Plants

24 pages, 5901 KB

Open AccessArticle

Short-Term Effects of Thinning on the Carbon Sink Function of Secondary Broadleaf Forest Ecosystems

by Xiaohong Wu, Xiaomei Jiang, Suyun Zheng, Weiqing Qiu, Guojun Miao, Jianjun Zhong, Lin Xu and Yongjun Shi

Plants 2026, 15(6), 868; https://doi.org/10.3390/plants15060868 - 11 Mar 2026

Abstract

Secondary broadleaf forests constitute a vital component of China’s forest resources, characterized by diverse ecological functions, strong regeneration capacity, and widespread distribution. They possess significant potential for carbon storage, yet their carbon sink capacity is influenced by multiple factors, including successional stage, tree [...] Read more.

Secondary broadleaf forests constitute a vital component of China’s forest resources, characterized by diverse ecological functions, strong regeneration capacity, and widespread distribution. They possess significant potential for carbon storage, yet their carbon sink capacity is influenced by multiple factors, including successional stage, tree species composition, soil conditions, and human disturbance levels. However, the response mechanism of carbon sequestration capacity in secondary broadleaf forest ecosystems to thinning intensity remains unclear. This study aims to elucidate the effects of different thinning intensities (0% (CK), 10% (LT), 25% (MT), and 35% (HT)) on soil greenhouse gas (GHG) emissions, vegetation, and soil organic carbon sinks. Results indicate that total GHG emissions increased by 1.9%, 31.86%, and 42.18% under LT, MT, and HT, respectively. Vegetation carbon sequestration decreased by 5.26% and 16.22% under LT and MT, respectively, while increasing by 13.17% under HT. Soil organic carbon sequestration increased by 37.33% under LT, but decreased by 5.89% and 61.41% under MT and HT, respectively. In summary, compared with the control, ecosystem carbon sequestration increased by 30.66% in LT, while decreasing by 32.06% and 71.73% in MT and HT, respectively. Our study indicates that light thinning intensity can enhance the carbon sequestration potential of ecosystems and effectively mitigate climate change. Full article

(This article belongs to the Section Plant Ecology)

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32 pages, 6419 KB

Open AccessArticle

Physiological Plasticity and Growth Dynamics as Predictive Parameters for Screening Salinity Stress Gradient Responses in Four Triticum aestivum L. Varieties: Boema, Glosa, Granny and Taisa

by Mădălina Trușcă, Valentina Ancuța Stoian, Ștefania Gâdea, Anamaria Vâtcă, Vlad Stoian and Sorin Daniel Vâtcă

Plants 2026, 15(6), 867; https://doi.org/10.3390/plants15060867 - 11 Mar 2026

Abstract

Soil salinity in wheat represents a severe threat to global productivity, requiring a deep understanding of physiological adaptation mechanisms to ensure food security in the context of continuous agricultural land degradation. The study aim was to assess the impact of a salinity gradient [...] Read more.

Soil salinity in wheat represents a severe threat to global productivity, requiring a deep understanding of physiological adaptation mechanisms to ensure food security in the context of continuous agricultural land degradation. The study aim was to assess the impact of a salinity gradient (0–75 mM NaCl) on the dynamics of stomatal opening and chlorophyll content of the varieties Glosa, Taisa, Boema and Granny. The methodology integrated four joint classes, of which two were from detailed physiological parameters, stomatal features and chlorophyll content, and two morphological characteristics, growth visual indices and biomass allocation. All data was corroborated into an original hierarchical synthesis model presented in a multi-layered sunburst plot. The most relevant results indicate that the concentration of 45 mM NaCl represents the osmotic adjustment threshold, where the active accumulation of ions decreases the internal osmotic potential, facilitating an influx of water that maximizes guard cell turgor and, implicitly, stomatal width. Maximal physiological parameters and biomass ranked the variety Granny first, followed by Taisa. Despite stomatal increases, Boema ranked third and Glosa showed overall decreased development and the lowest plant biomass. These findings validate the use of interconnected effects analysis as a screening tool for identifying the salinity responses of wheat varieties. Full article

(This article belongs to the Special Issue The Impact of Stress Conditions on Crop Quality)

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16 pages, 2031 KB

Open AccessArticle

Applying Target Capture Sequencing to Unravel the Anthurium Section Pachyneurium (Araceae), with Emphasis on Brazilian Species

by Mel C. Camelo, Georgios J. Pappas, Jr., Micheline C. Silva, Lívia G. Temponi, Marcus A. N. Coelho, José F. A. Baumgratz and Mónica M. Carlsen

Plants 2026, 15(6), 866; https://doi.org/10.3390/plants15060866 - 11 Mar 2026

Abstract

Anthurium (Araceae) is one of the most species-rich Neotropical genera, yet its infrageneric classification remains unresolved. This study tests the monophyly of the morphologically defined Anthurium sect. Pachyneurium diagnosed by rosulate habit, involute prefoliation, and absence of a collective vein with a focus [...] Read more.

Anthurium (Araceae) is one of the most species-rich Neotropical genera, yet its infrageneric classification remains unresolved. This study tests the monophyly of the morphologically defined Anthurium sect. Pachyneurium diagnosed by rosulate habit, involute prefoliation, and absence of a collective vein with a focus on Brazilian species. Using target capture sequencing (Angiosperms353 probe set), we generated a phylogenomic dataset for 35 Anthurium species (18 from sect. Pachyneurium) and conducted maximum likelihood and coalescent-based analyses. Our results demonstrate that sect. Pachyneurium is not monophyletic as traditionally circumscribed. Brazilian species previously assigned to the section are recovered in three geographically structured and strongly supported lineages: Amazonian, Atlantic Forest, and Caatinga/Cerrado. The Atlantic Forest lineage is unexpectedly resolved as sister to A. coriaceum (sect. Urospadix), revealing an evolutionary relationship not predicted by morphology. Divergence-time estimates place the origin of crown Anthurium in the Paleocene (~62 Ma), with diversification of the Brazilian lineages occurring during the Miocene (20–3 Ma), coinciding with major geoclimatic events in South America. Our findings indicate that key diagnostic morphological characters are homoplastic and provide a phylogenomic framework for revising the infrageneric classification of Anthurium. By identifying evolutionarily distinct lineages, this study also contributes to prioritizing conservation efforts in threatened Neotropical biomes. Full article

(This article belongs to the Special Issue Recent Advancements in Taxonomy and Phylogeny of Plants)

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13 pages, 537 KB

Open AccessArticle

Chemical Profile and Related Antioxidant and Anti-Inflammatory Activities of Leaf Essential Oil from Aspilia rudis Oliv. & Hiern

by Didjour Albert Kambiré, Guy Blanchard Boué, Mathieu Paoli, Ange Bighelli, Jean Brice Boti, Zanahi Félix Tonzibo and Félix Tomi

Plants 2026, 15(6), 865; https://doi.org/10.3390/plants15060865 - 11 Mar 2026

Abstract

The present study reports, for the first time, the chemical composition of the leaf essential oil (LEO) from Aspilia rudis as well as its antioxidant and anti-inflammatory activities. Analysis combining GC(RI), GC-MS and ¹³C-NMR of 36 samples identified 58 compounds representing 96.7–99.3% [...] Read more.

The present study reports, for the first time, the chemical composition of the leaf essential oil (LEO) from Aspilia rudis as well as its antioxidant and anti-inflammatory activities. Analysis combining GC(RI), GC-MS and ¹³C-NMR of 36 samples identified 58 compounds representing 96.7–99.3% of the whole composition. Statistical analyses revealed chemical variability in three clusters, each composed of samples from the same sampling site. Cluster I is dominated by germacrene D (27.2 ± 2.7%), α-pinene (24.0 ± 2.9%) and (E)-β-caryophyllene (13.1 ± 1.7%), cluster II by α-pinene (38.9 ± 2.4%) and germacrene D (19.1 ± 3.6%), while the prevalent compound of cluster III is α-pinene (51.9 ± 5.3%), followed by β-pinene (11.7 ± 1.7%) and germacrene D (10.7 ± 2.2%). The oil samples S10, S26 and S36 demonstrated antioxidant activity (DPPH: EC₅₀ = 43.8 ± 1.0, 28.5 ± 1.0 and 38.8 ± 1.0 µg/mL, respectively; ABTS: TEAC = 17.16 ± 0.70, 23.35 ± 1.32 and 18.76 ± 0.64 µmol TE/mg EO, respectively) and anti-inflammatory activity through the LOX inhibition assay (IC₅₀ = 34.9 ± 1.0, 32.1 ± 1.0 and 22.2 ± 1.0 µg/mL, respectively). The activities of A. rudis LEO may be related to its main compounds and thymol, all known for their various pharmacological and biological properties, and probably to synergistic effects. Full article

(This article belongs to the Special Issue Bioactive Compounds in Plants: Sources, Identification and Applications)

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13 pages, 7849 KB

Open AccessArticle

Winter Grazing in Vineyards Suppresses Pathogens and Promotes Grapevine Health

by Shaowei Cui, Lianzhu Zhou, Dong Li, Yanni Song, Hui Wu, Xiaoqing Huang, Decai Jin, Haijun Xiao and Yongqiang Liu

Plants 2026, 15(6), 864; https://doi.org/10.3390/plants15060864 - 11 Mar 2026

Abstract

Crop residues can harbor pathogens, making winter sanitation essential for sustainable viticulture. The grass–sheep–grape system could improve vineyard health through microbial optimization. To evaluate this, we assessed the effects of sheep feeding on fallen leaves on the occurrence of grape diseases through greenhouse [...] Read more.

Crop residues can harbor pathogens, making winter sanitation essential for sustainable viticulture. The grass–sheep–grape system could improve vineyard health through microbial optimization. To evaluate this, we assessed the effects of sheep feeding on fallen leaves on the occurrence of grape diseases through greenhouse experiments and used high-throughput-sequencing to compare microbial communities in grape fallen leaves and sheep feces, aiming to determine whether winter grazing reduces residue-borne pathogens. The results revealed that sheep grazing in vineyards significantly reduces the occurrence of grape leaf and cluster diseases, as well as a fundamental difference in microbial structures between leaves and feces, with no fungal taxa detected in the feces. The number of shared bacterial OTUs was minimal, while feces contained significantly more unique bacterial OTUs than fallen leaves. Additionally, bacterial diversity was significantly higher in feces than in fallen leaves. Sheep feces harbored a substantial number of highly efficient cellulose-degrading anaerobic bacteria, which may enhance organic matter conversion efficiency, and promote nutrient cycling in vineyards. Moreover, the grazing process directly reduced several pathogenic fungi associated with grape leaf, fruit, and root diseases. Functional analysis further indicated that fecal bacterial communities were primarily enriched in core metabolic and genetic processing functions, while leaf microbes were more involved in microbial interactions and secondary metabolism. More importantly, no function guilds of plant pathogenic fungi were present in feces. Overall, winter sheep grazing in vineyards can remove fallen leaves, not only reducing the risk of pathogen transmission but also potentially introducing beneficial bacterial communities. This study provides a feasible strategy for organic vineyard management in winter, and offers important insights for promoting sustainable vineyard production. Full article

(This article belongs to the Section Plant Protection and Biotic Interactions)

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23 pages, 4190 KB

Open AccessArticle

Yield, Nutritional, and Thermal Responses of Lettuce (Lactuca sativa) and Eggplant (Solanum melongena) Under Greenhouse Covers with Different UV-B Transmittance

by Mauro Mori, Eugenio Cozzolino, Ida Di Mola, Lucia Ottaiano, Antimo Di Meo, Pasquale Mormile and Massimo Rippa

Plants 2026, 15(6), 863; https://doi.org/10.3390/plants15060863 - 11 Mar 2026

Abstract

Ultraviolet-B (UV-B) radiation plays a pivotal role in plant growth, metabolism, and the accumulation of bioactive compounds, but its effects under greenhouse conditions are highly species- and dose-dependent. This study investigated the responses of eggplant (Solanum melongena L., cv. Lunga Napoletana) and [...] Read more.

Ultraviolet-B (UV-B) radiation plays a pivotal role in plant growth, metabolism, and the accumulation of bioactive compounds, but its effects under greenhouse conditions are highly species- and dose-dependent. This study investigated the responses of eggplant (Solanum melongena L., cv. Lunga Napoletana) and lettuce (Lactuca sativa L., cv. Rosplus) cultivated under greenhouse films transmitting 3–39% of ambient UV-B. Leaf temperature was monitored throughout the growth cycle using infrared thermography, while physiological parameters (chlorophyll, flavonoids, anthocyanins, and nitrogen index) and post-harvest nutritional traits (antioxidant activity, vitamin C, carotenoids, and total chlorophyll) were assessed. Comparative analysis revealed species-specific responses. Eggplant exhibited peak nutraceutical quality at higher UV-B levels (35–39%) with minimal changes in yield, whereas lettuce achieved maximal yield and secondary metabolite accumulation under intermediate UV-B (30–35%). At the highest UV-B transmittance (39%), both species exhibited stable or slightly reduced thermal and physiological parameters, indicating dose-dependent regulatory mechanisms that maintain photoprotection and metabolic activity under elevated UV-B exposure. Results suggest an apparent optimal range of UV-B transmittance in greenhouse systems under the tested experimental conditions, contributing to improved crop productivity and nutritional quality. Full article

(This article belongs to the Special Issue Application of Optical and Imaging Systems to Plants)

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18 pages, 3408 KB

Open AccessArticle

Landscape Heterogeneity Drives Plant Assemblage Dynamics and Invasibility of Semi-Natural Grasslands Under the Long-Term Invasion of Ageratina adenophora

by Longyuan Zhao, Lirong Guan, Qianmei Zou, Lu Xu, Yang Wang, Ninghui Pan, Sitong Liu, Shaorong Wu, Dexi Wu and Yong Xie

Plants 2026, 15(6), 862; https://doi.org/10.3390/plants15060862 - 11 Mar 2026

Abstract

Grassland degradation is a critical ecological problem worldwide that threatens ecosystem integrity and functional services. Although previous studies have documented the drivers of climate change, overgrazing, and anthropogenic perturbation, research concerning the impact of invasive alien plants on grassland ecosystems remains limited. The [...] Read more.

Grassland degradation is a critical ecological problem worldwide that threatens ecosystem integrity and functional services. Although previous studies have documented the drivers of climate change, overgrazing, and anthropogenic perturbation, research concerning the impact of invasive alien plants on grassland ecosystems remains limited. The present study, integrating pairwise field investigation of Ageratina adenophora invasion and non-invasion plots across heterogeneous grassland types (tropical grasslands [TG]; tropical shrub-grasslands [TS]; warm-temperate grasslands [WG]; and warm-temperate shrub-grasslands [WS]) and A. adenophora indigenous plants phytotoxicity bioassay, aims to assess the invasibility and resilience of heterogeneous grassland landscapes to A. adenophora invasion. The field investigation demonstrated the greater vulnerability of TG and TS to A. adenophora invasion, whereas WG and WS possessed higher resilience. In addition, regression analysis revealed significant reductions of the Shannon–Wiener index and the Pielou index as the A. adenophora’s important value reached the threshold 0.36. Bioassay showed that A. adenophora aqueous extracts inhibit seed germination and seedling growth of recipient plants, with Saccharum arundinaceum exhibiting the highest tolerance to A. adenophora stress. In summary, our findings not only highlight the flora communities’ dynamics and invasibility of diverse grasslands driven by A. adenophora invasion in subtropical regions but also verify S. arundinaceum’s potential for A. adenophora replacement management. Full article

(This article belongs to the Section Plant Protection and Biotic Interactions)

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16 pages, 3686 KB

Open AccessArticle

Genome-Wide Association Study on Lodging Resistance-Related Traits in Oats

by Lijun Zhao, Rui Yang, Yantian Deng, Xiaopeng Zhang, Lijun Shi, Bai Du, Mengya Liu, Junmei Kang, Xiao Li and Tiejun Zhang

Plants 2026, 15(6), 861; https://doi.org/10.3390/plants15060861 - 11 Mar 2026

Abstract

Oat (Avena sativa L.), as an essential dual-purpose grain and forage crop, exhibits lodging resistance as a key factor directly impacting yield and quality. Therefore, breeding new oat varieties with lodging resistance is important to increase crop productivity and economic benefits. Using [...] Read more.

Oat (Avena sativa L.), as an essential dual-purpose grain and forage crop, exhibits lodging resistance as a key factor directly impacting yield and quality. Therefore, breeding new oat varieties with lodging resistance is important to increase crop productivity and economic benefits. Using 130 oat germplasm as materials, 7 lodging resistance-related traits of oat, including plant height (PH), the fresh weight of single stem (FWSS), the length of basal second internode (LBSI), diameter of basal second internode (DBSI), wall thickness of basal second internode (WTBSI), stem breaking strength (SBS), and stalk puncture strength (SPS), were investigated in two experimental sites for one year. The results indicate that the seven lodging resistance-related traits exhibit a continuous distribution overall and generally follow a typical distribution pattern. A total of 36,928,068 high-quality Single-nucleotide polymorphisms (SNPs) generated from whole-genome resequencing were used for genome-wide association study (GWAS). Based on the BLINK (Bayesian-information and Linkage-disequilibrium Iteratively Nested Keyway) model threshold (−log₁₀(P) ≥ 6), 379 quantitative trait nucleotides (QTNs) associated with lodging resistance-related traits were identified. Among them, 38, 34, 78, 66, 55, 18, and 94 QTNs were associated with PH, FWSS, SBS, SPS, LBSI, DBSI, and WTBSI, respectively. Notably, three QTNs associated with FWSS and one QTN associated with SBS were stably detected across both environments, representing valuable markers for molecular breeding. From these loci, 54 candidate genes were annotated. Ranked by the number of candidate genes per trait, LBSI contained the highest number (14), followed by WTBSI (12), SPS (11), SBS (7), PH (5), and FWSS (5). Our findings provide critical support for analyzing the genetic mechanism of oat lodging resistance. Moreover, this study also offers a material and theoretical basis for the subsequent development of molecular markers and the breeding of new lodging-resistant oat varieties. Full article

(This article belongs to the Special Issue Cereal Crop Breeding, 2nd Edition)

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21 pages, 1883 KB

Open AccessArticle

Development and Application of EST-SSR Markers to Assess Genetic Diversity and Structure of Eleutherococcus senticosus for Conservation and Breeding

by Shikai Zhang, Luwei Ding, Cheruiyot Evans, Eliamani Singo, Jiawei Wu, Guanzheng Qu, Tuya Siqin, Xuefeng Han, Shunjie Zhang and Xiangling You

Plants 2026, 15(6), 860; https://doi.org/10.3390/plants15060860 - 10 Mar 2026

Abstract

Eleutherococcus senticosus, a medicinally important woody plant, is widely used in pharmaceuticals and functional foods due to its bioactive compounds. Its wild populations are facing severe threats due to over-harvesting. To inform scientific conservation and sustainable utilization strategies, this study aimed to [...] Read more.

Eleutherococcus senticosus, a medicinally important woody plant, is widely used in pharmaceuticals and functional foods due to its bioactive compounds. Its wild populations are facing severe threats due to over-harvesting. To inform scientific conservation and sustainable utilization strategies, this study aimed to comprehensively assess its genetic background. We developed 13 highly polymorphic expressed sequence tag-simple sequence repeat (EST-SSR) markers from full-length transcriptome data, with an average polymorphism information content (PIC) of 0.52. Using these markers, we systematically evaluated the genetic diversity of 405 individuals from 22 natural populations across Northeast China. The results indicate that E. senticosus maintains moderate genetic diversity at the species level (mean expected heterozygosity He = 0.43), but substantial variation exists among populations. The Linjiang population showed the highest diversity (He = 0.58), whereas peripheral populations such as Tonghua (He = 0.31) and Huinan (He = 0.32) exhibited lower diversity. Analysis of molecular variance (AMOVA) revealed that genetic variation primarily resided within populations (66.3%), but moderate differentiation among populations was also detected (Fst = 0.21). Both structure analysis and clustering consistently divided all populations into two major genetic lineages. Frequent gene flow (e.g., Nm > 10 between Raohe and Hulin) and high genetic homogeneity were observed among populations in the core distribution area (e.g., Raohe, Jixi, Hulin), whereas several peripheral populations displayed significant genetic distinctiveness and isolation. This study provides the first macro-scale insight into the population genetic structure of E. senticosus, offering crucial molecular tools and a scientific basis for in situ and ex situ conservation, core collection establishment, and future genetic improvement of this species. Full article

(This article belongs to the Section Plant Genetic Resources)

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15 pages, 2156 KB

Open AccessArticle

Impact of Silicon-Based Biostimulant on Improving Growth and Morpho-Physiological Traits of Sweet Basil (Ocimum basilicum L.) in a Glasshouse Production System

by Zoia Arshad Awan, Michael T. Gaffney and Lael Walsh

Plants 2026, 15(6), 859; https://doi.org/10.3390/plants15060859 - 10 Mar 2026

Abstract

Silicon-based biostimulants are gaining increasing interest for their ability to enhance plant performance and stress tolerance. In protected cultivation, where environmental conditions are already carefully managed, it remains unclear whether adding biostimulants provides meaningful benefits and how they should be used. This study [...] Read more.

Silicon-based biostimulants are gaining increasing interest for their ability to enhance plant performance and stress tolerance. In protected cultivation, where environmental conditions are already carefully managed, it remains unclear whether adding biostimulants provides meaningful benefits and how they should be used. This study examines whether silicon (Si) biostimulants can enhance the growth and morpho-physiological traits of sweet basil (Ocimum basilicum L.) in glasshouse production and which application rates are most effective. Two Si-based products with similar silicon content and different formulations were applied as soil drenches at four rates (10 mL, 100 mL, 1 L, and 2 L per hectare). Plant growth, biomass, photosynthetic performance, and physiological traits including membrane stability and electrolyte leakage were measured. Overall, silicon treatments improved most traits compared with untreated plants. Basil receiving Si showed longer shoots and roots, greater fresh and dry weight, and healthier leaves with better photosynthetic activity, as reflected by higher SPAD values and chlorophyll content. The response often depended on the dose: lower rates (10 mL and 100 mL h⁻¹) of the silicic acid tetraethyl ester (21% Si) led to clear improvements in 7 of 12 measured traits, while higher rates (especially 2 L ha⁻¹) reduced leaf size and morphology. However, root length: shoot length ratios were low across all treatments with the second biostimulant product: SiO₂ with chelated iron (T5–T9). Certain results are paradoxical, suggesting a trade-off in growth and defense. In some instances, low doses promote growth but potentially worsen some physiological indicators, while high doses inhibit growth but improve stress resistance indicators. The conclusion indicates that silicon-based biostimulants are valuable to include in single-harvest basil production systems, when applied at a suitable rate. Choosing the correct formulation and dose requires testing and optimization to the crop and growing system. Full article

(This article belongs to the Special Issue Advances in Biostimulant Use on Horticultural Crops—Second Edition)

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20 pages, 5757 KB

Open AccessArticle

Seedling Establishment of Dendrophylax lindenii Reintroduced In Situ: Implications for Conservation and Management of a Leafless Epiphytic Orchid

by Adam R. Herdman, Michael E. Kane, Ernesto B. Mújica, Mark W. Danaher, Lawrence W. Zettler, Paulina Quijia-Lamiña, Héctor E. Pérez and Carrie Reinhardt-Adams

Plants 2026, 15(6), 858; https://doi.org/10.3390/plants15060858 - 10 Mar 2026

Abstract

Reintroduction is increasingly used to support declining plant species, particularly epi-phytic orchids that display complex ecological requirements. We evaluated the seven-year performance of 123 asymbiotically propagated ghost orchid (Dendrophylax lindenii) seedlings that were reintroduced into a natural pond-apple/pop ash slough on [...] Read more.

Reintroduction is increasingly used to support declining plant species, particularly epi-phytic orchids that display complex ecological requirements. We evaluated the seven-year performance of 123 asymbiotically propagated ghost orchid (Dendrophylax lindenii) seedlings that were reintroduced into a natural pond-apple/pop ash slough on the Florida Panther National Wildlife Refuge. Annual monitoring of this leafless epiphytic species assessed survival, root attachment, and reproduction, with respect to host tree bark texture, host tree species, and neighboring epiphytes. Eighteen individuals (15%) persisted after 83 months, and median survival time was 47 months. Reintroduced orchids near ferns experienced 2–4-fold higher mortality compared with those near mosses, lichens, or other ghost orchids, while survival exceeded 36% at 71 months for individuals placed adjacent to bryophytes. Despite flowering in up to 19% of surviving individuals, no seed capsule reached maturity, indicating that sexual reproduction remains a major bottleneck for population persistence. However, low reproductive output and gradual attrition suggest that reintroduction alone is unlikely to produce self-sustaining populations without addressing the likely genetic constraints, the possible pollinator service constraints, and microsite drivers of persistence. This study highlights the importance of extended monitoring and microsite selection strategies for leafless epiphytic orchid conservation. Full article

(This article belongs to the Special Issue Orchid Conservation and Biodiversity—2nd Edition)

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Graphical abstract

22 pages, 3802 KB

Open AccessSystematic Review

Trends in Arthrospira sp. (Spirulina) Applications: A 15-Year Bibliometric Analysis and Systematic Review

by Hoda Hosseini, Touria Bounnit and Imen Saadaoui

Plants 2026, 15(6), 857; https://doi.org/10.3390/plants15060857 - 10 Mar 2026

Abstract

Due to their exceptional nutritional benefits, microalgae and cyanobacteria are recognized as sustainable food sources and key contributors to the circular bioeconomy. Arthrospira sp. has garnered significant attention as one of the most promising cyanobacteria for a wide range of applications. The purpose [...] Read more.

Due to their exceptional nutritional benefits, microalgae and cyanobacteria are recognized as sustainable food sources and key contributors to the circular bioeconomy. Arthrospira sp. has garnered significant attention as one of the most promising cyanobacteria for a wide range of applications. The purpose of this study is to systematically analyze and synthesize global research trends in Arthrospira sp. applications. In this context, a “systematic review” refers to an integrated bibliometric and thematic analysis encompassing publication trends, geographical distribution of research outputs, leading journals, key application sectors, market development, and associated challenges and future prospects. Consequently, extensive research has been conducted on this species, leading to diverse areas of interest and application. This review article is the first of its kind, offering a comprehensive summary of trends in Arthrospira sp. applications over the past 15 years. It presents a bibliometric analysis of publications from 2010 to 2024 in journals indexed by Scopus. The analysis revealed that Bioresource Technology is the leading journal in publishing related research, with China producing the highest number of studies. Furthermore, phycocyanin extraction emerged as the most frequently studied application. Recently explored applications include its use as a biofertilizer, in bioplastic production, and in cosmetics. The Arthrospira sp. market is currently valued at an estimated $619 million in 2024, positioning it as a dominant player in the global industry. However, challenges persist, including safety concerns related to potential allergies and toxicity, as well as regulatory hurdles that may affect commercialization and market expansion. Full article

(This article belongs to the Special Issue Microalgal Biotechnologies for Crop Production and Food Security)

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17 pages, 2488 KB

Open AccessArticle

The Bigger, the Better: Genetic and Phenotypic Analysis of Fruit Size in Sweet (Prunus avium L.) and Sour Cherry (Prunus cerasus L.) Germplasm

by Sámuel Szilágyi, Francesco Desiderio, Balázs Marton, Piroska Mohay, Alejandro Therese Navarro and Zsuzsanna Békefi

Plants 2026, 15(6), 856; https://doi.org/10.3390/plants15060856 - 10 Mar 2026

Abstract

Fruit size and weight are valuable characteristics for cherry breeders, mainly because of their higher market price. Several molecular markers have been developed in recent years and have been correlated with fruit weight. In cherries, FW_G2a was identified as a promising hotspot for [...] Read more.

Fruit size and weight are valuable characteristics for cherry breeders, mainly because of their higher market price. Several molecular markers have been developed in recent years and have been correlated with fruit weight. In cherries, FW_G2a was identified as a promising hotspot for fruit size and weight characteristics. Two markers flanking that region were taken into consideration in this study. The local sweet and sour cherry collection in Érd, Hungary, was analyzed using molecular markers to identify possible correlations between the markers and phenotypes. The duration of phenotypic observations varied from 3 years in sour cherry to 5 years in sweet cherry. In our study, we observed correlations between fruit size and weight and the molecular markers of our germplasm collection. We confirmed the previously published association of haplotypes 190–255 and 192–233 with large and small fruit size, respectively, in sweet cherry. Individual alleles of both markers were identified, showing moderate to strong correlations with large and small fruit size in sweet cherry. In tetraploid sour cherry, a higher number of unique allelic combinations were found due to the higher level of ploidy compared to sweet cherry. Individual alleles were detected with moderate positive correlations with fruit size, while one allele showed a strong negative correlation with fruit dimension-related traits. These markers were found to be useful for the characterization of fruit size characteristics, for population selection and for the differentiation of the Hungarian germplasm collection. Full article

(This article belongs to the Special Issue Advances in Fruit Tree Breeding, Pathogen Management and Chemical Profiling for Crop Improvement)

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14 pages, 1584 KB

Open AccessArticle

QTL-Seq Identifies Extra QTLs and Candidate Genes Controlling High Haploid Induction Rate in Maize

by Kanogporn Khammona, Abil Dermail, Yu-Ru Chen, Wanchana Aesomnuk, Thomas Lübberstedt, Samart Wanchana, Theerayut Toojinda, Siwaret Arikit, Khundej Suriharn and Vinitchan Ruanjaichon

Plants 2026, 15(6), 855; https://doi.org/10.3390/plants15060855 - 10 Mar 2026

Abstract

Double-haploid (DH) technology is a well-established method for speeding up the development of inbred lines in breeding programs. The major loci qhir1 and qhir8 are widely used in marker-assisted selection (MAS) to increase the haploid induction rate (HIR) in maize. However, previous studies [...] Read more.

Double-haploid (DH) technology is a well-established method for speeding up the development of inbred lines in breeding programs. The major loci qhir1 and qhir8 are widely used in marker-assisted selection (MAS) to increase the haploid induction rate (HIR) in maize. However, previous studies have shown that HIR can be unstable within populations, even in the presence of these two loci. To identify novel loci associated with HIR, we performed QTL-seq analysis on 337 S₂ haploid inducers (qhir1+/qhir8+) derived from crossing K8 with BHI306. The population exhibited HIR ranging from 0% to 31.16%. We sequence-bulked DNA from 30 extremely high-HIR lines (15.72–31.16%) and 30 extremely low-HIR lines (0–3.84%), identifying candidate intervals on chromosomes 2 (qHI2), 3 (qHI3), 6 (qHI6), and 8 (qHI8). Based on the QTL-seq results, 147 high-confidence SNPs/InDels (R² > 0.3) led to the analysis of 58 genes across three QTLs. We retrieved ten missense mutation SNPs from three genes (GRMZM2G359746 (qHI2), AC198725.4 (qHI3), and GRMZM2G091276 (qHI8)), which are located on chromosomes 2, 3, and 8. Regression analysis of these SNPs showed an R² range of 0.27 to 0.72. The two most highly associated SNPs were located in exon 2 of GRMZM2G359746 (qHI2) and in exon 5 of GRMZM2G091276 (qHI8), respectively. Marker–trait association analysis revealed that lines carrying favorable alleles at both loci, together with qhir1+ and qhir8+, exhibited significantly higher average HIR (12.77%) compared to those with unfavorable alleles (6.66%). These findings provide valuable markers for enhancing maternal haploid inducer breeding programs in maize. Full article

(This article belongs to the Collection Advances in Plant Breeding)

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23 pages, 22959 KB

Open AccessArticle

Lithological Inheritance Governs Spontaneous Vegetation Succession on Contaminated Soils and Indirectly Regulates Soil–Plant Uranium Transfer in High-Altitude Mine Wastelands, Southwest China

by Zhijun Wei, Yinquan Zhao, Linjun He, Guoyan Wang, Xinyu Hong, Kezhemo Ashuo, Sijian Zhou and Maoyuan Li

Plants 2026, 15(6), 854; https://doi.org/10.3390/plants15060854 - 10 Mar 2026

Abstract

High-altitude mine wastelands in Southwest China present formidable challenges for ecological rehabilitation due to extreme climatic stressors and multi-element contamination. Ecological restoration is closely related to soil environment. However, the mechanism by which parent material-induced heterogeneity governs spontaneous vegetation succession is still poorly [...] Read more.

High-altitude mine wastelands in Southwest China present formidable challenges for ecological rehabilitation due to extreme climatic stressors and multi-element contamination. Ecological restoration is closely related to soil environment. However, the mechanism by which parent material-induced heterogeneity governs spontaneous vegetation succession is still poorly understood. We established 36 plots (216 quadrats) to investigate the soil physical and chemical properties and vegetation restoration of propylite, porphyry and siltstone in the Xifanping Copper Mine, Sichuan Province. Furthermore, fifteen metal/metalloid elements (Au, Ag, Mo, W, Cu, Pb, Zn, Hg, As, U, Se, Cr, Sn, Ti, Total Fe₂O₃), soil pollution and vegetation structure were evaluated. The study area exhibited severe composite pollution (mean Nemerow integrated pollution index = 8.09), primarily driven by Au, Ag, Mo, W, and Cu. Vegetation surveys identified 34 vascular plant species from 12 families. Propylite-derived substrates supported significantly higher species richness, Shannon–Wiener diversity, and soil organic matter than porphyry and siltstone. Redundancy analysis (RDA) identified soil organic matter (SOM) and bulk density (BD) as dominant environmental filters, with SOM explaining 14.03% of community variance (p < 0.01). Two native pioneers, Potentilla supina and Cynoglossum wallichii, were identified as specialized uranium (U) accumulators with bioconcentration factors of 13.39 and 4.49, respectively. Lithological inheritance dictates early successional trajectories by influencing edaphic structure and nutrient bioavailability. The identified U-accumulating species provide a valuable genetic resource for implementing Assisted Natural Regeneration (ANR) and developing sustainable phytoremediation strategies in contaminated alpine ecosystems. Full article

(This article belongs to the Section Plant Ecology)

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12 pages, 5996 KB

Open AccessArticle

In Situ Visual Detection of TelMV, EAPV, and PaMoV in Passionfruit Using Reverse Transcription-Recombinase-Aided Amplification and CRISPR/Cas12a

by Cuiping Mo, Youcong Li, Jinqing Chen, Lihui Liu, Lixian Cui, Bixia Qin, Jianhe Cai, Huiting Xie and Zhanbiao Li

Plants 2026, 15(6), 853; https://doi.org/10.3390/plants15060853 - 10 Mar 2026

Abstract

As a tropical fruit of considerable economic importance, passionfruit (Passiflora edulis Sims) is extensively cultivated in the tropical and subtropical regions of China; however, the widespread incidence of viral diseases has significantly hampered the safety of its production. Rapid, sensitive, and [...] Read more.

As a tropical fruit of considerable economic importance, passionfruit (Passiflora edulis Sims) is extensively cultivated in the tropical and subtropical regions of China; however, the widespread incidence of viral diseases has significantly hampered the safety of its production. Rapid, sensitive, and visual detection of plant viruses is essential to effectively prevent and manage these viral diseases. In this study, we developed a visual detection system (displaying under blue light or UV) utilizing reverse transcription recombinase-aided amplification (RT-RAA) in conjunction with CRISPR/Cas12a to detect three viruses harmful to passionfruit production: telosma mosaic virus (TelMV), East Asian passiflora virus (EAPV), and passiflora mottle virus (PaMoV). Within this system, the optimal primer concentration for the RT-RAA reaction was determined to be 0.4 μM for all three viruses, with an optimal reaction temperature of 37 °C. The optimal reaction times were established as 20 min for TelMV, 15 min for EAPV, and 30 min for PaMoV. The entire detection process could be completed within 30 min without the need for sophisticated equipment or instruments. For TelMV and EAPV, the detection system demonstrated the capability to detect samples at a dilution of 10⁶, representing an approximately 10⁴-fold improvement over RT-PCR, while for PaMoV, it could identify samples at a dilution of 10⁶, representing an approximately 10²-fold improvement over traditional RT-PCR methods. These results confirm the successful development of the CRISPR/Cas12a-based detection systems. Subsequently, the system was applied for in situ detection of the three target viruses in field settings, yielding results that were fully consistent with laboratory-based RT-PCR assays, a consistency which underscores the system’s strong potential for field application in detecting important crop viruses. Full article

(This article belongs to the Section Plant Protection and Biotic Interactions)

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4 pages, 173 KB

Open AccessEditorial

Molecular Mechanisms Associated with Plant Tolerance Under Abiotic Stress—Second Edition

by Emilia Apostolova

Plants 2026, 15(6), 852; https://doi.org/10.3390/plants15060852 - 10 Mar 2026

Abstract

Abiotic environmental stressors are significantly exacerbated by climate change and negatively impact plant growth, development, and productivity [...] Full article

(This article belongs to the Special Issue Molecular Mechanisms Associated with Plant Tolerance upon Abiotic Stress—2nd Edition)

7 pages, 167 KB

Open AccessEditorial

Fast Forward the Future: What Are the Key Drivers in Intelligent Sensing for Agriculture?

by Hugo Moreno

Plants 2026, 15(6), 851; https://doi.org/10.3390/plants15060851 - 10 Mar 2026

Abstract

Driven by the fusion of advanced robotics and Artificial Intelligence (AI), the industry is evolving into a new era of “Agriculture 4 [...] Full article

(This article belongs to the Special Issue The Future of Artificial Intelligence and Sensor Systems in Agriculture)

19 pages, 20362 KB

Open AccessArticle

Genome-Wide Analysis of HIPP Genes and Functional Analysis of GsHIPP79 in Response to Alkaline Stress in Glycine soja

by Chengbo Zhang, Zichun Wei, Deqiang Ding, Zaib_un Nisa, Xiaoxia Jin and Chao Chen

Plants 2026, 15(6), 850; https://doi.org/10.3390/plants15060850 - 10 Mar 2026

Abstract

Heavy metal-associated isoprenylated plant protein (HIPP) family genes are known to be involved in plant development and stress responses. Even though the HIPPs have been identified and characterized in some plants, the roles of these genes in plant abiotic stress tolerance remain unclear [...] Read more.

Heavy metal-associated isoprenylated plant protein (HIPP) family genes are known to be involved in plant development and stress responses. Even though the HIPPs have been identified and characterized in some plants, the roles of these genes in plant abiotic stress tolerance remain unclear in G. soja (Glycine soja), especially in response to alkaline stress. In the present study, a total of 79 potential HIPP family genes were obtained in G. soja using the Hidden Markov Model. Bioinformatics analysis was used to explore their physicochemical properties, gene structure, phylogenetic relationships, cis-acting elements, chromosomal location and collinearity. Expression profiling showed that 18 HIPP family genes were displayed significantly different transcript levels under alkaline stress, among which GsHIPP79 was selected for functional characterization. The results showed that GsHIPP79 exhibited enhanced alkaline stress tolerance in transgenic Arabidopsis plants, as evidenced by it exhibiting higher chlorophyll contents, strengthening the antioxidant defense system, and regulating the expression of stress-responsive marker genes. Moreover, overexpression of GsHIPP79 in transgenic soybean hairy roots conferred enhanced alkaline stress tolerance. In conclusion, this study provided valuable information on HIPP family genes in G. soja and identified the positive roles of GsHIPP79 in response to alkaline stress tolerance. Full article

(This article belongs to the Special Issue Physiological and Molecular Mechanisms of Plant Resistance to Abiotic Stress—2nd Edition)

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