honeycomb cowfish A. polygonius Poey, 1876 (Tetraodontiformes: Ostraciidae) from the Sainte Anne Guadeloupe, West Indies, New York aquarium and Campeche coast in the Gulf of Mexico, being this latter considered as undetermined in Mendoza-Garfias et al. [29,30]. So, it remains unclear whether host or locality are correctly registered for H. lactophrys in the Gulf of Mexico.

3.1.11. Description of Microcotyle multilineatus n. sp.

Body fusiform, anterior end narrow, total length of body 1837 (987–2350; n = 12); body width, 550 (325–650; n = 8) at level of ovary. Haptor subsymmetrical or symmetrical, 742 (600–900; n = 3) long, armed with 70–72 clamps, arranged in two equal or sub-equal rows, joining at anterior and posterior extremities of haptor; 30 (25–40; n = 18) long, 58 (45–72; n = 19) wide. Mouth subventral, within funnel-shaped vestibule with pair of septate buccal suckers, elongate-oval, 30 (26–33; n = 10) long, 51 (50–58; n = 11) wide. Pharynx subspherical, 37 (32–40; n = 5) long, 38 (35–40; n = 6) wide; oesophagus short, connected to intestinal bifurcation at posterior margin of genital atrium. Caeca extends up to haptor peduncle, with inner and external lateral ramifications (external more profuse). Testes 11–14 in number, sub-elliptical to irregular, 65 (62–87; n = 6) long, 74 (50–100; n = 6) wide, grouped in testicular fields, post-germarial and pre-haptoral (partially extending into haptor peduncle); testes arranged in clusters of 1 or 2 rows generally, with some testes dorsoventrally overlapped. Vas deferens slender, straight, runs in midline to genital atrium; copulatory organ muscular 27 (23–30; n = 8) wide, located in posterior margin of the genital atrium, 82 (70–90; n = 6) long, 99 (95–100; n = 6) wide. Genital atrium at 141 (125–162; n = 6) from anterior extremity of body, atrium proper as inverted pear, comprising a medial muscular chamber, armed with small conical spines arranged in a tight circle on distal half of MCO bulb, with concentrically tips directed into genital atrium. Variation in focus shows surrounded subspherical dorsal spines at the chamber opening. Germarium 211 (187–250; n = 3) long, 165 (145–185; n = 4) wide, convoluted, begins at level of anteriormost testes, with proximal arch directed sinistro-dextrally, continues anteriorly in midline, connected to wider distal arch directed sinistro-dextrally at level of confluence of vitelline ducts, reflexes a last time posteriorly connecting to slender arch directed dextro-sinistrally. Oviduct and oötype with posterior Mehlis gland not observed. Precise junctions between oviduct, oötype, vitelline duct and genitointestinal canal not elucidated. Seminal receptacle well visible, dextral to germarium. Canal from vagina not observed. Vaginal pore mid-dorsal, often inconspicuous in most specimens, posterior to genital atrium; distance from vagina to anterior body margin, 275–302. Vitellarium densely scattered in most part of body from genital atrium to haptor. Vitelline ducts pair, united anteriorly and posteriorly; anterior junction not visible; posterior junction conspicuous as a Y in most specimens, at level of anterior margin of germarium and dorsal to it. Egg not observed (see Figure 10).
Taxonomic summary:—Type host: Brown chromis, Chromis multilineata (Guichenot, 1853) (Perciformes: Pomacentridae). Type locality: Cayo Arcas Reef, Gulf of Mexico (0.21° N, −91.98° W). Site in host: Gill lamellae.
Prevalence and intensity of infection:—A total of 3 fish infected of 14 examined (21.4%); intensity on infection, 4.6.
Specimens examined:—Holotype and 13 paratypes in CNHE (11,782 and 11,783, respectively).
Etymology:—This species is derived from the specific name of its host.
Remarks:—This new species was allocated to Microcotyle on the basis of the diagnosis provided by Mamaev [31] and on examination of original descriptions of other species of this genus in Villora-Montero et al. [32] and Muñoz and George-Nascimento [33]: species mainly characterized by a conspicuous genital atrium with well-developed radial muscles, armed with conical spines (variable in size) communicated with small chambers, a convoluted ovary and an unarmed, long, single vaginal duct. Fernández and Corrada [17] described their new species, Microcotyle chromidis from the gills of the blue chromis, Chromis cyanea (Poey, 1860) from Cuba from which it differs from Microcotyle multilineatus n. sp. in having greater body length, i.e., 1850–2350 vs. 416–1035 long in M. chromidis, smaller anterior clamps 25–36 long, 46–63 wide, posterior clamps 25–40 long, 52–72 wide vs. 74–122 long, 42–88 wide; number of testes, 11–14 vs. 24–29 and by the general morphology of the genital atrium and organization of their spines (single chamber surrounded with spines vs. more than one chamber with spines laterally distributed in M. chromidis-see Figure 1D in Fernández and Corrada [17] and present study). The fact is that these latter authors indicated that M. chromidis was also posteriorly reported on Cr. multilineata in Cuba. However, these authors did not provide any comparative morphometric data of their M. chromidis on Cr. multilineata nor accession number for their parasite specimens deposited to any collection as reference. Based on present description, M. multilineatus n. sp. is well differentiated from M. chromidis on Cr. cyanea. However, it is unclear if these specimens reported as M. chromidis on Cr. multilineata from Cuba are conspecific with M. multilineatus n. sp. on the same host species from Cayo Arcas reef in the Gulf of Mexico. What is noteworthy is that four individuals of Cr. cyanea (type host for M. chromidis) were examined and resulted negative for monogenoids in the present study. So, it is possible that Cr. cyanea and/or Cr. multilineata were misidentified as hosts of M. chromidis within same geographical area of Cuba. Microcotylids have been described and/or reported in the Mexican waters (including the Gulf Coast of USA, i.e., state of Florida) on a wide variety of members of the Centropomidae, Cirrhitidae, Chaetodontidae, Gerreidae, Haemulidae, Labridae, Lutjanidae, Mugilidae, Pomacanthidae, Pomatomidae, Sciaenidae, Serranidae, and Sparidae (see [34,35,36]). However, a revision and accurately counting of some characters (i.e., presence or absence of spines in the chambers of the genital atrium) by studying morphologically optimal specimens (i.e., types or fresh collection containing uncontracted, relaxed and unfolded specimens) from confirmed hosts are necessary to validate the generic status of most of them (see [32]). At present, only Microcotyle multilineatus n. sp. has been described on a pomacentrid host from Mexico.

4. Discussion

This work allowed for the first time to investigate the ectoparasitic gill monogenoids on pomacentrid and chaetodontid fishes from the Cayo Arcas reef, Gulf of Mexico from which some monogenoids, i.e., species of Neohaliotrema and Haliotrema had not been reported since its original description by Zhukov [16,25,27] until now. In summary, the new monogenoidean species herein described, redescribed (i.e., H. brevicirrus) and/or reported (including new host records) are occurring on sympatric fishes from the Cayo Arcas reef, which are widespread in the Greater Caribbean (see [11]). However, the monotypic P. pomacentris n. sp. found on pomacentrid S. xanthurus appear to be closely related to other dactylogyrid species of Euryhaliotrema parasitizing fish hosts worldwide of the Ambassidae, Chaetodontidae, Caesionidae, Haemulidae, Lutjanidae, Sciaenidae, and Sparidae. Similarly, based on comparative morphology of species of Neohaliotrema found on other pomacentrids from the Cayo Arcas reef, they appear to be closely related to their congeners on pomacentrids that are geographically distant (i.e., N. bifidum n. sp. on A. saxatilis, and N. bombini on A. vaigensis from the Gulf of Mexico and waters off Peninsular Malaysia, respectively). At this point, it is interesting to note that these monogenoids on their respective pomacentrid hosts from the Cayo Arcas suggest evolutionary links with those from the Indo-West Pacific. In fact, A. vaigensis is in a basal clade with respect to A. saxatilis in the phylogeny based on molecular data of the Pomacentridae provided by McCord et al. [37]. Yet, the steady modes of dispersal and speciation are still unknown for these monogenoids on pomacentrids with circumtropical distribution and remain to be elucidated. Given that, the monogenoidean composition in the Cayo Arcas reef could be explained by the hypothesis described by Mendoza-Franco et al. [38] which suggested that when the warm water connections between the Pacific and Atlantic oceans were severed by tectonic movement, the closing of the Tethys Sea could have been the vicariant event producing the current distribution of the Indo-Pacific and Atlantic–Caribbean populations of diplectanid monogenoids on megalopid fishes. Therefore, the continuous dispersal corridors between the Indo-West Pacific and the Atlantic–Caribbean regions before the Tethyan closure (12–18 mya) could have allowed distribution and speciation of monogenoids on pomacentrids in the Gulf of Mexico also. That Tethyan pattern of distribution for pomacentrids has also been suggested in McCord et al. [37]. With respect to Haliotrema with more than 100 species, have been described and/or reported on a wide host range of 33 families (i.e., Chaetodontidae Scaridae, Holocentridae, Cirrhitidae Acanthuridae, among others) from coral reefs of the Indo-West Pacific (i.e., Great Barrier Reef, Australia and south China sea) up to Mexican waters (see Remarks section for H. brevicirrus on C. ocellatus; Sun et al. [39], Mendoza-Franco et al. [6]). However, Haliotrema has long been considered a polyphyletic taxon and revision is pending to define the taxonomic status of many groups. In the meantime, the biogeographic issue of these monogenoidean species based on their comparative morphology remains a question. Finally, although access to the type specimens (i.e., those of N. bychowskii, N. macracanthum and H. brevicirrus) from the Laboratory of parasitology from the Zoological Institute of the Academy of Sciences of the USSR was not possible for study, these species were identified based on morphometric comparison of their original descriptions and illustrations provided by Zhukov [16,25]. As previously noted in the previously described species of Neohaliotrema by Lim and Gibson [14], the vaginal pore in present specimens of N. manubrium n. sp., N. aliamanubrium n. sp., N. bifidum n. sp., N. bychowskii and N. macracanthum was not easily observed. Clearly, a lack of information hampers proper biogeographical interpretation, but present findings showed that host specific monogenoids on pomacentrids and chaetodontids can be an excellent model for addressing both the biogeographical hypothesis and biodiversity composition.

Author Contributions

Conceptualization, E.F.M.-F., V.M.V.-M.; methodology, E.F.M.-F., N.S., V.M.V.-M. and M.L.A.-M.; validation, E.F.M.-F., N.S., V.M.V.-M. and M.L.A.-M.; investigation, E.F.M.-F., N.S., V.M.V.-M. and M.L.A.-M.; resources, N.S., V.M.V.-M. and M.L.A.-M.; original draft preparation, E.F.M.-F., N.S. and V.M.V.-M.; writing—review and editing, E.F.M.-F., N.S., V.M.V.-M. and M.L.A.-M.; supervision, E.F.M.-F., N.S. and V.M.V.-M. All authors have read and agreed to the published version of the manuscript.

Funding

This research was funded by grants to NS from the Harte Charitable Foundation through the Harte Research Institute through the project Biodiversity of the Southern Gulf of Mexico (BDMY), and CONABIO by the project NE018 (Knowledge update on the diversity of benthic marine invertebrate species in shallow waters [<50 m] of the southern Gulf of Mexico); such supports have enabled access to the Campeche Bank remote reefs.

Institutional Review Board Statement

Not applicable.

Data Availability Statement

Not applicable.

Acknowledgments

We thank the Secretaría de Marina Armada de México (SEMAR), that offered support in the transport of all the campaigns to Cayo Arcas reef. Special thanks to Francisco Puc Itza, CINVESTAV, for helping us during field work by preserving samples. We also greatly appreciate anonymous reviewers whose candid revisions very much contribute to the improvement of our work.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Cribb, T.H.; Bott, N.J.; Bray, R.A.; McNamara, M.K.A.; Miller, T.L.; Nolan, M.J.; Cutmore, S.C. Trematodes of the Great Barrier Reef, Australia: Emerging patterns of diversity and richness in coral reef fishes. Int. J. Parasitol. 2014, 44, 929–939. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  2. Justine, J.-L. Parasite biodiversity in a coral reef fish: Twelve species of monogeneans on the gills of the grouper Epinephelus maculatus (Perciformes: Serranidae) off New Caledonia, with a description of eight new species of Pseudorhabdosynochus (Monogenea: Diplectanidae). Syst. Parasitol. 2007, 66, 81–129. [Google Scholar] [CrossRef]
  3. Justine, J.-L. Parasites of coral reef fish: How much do we know? With a bibliography of fish parasites in New Caledonia. Belg. J. Zool. 2010, 140, 155–190. [Google Scholar]
  4. Justine, J.-L.; Beveridge, I.; Boxshall, G.A.; Bray, R.A.; Moravec, F.; Trilles, J.-P.; Whittington, I.D. An annotated list of parasites (Isopoda, Copepoda, Monogenea, Digenea, Cestoda and Nematoda) collected in groupers (Serranidae, Epinephelinae) in New Caledonia emphasizes parasite biodiversity in coral reef fish. Folia Parasit. 2010, 57, 237–262. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  5. Kritsky, D.C.; Galli, P.; Yang, T. Dactylogyrids (Monogenoidea) parasitizing the gills of spinefoots (Teleostei: Siganidae): Proposal of Glyphidohaptor n. gen., with two new species from the great Barrier reef, Australia, and G. plectocirra n. comb. from Ras Mohammed National park, Egypt. J. Parasitol. 2007, 93, 39–46. [Google Scholar] [CrossRef]
  6. Mendoza-Franco, E.F.; Binning, S.A.; Roche, D.G. New and previously described dactylogyrid species (Monogenoidea: Polyonchoinea) and a gastrocotylinean pre-adult (Heteronchoinea) from pomacentrid and caesionid (Perciformes) fishes from Lizard Island, Great Barrier Reef, Australia. Acta Parasitol. 2017, 62, 688–698. [Google Scholar] [CrossRef]
  7. Santander-Monsalvo, J.; Espejel, I.; Ortiz-Lozano, L. Distribution, uses, and anthropic pressures on reef ecosystems of Mexico. Ocean. Coast Manag. 2018, 165, 39–51. [Google Scholar] [CrossRef]
  8. Palomino-Álvarez, L.A.; Vital, X.G.; Castillo-Cupul, R.E.; Suárez-Mozo, N.Y.; Ugalde, D.; Cervantes-Campero, G.; Muciño-Reyes, M.R.; Homá-Canché, P.; Hernández-Díaz, Y.Q.; Sotelo-Casas, R.; et al. Evaluation of the Use of Autonomous Reef Monitoring Structures (ARMS) for describing the species diversity of two coral reefs in the Yucatan Peninsula, Mexico. Diversity 2021, 13, 579. [Google Scholar] [CrossRef]
  9. López-Zacarías, M.N.; Herrerías-Diego, Y.; Tafolla-Venegas, D.; Domínguez-Domínguez, O.; Pérez-Ponce de León, G. Community structure of intestinal adult trematodes (Platyhelminthes) in six species of Haemulon (Osteichthyes) in Puerto Morelos Reef National Park, Quintana Roo, Mexico. Rev. Mex. De Biodivers. 2021, 92, e923602. [Google Scholar] [CrossRef]
  10. Montoya-Mendoza, J.; Fernández-Peña, M.L.; Salgado-Maldonado, G.; Castañeda-Chávez, M.R.; Mendoza-Franco, E.F. Helminths communities of Anisotremus virginicus (Perciformes: Haemulidae) in Veracruz, Mexico. J. Parasitol. 2021, 107, 364–368. [Google Scholar] [CrossRef]
  11. Robertson, D.R.; Pérez-España, H.; Nuñez, L.E.; Puc, I.F.; Simões, N. The fishes of Cayo Arcas (Campeche Bank, Gulf of Mexico): An updated checklist. Zookeys 2016, 640, 139–155. [Google Scholar] [CrossRef] [PubMed]
  12. Mendoza Franco, E.F.; Caspeta-Mandujano, J.M.; Salgado-Maldonado, G. New species of Cacatuocotyle (Monogenoidea, Dactylogyridae) parasitizing the anus and the gill lamellae of Astyanax aeneus (Pisces, Ostariophysi: Characidae) from the Rio Lacantún basin in the Biosphere Reserve of Montes Azules, Chiapas, Mexico. Parasitol. Res. 2013, 112, 199–205. [Google Scholar] [CrossRef] [PubMed]
  13. Kritsky, D.C.; Boeger, W.A.; Thatcher, V.E. Neotropical Monogenea. 7. Parasites of the pirarucu Arapaima gigas (Cuvier), with descriptions of two new species and redescription of Dawestrema cycloancistrium Price and Nowlin, 1967 (Dactylogyridae: Ancyrocephalinae). Proc. Biol. Soc. Wash. 1985, 98, 321–331. [Google Scholar]
  14. Lim, L.H.S.; Gibson, D.I. Species of Neohaliotrema Yamaguti, 1965 (Monogenea: Ancyrocephalidae) from the pomacentrid Abudefduf vaigensis (Quoy & Gaimard) off Pulau Langkawi, Malaysia, with a revised diagnosis of the genus and a key to its species. Syst. Parasitol. 2010, 77, 107–129. [Google Scholar] [CrossRef]
  15. Bush, A.O.; Lafferty, K.D.; Lotz, J.M.; Shostak, A.W. Parasitology meets ecology on its own terms: Margolis et al. revisited. J. Parasitol. 1997, 83, 575–583. [Google Scholar] [CrossRef]
  16. Zhukov, E.V. New representatives of the lower Monogenea from the gills of fishes of the fam. Pomacentridae from the Gulf of Mexico. Parazitologiya 1976, 10, 359–368. (In Russian) [Google Scholar]
  17. Fernández, O.R.A.; Corrada, W.R.I. New species of Monogenea (Monogenea: Microcotylidae), parasite of Chromis cyanea (Actinopterygii: Pomacentridae), for Cuban waters. Ser. Oceanológica 2015, 14, 32–37. Available online: http://hdl.handle.net/1834/12929 (accessed on 22 September 2022).
  18. Sun, Y.; Yang, T. Two new species of Euryhaliotrema Kritsky, 2012 (Monogenea: Dactylogyridae) from Lutjanus russellii (Bleeker) and L. argentimaculatus (Forsskål) (Teleostei: Lutjanidae) in the South China Sea. Folia Parasit. 2015, 62, 040. [Google Scholar] [CrossRef]
  19. Kristky, D.C.; Boeger, W.A. Neotropical Monogenoidea. 41: New and previously described species of Dactylogyridae (Platyhelminthes) from the gills of marine and freshwater perciform fishes (Teleostei) with proposal of a new genus and a hypothesis on phylogeny. Zoosystema 2002, 24, 7–40. [Google Scholar]
  20. Kritsky, D.C. Dactylogyrids (Monogenoidea: Polyonchoinea) parasitizing the gills of snappers (Perciformes: Lutjanidae): Revision of Euryhaliotrema with new and previously described species from the Red Sea, Persian Gulf, the eastern and Indo-west Pacific Ocean, and the Gulf of Mexico. Zoologia 2012, 3, 227–276. [Google Scholar] [CrossRef]
  21. Kritsky, D.C.; Diggles, B.K. Dactylogyrids (Monogenoidea: Polyonchoinea) parasitising the gills of snappers (Perciformes: Lutjanidae): Species of Euryhaliotrema Kritsky and Boeger, 2002 from the golden snapper Lutjanus johnii (Bloch) off northern Australia, with a redescription of Euryhaliotrema johni (Tripathi, 1959) and descriptions of two new species. Syst. Parasitol. 2014, 87, 73–82. [Google Scholar] [CrossRef] [PubMed]
  22. Kritsky, D.C.; Yang, T.; Sun, Y. Dactylogyrids (Monogenoidea, Polyonchoinea) parasitizing the gills of snappers (Perciformes, Lutjanidae): Proposal of Haliotrematoides n. gen. and descriptions of new and previously described species from marine fishes of the Red Sea, the eastern and Indo-west Pacific Ocean, Gulf of Mexico and Caribbean Sea. Zootaxa 2009, 1970, 1–51. Available online: http://www.mapress.com/zootaxa/2009/f/z01970p051f.pdf (accessed on 22 September 2022).
  23. Mendoza-Franco, E.F.; Reyes-Lizama, C.; González-Solís, D. Haliotrematoides spp. (Monogenoidea: Dactylogyridae) infecting the gills of grunts (Perciformes: Haemulidae) from the southern coast of Quintana Roo, Mexico. J. Parasitol. 2009, 95, 1360–1363. [Google Scholar] [CrossRef] [PubMed]
  24. Vidal-Martínez, V.M.; Aguirre-Macedo, M.L.; McLaughlin, J.; Jaramillo, A.G.; Shaw, J.C.; James, A.; Hechinger, R.F.; Kuris, A.M.; Lafferty, K.D.; Soler-Jimenez, L.C. Monogenea of fishes from the lagoon flats of Palmyra Atoll, Central Pacific. ZooKeys 2017, 713, 1–23. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  25. Zhukov, E.V. New species of Monogeneans of the genus Haliotrema from gills of fishes of the families Chaetodontidae and Scaridae from the Gulf of Mexico. Parazitologiya 1980, 14, 308–313. (In Russian) [Google Scholar]
  26. Cruces, C.L.; Chero, J.D.; Sáez, G.; Luque, J.L. Dactylogyrids (Monogenea) parasitic on marine fish from Peru including the description of a new species of Haliotrema Johnston & Tiegs, 1922 and two new species of Parancylodiscoides Caballero & C. & Bravo-Hollis, 1961. Zootaxa 2017, 4311, 111–121. [Google Scholar] [CrossRef]
  27. Zhukov, E.V. Monogenea of the genus Haliotrema Johnston et Tiegs, 1922 from the gills of fishes fam. Holocentridae and fam Acanthuridae of the Gulf of Mexico. Parazitol. Sb. 1980, 29, 41–52. (In Russian) [Google Scholar]
  28. Mendoza-Franco, E.F.; Violante-González, J. Two new species of Haliotrema (Monogenoidea, Dactylogyridae) from Cirrhitus rivulatus (Perciformes, Cirrhitidae) from the Pacific coast of Mexico. J. Parasitol. 2011, 97, 800–804. Available online: http://www.journalofparasitology.org/doi/pdf/10.1645/GE-2719.1 (accessed on 22 September 2022). [CrossRef] [PubMed]
  29. Mendoza-Garfias, B.; García-Prieto, L.; Pérez-Ponce de León, G.P. Checklist of the Monogenea (Platyhelminthes) parasitic in Mexican aquatic vertebrates. Zoosystema 2017, 39, 501–598. [Google Scholar] [CrossRef]
  30. Vala, J.C.; Maillard, C.; Overstreet, R.M. Haliotrema (Monogenea: Ancyrocephalinae) from ostraciid fishes in Guadeloupe, west Indies. J. Parasitol. 1982, 68, 1130–1137. [Google Scholar] [CrossRef] [Green Version]
  31. Mamaev, Y.L. The taxonomic composition of the family Microcotylidae Taschenberg, 1879 (Monogenea). Folia Parasit. 1986, 33, 199–206. [Google Scholar]
  32. Víllora-Montero, M.; Pérez del Olmo, A.; Georgieva, S.; Raga, J.A.; Montero, F.E. Considerations on the taxonomy and morphology of Microcotyle spp.: Redescription of M. erythrini van Beneden & Hesse, 1863 (sensu stricto) (Monogenea: Microcotylidae) and the description of a new species from Dentex dentex (L.) (Teleostei: Sparidae). Parasite Vector. 2020, 13, 45. [Google Scholar] [CrossRef] [Green Version]
  33. Muñoz, G.; George-Nascimento, M. Two new species of Microcotyle (Monogenea: Microcotylidae) on intertidal fish from the south Pacific coast. Rev. Biol. Mar. Oceanog. 2019, 54, 283–296. [Google Scholar] [CrossRef] [Green Version]
  34. MacCallum, G.A. Notes on the genus Microcotyle III. Zool. Jb. 1915, 38, 71–78. [Google Scholar]
  35. Hargis, W.J., Jr. Monogenetic Trematodes of Gulf of Mexico Fishes. Part X. The Family Microcotylidae Taschenberg, 1879. Trans. Am. Micros. Soc. 1956, 75, 436–453. [Google Scholar] [CrossRef]
  36. Mendoza-Franco, E.F.; Rosado, T.M.C.; Duarte, A.A.J.; del Rio, R.R.E. Morphological and molecular (28S rRNA) data of monogeneans (Platyhelminthes) infecting the gill lamellae of marine fishes in the Campeche Bank, southwest Gulf of Mexico. Zookeys 2018, 783, 125–161. [Google Scholar] [CrossRef]
  37. McCord, C.L.; Nash, C.M.; Cooper, W.J.; Westneat, M.W. Phylogeny of the damselfishes (Pomacentridae) and patterns of asymmetrical diversification in body size and feeding ecology. PLoS ONE 2021, 16, e0258889. [Google Scholar] [CrossRef] [PubMed]
  38. Mendoza-Franco, E.F.; Kritsky, D.C.; Vidal-Martínez, V.M.; Scholz, T.; Aguirre-Macedo, M.L. Neotropical Monogenoidea. 45. Revision of Diplectanocotyla Yamaguti, 1953 (Diplectanidae) with redescription of Diplectanocotyla megalopis Rakotofiringa and Oliver, 1987 on Atlantic Tarpon, Megalops atlanticus Cuvier and Valenciennes, from Nicaragua and Mexico. Comp. Parasitol. 2004, 71, 158–165. [Google Scholar]
  39. Sun, Y.; Yang, C.; Yang, T. Two new species of Haliotrema Johnston & Tiegs, 1922 (Monogenea: Dactylogyridae) from Acanthurus nigrofuscus (Forsskål) and A. triostegus (Linnaeus) (Teleostei: Acanthuridae) in the South China Sea. Syst. Parasitol. 2015, 91, 253–259. [Google Scholar] [CrossRef]
Figure 1. Paraeuryhaliotrema pomacentris n. gen., n. sp. from the beaugregory Stegastes xanthurus. (A) Whole mount (composite, dorsal view) (B) Copulatory complex (dorsal view) (C) Ventral anchor (D) Dorsal anchor (E) Ventral bar (F) Dorsal bar (G) Hook (H) Haptor.
Figure 1. Paraeuryhaliotrema pomacentris n. gen., n. sp. from the beaugregory Stegastes xanthurus. (A) Whole mount (composite, dorsal view) (B) Copulatory complex (dorsal view) (C) Ventral anchor (D) Dorsal anchor (E) Ventral bar (F) Dorsal bar (G) Hook (H) Haptor.
Diversity 14 00985 g001
Figure 2. Whole mount of Neohaliotrema variabilis n. sp. (composite, ventral view) from the beaugregory Stegastes partitus showing position of hook pairs 1–7.
Figure 2. Whole mount of Neohaliotrema variabilis n. sp. (composite, ventral view) from the beaugregory Stegastes partitus showing position of hook pairs 1–7.
Diversity 14 00985 g002
Figure 3. Sclerotized structures of Neohaliotrema variabilis n. sp. from the beaugregory Stegastes partitus. (A,B) Ventral anchors (C,D) Dorsal anchors (E) Hook pair 1 (F) Hook pairs 4 (GI) Ventral bars (J) Dorsal bar. (K,L) Hook pairs 3. (M) Copulatory complex. (N,O) Ventral bars (P) Hook pairs 2 (Q,R) Hook pairs 7.
Figure 3. Sclerotized structures of Neohaliotrema variabilis n. sp. from the beaugregory Stegastes partitus. (A,B) Ventral anchors (C,D) Dorsal anchors (E) Hook pair 1 (F) Hook pairs 4 (GI) Ventral bars (J) Dorsal bar. (K,L) Hook pairs 3. (M) Copulatory complex. (N,O) Ventral bars (P) Hook pairs 2 (Q,R) Hook pairs 7.
Diversity 14 00985 g003
Figure 4. Neohaliotrema manubrium n. sp. from the Sergeant-major Abudefduf saxatilis (A) Whole mount (composite, ventral view) (B) Copulatory complex (C) Hook pair 1 (D) Hook pair 2 (E) Hook pair 3 (F) Ventral bar (G) Dorsal bar (H) Egg (I) Ventral anchor (J) Dorsal anchor (K) Hook.
Figure 4. Neohaliotrema manubrium n. sp. from the Sergeant-major Abudefduf saxatilis (A) Whole mount (composite, ventral view) (B) Copulatory complex (C) Hook pair 1 (D) Hook pair 2 (E) Hook pair 3 (F) Ventral bar (G) Dorsal bar (H) Egg (I) Ventral anchor (J) Dorsal anchor (K) Hook.
Diversity 14 00985 g004
Figure 5. Haptoral structures of Neohaliotrema aliamanubrium n. sp. from Sergeant-major Abudefduf saxatilis (A) Ventral anchor (B) Dorsal anchor (C) Hook pair 7 (D) Ventral bar (E) Dorsal bar (F) Hook pair 1 (G) Hook pair 2 (H) Hook pair 4 (I) Hook pair 3.
Figure 5. Haptoral structures of Neohaliotrema aliamanubrium n. sp. from Sergeant-major Abudefduf saxatilis (A) Ventral anchor (B) Dorsal anchor (C) Hook pair 7 (D) Ventral bar (E) Dorsal bar (F) Hook pair 1 (G) Hook pair 2 (H) Hook pair 4 (I) Hook pair 3.
Diversity 14 00985 g005
Figure 6. Haptoral structures of Neohaliotrema bifidum n. sp. from the Sergeant-major Abudefduf saxatilis (A) Haptor (ventral view) showing positions of hook pairs (1–7) (B) Ventral anchor (C,D) Ventral anchors (E) Dorsal anchor (F) Dorsal anchor (GM) Hook pairs 1–7, respectively.
Figure 6. Haptoral structures of Neohaliotrema bifidum n. sp. from the Sergeant-major Abudefduf saxatilis (A) Haptor (ventral view) showing positions of hook pairs (1–7) (B) Ventral anchor (C,D) Ventral anchors (E) Dorsal anchor (F) Dorsal anchor (GM) Hook pairs 1–7, respectively.
Diversity 14 00985 g006
Figure 7. Haptoral structures of Neohaliotrema similium n. sp. from the beaugregory Stegastes xanthurus (A) Dorsal anchor (B) Ventral anchor (C) Dorsal bar (D) Ventral bar (E) Hook pair 3 (F) Hook pair 2 (G) Copulatory complex (H) Hook pair 1 (I) Hook pair 4 (J) Hook pair 7.
Figure 7. Haptoral structures of Neohaliotrema similium n. sp. from the beaugregory Stegastes xanthurus (A) Dorsal anchor (B) Ventral anchor (C) Dorsal bar (D) Ventral bar (E) Hook pair 3 (F) Hook pair 2 (G) Copulatory complex (H) Hook pair 1 (I) Hook pair 4 (J) Hook pair 7.
Diversity 14 00985 g007
Figure 8. Haptoral structures of Neohaliotrema bychowskii Zhukov, 1976 from Sergeant-major Abudefduf saxatilis (A) Hook pair 1 (B) Hook pair 2 (C) Ventral bar (D) Dorsal bar (E) Hook pair 4 (F) Hook pair 3 (G) Ventral anchor (H) Dorsal anchor.
Figure 8. Haptoral structures of Neohaliotrema bychowskii Zhukov, 1976 from Sergeant-major Abudefduf saxatilis (A) Hook pair 1 (B) Hook pair 2 (C) Ventral bar (D) Dorsal bar (E) Hook pair 4 (F) Hook pair 3 (G) Ventral anchor (H) Dorsal anchor.
Diversity 14 00985 g008
Figure 9. Haliotrema brevicirrus Zhukov, 1980 from the Spotfin butterflyfish Chaetodon ocellatus (A) Whole mount (composite, ventral view) (B,C) Copulatory complexes (D) Ventral anchor (E) Ventral bar (F) Dorsal bar (G) Dorsal anchor (H) Dorsal anchor with base slightly bent toward the midline of haptor (I) Hook.
Figure 9. Haliotrema brevicirrus Zhukov, 1980 from the Spotfin butterflyfish Chaetodon ocellatus (A) Whole mount (composite, ventral view) (B,C) Copulatory complexes (D) Ventral anchor (E) Ventral bar (F) Dorsal bar (G) Dorsal anchor (H) Dorsal anchor with base slightly bent toward the midline of haptor (I) Hook.
Diversity 14 00985 g009
Figure 10. Microcotyle multilineatus n. sp. from the Brown chromis, Chromis multilineata. (A) Whole mount (composite, ventral view) (B) Genital atrium (C) Spines (D) Deeper focus of the genital atrium (E) Clamp.
Figure 10. Microcotyle multilineatus n. sp. from the Brown chromis, Chromis multilineata. (A) Whole mount (composite, ventral view) (B) Genital atrium (C) Spines (D) Deeper focus of the genital atrium (E) Clamp.
Diversity 14 00985 g010
Table 1. Occurrence of monogenoids (Platyhelminthes) parasitizing the gills of pomacentrid and chaetodontid fishes from Cayo Arcas reef, Campeche Bank (Gulf of Mexico).
Table 1. Occurrence of monogenoids (Platyhelminthes) parasitizing the gills of pomacentrid and chaetodontid fishes from Cayo Arcas reef, Campeche Bank (Gulf of Mexico).
Hosts
ParasitesS. xanthurusS. partitusA. saxatilisS. leucostictusC. ocellatusC. multilineata
P. pomacentris n. gen., n. sp.+
N. variabilis n. sp.+++
N. manubrium n. sp.+
N. aliamanubrium n. sp.+
N. bifidum n. sp.+
N. similium n. sp. +
N. bychowskii Zhukov, 1976+
N. macracanthum Zhukov, 1976+
H. brevicirrus Zhukov, 1980+
M. multilineatus n. sp.+
Table 2. Comparative measurements (in micrometers; mean with range in parentheses; n = number specimens/structures measured) of Neohaliotrema variabilis n. sp. on Stegastes spp. and Neohaliotrema nagibinae Zhukov 1976 on M. chrysurus (all Pomacentridae) from Cayo Arcas reef, Gulf of Mexico.
Table 2. Comparative measurements (in micrometers; mean with range in parentheses; n = number specimens/structures measured) of Neohaliotrema variabilis n. sp. on Stegastes spp. and Neohaliotrema nagibinae Zhukov 1976 on M. chrysurus (all Pomacentridae) from Cayo Arcas reef, Gulf of Mexico.
S. partitusnS. xanthurusnS. leucostictusnM. chrysurus *n
Body length196 (105–260)25298 (227–410)4250–2603170–330
Greatest width47 (37–65)1942 (36–50)435–4240–60
Pharynx16 (14–18)1313–1416–17
Haptor width131 (100–160)21120 (115–127)3110–130
Ventral anchor length37 (31–42)3335 (32–37)735 (33–37)333–37
Ventral anchor width7 (6–7)311 (11–12)37–9
Dorsal anchor length30 (30–32)430228 (26–29)331–33
Dorsal anchor width15–1716316 (15–19)4
Ventral bar length30 (22–38)2127 (25–30)426 (25–28)325–35
Dorsal bar length40 (33–45)1437 (35–38)436–48
Hook pairs 1 and 710 (9–10)169–1010 (9–10)3
Hook pair 111–14
Hook pair 78–9
Hook pair 228 (25–30)152628–3017–25
Hook pair 341 (39–42)1045 (44–47)547 (43–51)354–66
Hook pairs 4–614 (12–15)1614 414 (12–15)1011–14
Copulatory complex length16 (12–20)2520 (19–22)415 (13–18)330–31
Germarial length24 (20–29)529 (23–40)3
Germarial width12 (7–18)512 (11–14)3
Testis length21 (15–35)514–303
Testis width12 (10–15)511
* Measurements of N. nagibinae on M. chrysurus from Zhukov [16].
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Mendoza-Franco, E.F.; Simões, N.; Vidal-Martínez, V.M.; Aguirre-Macedo, M.L. Rediscovering Monogenoids (Platyhelminthes) Parasitizing Pomacentrid and Chaetodontid Fishes from Cayo Arcas Reef, Gulf of Mexico. Diversity 2022, 14, 985. https://doi.org/10.3390/d14110985

AMA Style

Mendoza-Franco EF, Simões N, Vidal-Martínez VM, Aguirre-Macedo ML. Rediscovering Monogenoids (Platyhelminthes) Parasitizing Pomacentrid and Chaetodontid Fishes from Cayo Arcas Reef, Gulf of Mexico. Diversity. 2022; 14(11):985. https://doi.org/10.3390/d14110985

Chicago/Turabian Style

Mendoza-Franco, Edgar F., Nuno Simões, Víctor M. Vidal-Martínez, and M. Leopoldina Aguirre-Macedo. 2022. "Rediscovering Monogenoids (Platyhelminthes) Parasitizing Pomacentrid and Chaetodontid Fishes from Cayo Arcas Reef, Gulf of Mexico" Diversity 14, no. 11: 985. https://doi.org/10.3390/d14110985

APA Style

Mendoza-Franco, E. F., Simões, N., Vidal-Martínez, V. M., & Aguirre-Macedo, M. L. (2022). Rediscovering Monogenoids (Platyhelminthes) Parasitizing Pomacentrid and Chaetodontid Fishes from Cayo Arcas Reef, Gulf of Mexico. Diversity, 14(11), 985. https://doi.org/10.3390/d14110985

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop