Diversity

13 pages, 4139 KB

Open AccessArticle

A New Ammonite Biostratigraphic Framework for Distal Urgonian Successions of North Provence and a Correlation with Southern Vercors

by Camille Frau, Anthony J.-B. Tendil and Cyprien Lanteaume

Diversity 2026, 18(3), 162; https://doi.org/10.3390/d18030162 (registering DOI) - 7 Mar 2026

Abstract

New ammonite discoveries from the south-facing flank of Mont Ventoux (southern France) provide robust and refined age constraints on the maximum northward progradation of Urgonian depositional environments in northern Provence during the late Barremian to early Aptian. The succession records distal Urgonian depositional [...] Read more.

New ammonite discoveries from the south-facing flank of Mont Ventoux (southern France) provide robust and refined age constraints on the maximum northward progradation of Urgonian depositional environments in northern Provence during the late Barremian to early Aptian. The succession records distal Urgonian depositional environments during the late Barremian, spanning from the Toxancyloceras vandenheckii to the upper Gerhardtia sartousiana Zone, followed by strongly progradational distal Urgonian deposits with an age interval from the terminal Barremian into the early Aptian. These new data permit an updated and simplified regional correlation of Urgonian successions across the Barremian–Aptian boundary in northern Provence and along the northern margin of the Vocontian Basin. Our correlations reveal clear, coeval sedimentary signals across both regions, emphasizing the regional synchronicity of Urgonian platform development at the basin scale. Full article

(This article belongs to the Special Issue Palaeontology of Ammonoids: Recent Advances)

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19 pages, 2975 KB

Open AccessArticle

Evolutionary Patterns of Microsatellite Distribution in Cricket Genomes: Insights from Comparative Genomics of Five Gryllidae Species

by Kanawat Promsomboon, Somjit Homchan and Yash Munnalal Gupta

Diversity 2026, 18(3), 161; https://doi.org/10.3390/d18030161 (registering DOI) - 6 Mar 2026

Abstract

Microsatellites or simple sequence repeats (SSRs) are valuable markers for understanding genome structure, function, and evolution. However, their distribution and characteristics remain largely unexplored in cricket species. We conducted a genome-wide identification and analysis of perfect (P-SSRs), compound (C-SSRs), and imperfect SSRs (I-SSRs) [...] Read more.

Microsatellites or simple sequence repeats (SSRs) are valuable markers for understanding genome structure, function, and evolution. However, their distribution and characteristics remain largely unexplored in cricket species. We conducted a genome-wide identification and analysis of perfect (P-SSRs), compound (C-SSRs), and imperfect SSRs (I-SSRs) across five cricket genomes. The total number of SSRs ranged from 2,350,765 to 3,299,527, representing 5.37–7.27% of the genomes. Abundance followed the pattern I-SSRs > P-SSRs > C-SSRs across genomic regions (genome, intergenic, intronic, and coding sequences). Total SSR number, length, abundance and density showed no significant correlation with genome size. Trinucleotide repeats were consistently the most common P-SSR type. The (AAT)_n motif predominated in genomes, intergenic, and introns, while (CCG)_n was most frequent in coding sequences. Consequently, AT-rich repeats dominated non-coding regions, whereas GC-rich repeats were enriched in coding sequences. Coefficient of variation analysis of repeat copy numbers revealed distinct trends in P-SSR distribution across genomic regions and species. Functional annotation of coding sequences containing P-SSRs indicated involvement in binding, signal transduction, and transcription. This study represents, to our knowledge, the first comprehensive subtribe-level comparative analysis of SSRs in crickets, providing new insights into their genomic architecture. Full article

(This article belongs to the Section Animal Diversity)

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18 pages, 3806 KB

Open AccessArticle

Rhizosphere Fungal Communities of Invasive vs. Native Plants in a Karst Ecosystem

by Jiawei Wu, Jiaguo Wang and Weijie Li

Diversity 2026, 18(3), 160; https://doi.org/10.3390/d18030160 - 5 Mar 2026

Abstract

Plant invasions severely threaten the stability and biodiversity of fragile ecosystems in karst areas. Elucidating the microbial mechanisms underlying the interactions between invasive plants and native plants in rhizosphere soil is crucial for preventing plant invasions. In this study, high-throughput sequencing was used [...] Read more.

Plant invasions severely threaten the stability and biodiversity of fragile ecosystems in karst areas. Elucidating the microbial mechanisms underlying the interactions between invasive plants and native plants in rhizosphere soil is crucial for preventing plant invasions. In this study, high-throughput sequencing was used to compare the differences in rhizosphere fungi between two invasive and native plants in the Guizhou karst region. These findings provide theoretical support for understanding the ecological impact of invasive plants and for developing ecological management strategies based on soil microorganisms. The results revealed the following: (1) A total of 16 soil samples were included in the study, which comprised 1 phylum, 50 classes, 112 orders, 245 families, 463 genera and 629 species. (2) No significant differences were observed in the Ace, Chao, Shannon, Simpson and Sobs indices of the rhizosphere fungal communities between invasive plants and native plants (p > 0.05). (3) At the phylum level, no significant difference was observed in the community compositions of invasive and native plants; the dominant phyla were Ascomycota, Mortierellomycota and Basidiomycota; at the genus level, there were significant differences in the community composition of invasive and native plants, and the relative abundances of Minimedusa, Monocillium and Gymnopus in the rhizosphere soil of invasive plants were significantly higher (p < 0.05). (4) Functional predictions based on FUNGuild indicated a higher relative abundance of saprotrophic fungi associated with invasive plants. Community assembly processes for both invasive and native plants were primarily governed by stochastic ecological processes (e.g., drift). These findings suggest that plant invasion is associated with shifts in the composition and potential ecological functions of rhizosphere fungal communities in the karst area. Full article

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19 pages, 11861 KB

Open AccessArticle

A Giant Halisaurine from the Late Maastrichtian of Morocco

by Nicholas R. Longrich and Nour-Eddine Jalil

Diversity 2026, 18(3), 159; https://doi.org/10.3390/d18030159 - 5 Mar 2026

Abstract

The Late Cretaceous deposits of Morocco have yielded one of the richest and most diverse assemblages of marine reptiles in the world, with the mosasaurids representing the dominant group. Among the most common mosasaurs are members of the subfamily Halisaurinae. Halisaurines ranged in [...] Read more.

The Late Cretaceous deposits of Morocco have yielded one of the richest and most diverse assemblages of marine reptiles in the world, with the mosasaurids representing the dominant group. Among the most common mosasaurs are members of the subfamily Halisaurinae. Halisaurines ranged in size from the relatively small Halisaurus, which reached 4–5 m in length, to the larger Pluridens serpentis, which may have reached 7.5 m in length. Here we report a new, giant species of Pluridens, Pluridens imelaki. The new Pluridens is characterized by a slender, rectangular snout, a T-shaped premaxilla–maxilla junction, interlocking premaxilla–maxilla joint, a prominent dorsal ridge on the premaxilla, an exceptionally long and slender mandible, a tooth count of ~25 dentary teeth, straight, triangular tooth crowns that are strongly bent back just above the tooth–root junction, a low coronoid process and a tall and slender retroarticular process. The skull is 1.25 m long, suggesting a body length of ~9 m or more, comparable in size to large predators such as Thalassotitan. Differences between P. imaleki and P. serpentis in the jaw and tooth structure, eye size and innervation of the rostrum, as well as overall size, suggest they had different foraging strategies and occupied distinct ecological niches. Pluridens imelaki reveals that Halisaurinae were not only more species-rich than previously recognized, but also exhibited greater diversity in tooth morphology, jaw shape, and body size than previously thought. Rather than simply being outcompeted by Mosasaurinae, the Halisaurinae staged a minor adaptive radiation in the Late Cretaceous and were important members of the ecosystem in low latitudes. Pluridens imelaki appears to have been exceptionally rare in the phosphates, being documented by only a single specimen among the many hundreds of mosasaur remains recovered over many years. This underscores how the species richness of the phosphates and other diverse assemblages is driven by rare taxa that are only revealed through extensive sampling. Full article

(This article belongs to the Special Issue Reptilian Response to Major Environmental Transitions: From Deep Time to the Anthropocene)

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17 pages, 4486 KB

Open AccessArticle

Relationship Between Macroinvertebrate Community Characteristics and Environmental Factors in the Han River Basin

by Xueyi Huang, Shengning Pan, Ting Li, Jiwei Zhang, Mingchun Zhou, Xuan Zhou and Jing Zhang

Diversity 2026, 18(3), 158; https://doi.org/10.3390/d18030158 - 5 Mar 2026

Abstract

As the largest tributary of the Yangtze River and a core area of the Middle Route of the South-to-North Water Diversion Project, the Han River Basin holds significant ecological importance regarding the impacts of land use and water environment changes on aquatic ecosystems. [...] Read more.

As the largest tributary of the Yangtze River and a core area of the Middle Route of the South-to-North Water Diversion Project, the Han River Basin holds significant ecological importance regarding the impacts of land use and water environment changes on aquatic ecosystems. Existing studies have mostly focused on local reaches of the upper or middle–lower Han River, and systematic investigations into the associations between macroinvertebrate communities and environmental factors at the entire basin scale remain scarce. The niche characteristics and environmental drivers of macroinvertebrate community structure in the Han River Basin, China, were evaluated using a variety of diversity metrics and statistical methods. The results showed that: (1) A total of 91 macroinvertebrate taxa were identified during 2022–2023, with Insecta as the dominant group. Species richness in the upstream reaches increased in 2023, and the degree of differentiation between the upstream and the middle–lower reaches was markedly weaker than that in 2022. (2) Significant interannual differences in macroinvertebrate community structure were detected (PERMANOVA, p < 0.05), and taxa such as Polypedilum sp., Orthocladius sp., and Gammaridae collectively accounted for 35.6% of the dissimilarity among communities. (3) The overall niche breadth of dominant taxa was relatively low, whereas niche overlap decreased significantly in 2023, indicating a community niche pattern characterized by “low competition–high differentiation”. (4) Total phosphorus (TP) and total nitrogen (TN) were the core water environmental factors driving changes in community structure, while forested land was the key land use factor, and their synergistic effects jointly regulated the composition and diversity of macroinvertebrate communities. Full article

(This article belongs to the Special Issue Freshwater Biodiversity Conservation and Ecological Restoration in Human-Dominated Landscapes)

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16 pages, 1411 KB

Open AccessArticle

Seasonal Dominance over Morphometric Effects in Regulating Antioxidant Defense in Two Freshwater Capoeta Species

by Muammer Kırıcı, Nurgül Şen Özdemir, Muharrem Güneş, Teoman Özgür Sökmen, Fatma Caf, Cebrahil Türk and Nurullah Demir

Diversity 2026, 18(3), 157; https://doi.org/10.3390/d18030157 - 3 Mar 2026

Abstract

Antioxidant defense systems in fish are highly sensitive to environmental variability and provide valuable indicators of physiological stress in aquatic ecosystems. This study evaluated the combined effects of seasonal variation, morphometric parameters (total length, total weight, and condition factor), sex, and species identity [...] Read more.

Antioxidant defense systems in fish are highly sensitive to environmental variability and provide valuable indicators of physiological stress in aquatic ecosystems. This study evaluated the combined effects of seasonal variation, morphometric parameters (total length, total weight, and condition factor), sex, and species identity on oxidative stress markers and antioxidant defense responses in Capoeta umbla and Capoeta trutta collected from the Karasu River (Türkiye). Fish were seasonally sampled between April 2023 and March 2024, and malondialdehyde (MDA) levels and the activities of key antioxidant enzymes, including superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), and glutathione reductase (GR), were analyzed in edible muscle tissues. Length–weight relationships and Fulton’s condition factor were calculated to describe growth patterns and physiological status. The results indicated that seasonal variation was the primary factor influencing oxidative stress responses and antioxidant defense patterns in both species. Higher oxidative stress levels and increased antioxidant enzyme activities were generally observed during the summer period, reflecting physiological responses to elevated environmental temperatures. Morphometric parameters and species identity showed comparatively weaker associations with antioxidant variability. Overall, the findings highlight the dominant role of seasonal environmental dynamics in regulating oxidative balance in freshwater Capoeta species and support the use of antioxidant biomarkers as effective tools for assessing ecosystem health under changing environmental conditions. Full article

(This article belongs to the Section Freshwater Biodiversity)

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11 pages, 1468 KB

Open AccessArticle

Correcting Waterhole-Driven Population Biases in Arid Ecosystems: A Case Study of Oryx (Oryx gazella)

by Erika P. Swenson, Murray Tindall, Nils Odendaal and Larkin A. Powell

Diversity 2026, 18(3), 156; https://doi.org/10.3390/d18030156 - 3 Mar 2026

Abstract

Transect surveys and distance sampling are widely used to estimate wildlife population densities, but these methods can be biased when animals aggregate near features such as waterholes or other resources that occur along survey routes. Using empirical data from the NamibRand Nature Reserve [...] Read more.

Transect surveys and distance sampling are widely used to estimate wildlife population densities, but these methods can be biased when animals aggregate near features such as waterholes or other resources that occur along survey routes. Using empirical data from the NamibRand Nature Reserve in Namibia, we developed spatial simulations to examine how clumping of oryx (Oryx gazella) near water sources affects density and population estimates. We simulated surveys along a 50 km transect and varied the proportion of the population concentrated at waterholes (5–20%). Our analyses from the simulated surveys show that such aggregation can cause substantial positive bias, as population estimates were inflated by 67% to 967% relative to the known population size. We evaluated two correction approaches: censoring observations and transect segments near waterholes and redistributing animals from waterholes across the landscape. Both methods reduced bias when applied to our simulated survey data, but censoring was simpler and consistently produced more accurate estimates. These findings demonstrate that nonrandom animal distributions near linear survey features can severely compromise distance sampling assumptions. Accounting for such biases is essential for producing reliable population estimates, particularly in arid and semi-arid systems where wildlife strongly congregates around limited water sources. Full article

(This article belongs to the Special Issue Diversity in 2026)

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24 pages, 7567 KB

Open AccessReview

Research on the Impact of Biodiversity in Tea Plantations on Tea Quality

by Qi Wu, Tiantian Wang, Jimei Cui, Yutong Wang, Lin Zhao, Yangnan Zhao, Xi Wu, Jiaqi Wang and Zhenyu Yun

Diversity 2026, 18(3), 155; https://doi.org/10.3390/d18030155 - 3 Mar 2026

Abstract

Tea plantation ecosystems, as typical human–natural integrated systems, rely on biodiversity to sustain yield, quality, and ecological sustainability. With the global popularization of ecological agriculture concepts, eco-oriented tea production has emerged as a core development direction for the tea industry. However, a systematic [...] Read more.

Tea plantation ecosystems, as typical human–natural integrated systems, rely on biodiversity to sustain yield, quality, and ecological sustainability. With the global popularization of ecological agriculture concepts, eco-oriented tea production has emerged as a core development direction for the tea industry. However, a systematic elucidation of the mechanisms by which tea plantation biodiversity modulates tea quality, alongside standardized assessment methodologies for this biodiversity, remains inadequate. This paper comprehensively synthesizes how genetic, species, and ecosystem diversity regulate the accumulation of tea polyphenols, amino acids, and aromatic compounds—key determinants of tea quality. It evaluates mainstream assessment frameworks and identifies DPSIR (Driving Forces-Pressure-State-Impact-Response) as the most comprehensive and practical option. This paper further dissects the impacts of genetic, ecosystem, and species diversity (the three core dimensions of tea garden biodiversity) on tea quality formation. Genetic diversity shapes metabolic traits; ecosystem diversity modulates secondary metabolism via microclimate and soil; and species diversity (plants, animals, microbes) exerts synergistic effects on nutrient cycling and pest control. All these collectively improve tea sensory quality, safety, and stability. Future research should focus on plant–microbe interactions, quantitative biodiversity–quality models, and precision ecological management, laying a theoretical foundation for sustainable, high-quality tea production. Full article

(This article belongs to the Section Plant Diversity)

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17 pages, 1949 KB

Open AccessArticle

Plant Diversity and Structural Patterns in Stanului Forest, Gemărtălui Valley, Romania

by Liviu Cristian Mărăcineanu and Florin Daniel Stamin

Diversity 2026, 18(3), 154; https://doi.org/10.3390/d18030154 - 2 Mar 2026

Abstract

This study provides the first comprehensive structural and diversity assessment of the Stanului Forest ecosystem since the last taxonomic survey conducted in 1987. The paper analyses the structural indices of biocoenosis and vegetation diversity in the Stanului Forest ecosystem (Gemărtălui Valley), in the [...] Read more.

This study provides the first comprehensive structural and diversity assessment of the Stanului Forest ecosystem since the last taxonomic survey conducted in 1987. The paper analyses the structural indices of biocoenosis and vegetation diversity in the Stanului Forest ecosystem (Gemărtălui Valley), in the hilly area of Oltenia (Romania), in Dolj County. Primary data were obtained using randomised sampling with frame squares, which ensured the random selection of sampling units and standardisation of the data collection process. The number of samples was equal (10) across all vegetation categories studied. The sampling area was 1 m² for herbaceous species and 100 m² for woody species. Structural indices (frequency, constancy, dominance index, index of relative significance, etc.), diversity indices (Shannon–Wiener, Gleason, Simpson), and statistical analyses were used to interpret the data. The results showed that from a taxonomic perspective, 5 families of woody species and 15 families of herbaceous species were identified. The presence of the invasive species (Robinia pseudoacacia) can negatively influence the ecological functions of the existing plant community. The species Quercus frainetto and Carpinus betulus accounted for 55.16% of the woody layer dominance. In the herbaceous layer, Carex sylvatica and Schedonorus giganteus recorded the highest dominance values. The Shannon–Wiener diversity index was 0.53 in the woody layer and 0.50 in the herbaceous layer. Full article

(This article belongs to the Special Issue 15th Anniversary of Diversity—Biodiversity, Conservation and Ecology of Animals, Plants and Microorganisms)

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26 pages, 3824 KB

Open AccessArticle

Ecological Impacts of Photovoltaic Infrastructure Construction on Coastal Salt Pan Ecosystems: A Case Study of Microbial Communities in the Tianjin’s “Salt–Solar–Fishery Synergy” System

by Haoran Ma, Yuqing Wang, Xinlu Zhang, Yong Dou, Xingliang Xu, Wenli Zhou and Hao Wu

Diversity 2026, 18(3), 153; https://doi.org/10.3390/d18030153 - 2 Mar 2026

Abstract

Against the backdrop of advancing the “dual carbon” goals (carbon peaking and carbon neutrality), the “fishery–photovoltaic complementary” model—integrating solar power generation with salt pan production—has been widely adopted in Tianjin. However, large-scale photovoltaic (PV) facility construction exerts complex impacts onsalt panns, a wetland [...] Read more.

Against the backdrop of advancing the “dual carbon” goals (carbon peaking and carbon neutrality), the “fishery–photovoltaic complementary” model—integrating solar power generation with salt pan production—has been widely adopted in Tianjin. However, large-scale photovoltaic (PV) facility construction exerts complex impacts onsalt panns, a wetland ecosystem of unique ecological value, by blocking sunlight, altering local microclimates, and regulating water evaporation. Currently, systematic field studies on the comprehensive effects of PV facilities onsalt pans ecosystems remain scarce, particularly those focusing on impacts on primary producers and key environmental factors. Pond sediments harbor the densest and most diverse aquatic microbial communities. In this study, sediment samples were collected from four typical ponds in Tianjin’salt panan region in April, July, and September 2024. Post sample processing, multiple statistical analyses were conducted, including alpha diversity indexing, species abundance clustering, and beta diversity analysis (non-metric multidimensional scaling, NMDS). The results showed the following: (1) Microbial communities existed in both PV-equipped and non-PV areas, indicating no significant correlation between PV presence and alpha diversity indices. (2) Species and genus compositions aggregated in PV-equipped areas with generally consistent community structures, whereas they displayed high dispersion in non-PV areas. This regulatory effect of PV facilities was relatively stable, with deviations only at a few sampling sites, confirming that PV presence significantly affects community composition patterns at both species and genus levels. (3) Cluster heatmap analysis revealed distinct seasonal variations in clustering relationships between sampling stations and microbial genera. Among dominant genera, only Desulfotignum was unaffected by PV facilities or seasonal changes, while the distribution of other dominant genera was significantly influenced by PV construction. Full article

(This article belongs to the Section Marine Diversity)

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20 pages, 2778 KB

Open AccessArticle

Avian Diversity and Complementarity in Yancheng Wetlands Driven by Habitat Gradient

by Yanming Sui, Chengjiao Ni, Feng Chen, Yihao Chen, Yu Wang, Yaming Heng, Chenxi Zhou, Wei Wei and Yanan Zhang

Diversity 2026, 18(3), 152; https://doi.org/10.3390/d18030152 - 1 Mar 2026

Abstract

To address knowledge gaps in urban wetlands’ role in sustaining avian diversity along migration corridors, this study systematically surveyed three Yancheng wetland parks with a distinct habitat gradient. Monthly surveys were conducted from January to December 2024 using fixed-width line transects and point [...] Read more.

To address knowledge gaps in urban wetlands’ role in sustaining avian diversity along migration corridors, this study systematically surveyed three Yancheng wetland parks with a distinct habitat gradient. Monthly surveys were conducted from January to December 2024 using fixed-width line transects and point counts, with three 300 m transects set in each park and all birds within 50 m of the transect line recorded, and Shannon–Wiener, Simpson, Pielou’s Evenness, and Margalef Richness indices were employed for quantitative analysis. A total of 83 bird species across 16 orders and 41 families were documented, including the National Class I Protected and Endangered Oriental Stork and three Class II nationally protected species (Black-winged Kite, Crested Goshawk, Common Kestrel). Fengyi Lake Park, with 71 species, served as a critical migratory waterbird hub. Yandu Wetland Park sustained community stability through high habitat heterogeneity, supporting specialized breeders, and Dongfang Wetland Park, with 34 urban adaptor-dominated species, provided key autumn pulsed resources for frugivores and granivores. This study identifies habitat heterogeneity as the primary driver of avian community differentiation and highlights that the ecological functions of urban wetlands are contingent on multi-habitat complementarity. We, therefore, advocate for prioritizing the construction of heterogeneous habitat structures in urban wetland planning, enhancing functional complementarity and connectivity among distinct wetland types, and preserving the continuity of migratory bird habitat corridors along the East Asian-Australasian Flyway. These findings furnish robust scientific evidence and actionable guidance for regional green space planning and biodiversity conservation. Full article

(This article belongs to the Section Biodiversity Conservation)

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20 pages, 2432 KB

Open AccessArticle

Hydrological Gradients Dominate Spontaneous Herbaceous Plant Community Assembly in Urban River Corridors: Evidence from Six Rivers in Changchun, China

by Luying Yue, Qi Guo, Xinyue Liang and Yuandong Hu

Diversity 2026, 18(3), 151; https://doi.org/10.3390/d18030151 - 1 Mar 2026

Abstract

The accelerated pace of urbanization has significant effects on the community composition, structure, regional distribution, and diversity characteristics of vegetation within urban river corridors. Spontaneous plants have strong environmental adaptability, high plasticity, and shorter life cycles; they also operate largely independently of human [...] Read more.

The accelerated pace of urbanization has significant effects on the community composition, structure, regional distribution, and diversity characteristics of vegetation within urban river corridors. Spontaneous plants have strong environmental adaptability, high plasticity, and shorter life cycles; they also operate largely independently of human control. As a result, they are widely distributed throughout urban river corridors, and their ability to respond rapidly to heterogeneous habitats within these corridors makes them an ideal subject for studying the reciprocal mechanisms between rapid urbanization and riverine biodiversity. Based on a survey of 208 plots across six river corridors in Changchun, China, we found that the hydrological gradient was the strongest predictor of spontaneous herbaceous community distribution among the environmental factors examined. A total of 181 native herbaceous plant species, belonging to 55 families and 140 genera, were recorded. The Asteraceae, Poaceae, Fabaceae, Lamiaceae, and Polygonaceae families dominated. TWINSPAN classification divided the native herbaceous plant communities into 11 types, with the dominant species being predominantly low-growing perennial herbaceous plants. Canonical correspondence analysis (CCA) ordination confirmed this pattern, showing that the community distribution from aquatic to terrestrial habitats primarily aligned along the first CCA axis (defined by water depth and canopy cover), while the second axis reflected gradients in anthropogenic disturbance and slope. Thus, even in intensively managed urban rivers, natural hydrological processes remain pivotal in shaping riparian plant community composition and enhancing biodiversity. This study provides a scientific foundation for the conservation and sustainable utilization of plant resources in urban river corridors. Full article

(This article belongs to the Section Plant Diversity)

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15 pages, 8602 KB

Open AccessArticle

The Effectiveness of Shell Bag Restoration in Enhancing Salt Marsh Expansion in Coastal Georgia

by Zachary Czoer, Cameron Brinton, Natalie Boydstun and John M. Carroll

Diversity 2026, 18(3), 150; https://doi.org/10.3390/d18030150 - 1 Mar 2026

Abstract

Salt marshes are intertidal ecosystems that provide valuable services like wave attenuation, nutrient cycling, and carbon sequestration. Unfortunately, due to a combination of factors linked to global climate warming and increased coastal development, expanses of salt marshes are being lost worldwide. This has [...] Read more.

Salt marshes are intertidal ecosystems that provide valuable services like wave attenuation, nutrient cycling, and carbon sequestration. Unfortunately, due to a combination of factors linked to global climate warming and increased coastal development, expanses of salt marshes are being lost worldwide. This has prompted coastal land managers to seek effective techniques to enhance salt marsh growth with changing environmental conditions. We examine how restoration of fringe oyster reefs, a commonly used technique to increase sediment accretion and erosion control in salt marshes, affects marsh migration and area change over time. Salt marsh vegetation movement was determined through analysis of aerial imagery collected by unmanned aerial vehicle (UAV) surveying before and in the months following restoration at a salt marsh island in Liberty County, GA, USA that underwent oyster reef restoration in September 2023 at three sites, each spanning ~25 m of shoreline. Results after one year showed all restoration sites experienced continued growth at greater rates than nearby unrestored control sites, despite environmental differences between sites. Our results provide evidence that oyster reef restoration may be a viable method for mitigating the loss of salt marshes in coastal Georgia. Full article

(This article belongs to the Special Issue Ecological Restoration, Functioning and Conservation of Coastal Wetlands)

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11 pages, 19603 KB

Open AccessArticle

First Record of Leiurus nigellus (Scorpiones: Buthidae) in Northern Saudi Arabia: Molecular and Morphological Insights from Ha’il Region, King Salman Bin Abdulaziz Royal Natural Reserve

by Abdulaziz M. Al-Amri, Mohammad A. Abdulhakeem, Abdulaziz R. Alqahtani, Ahmed M. Al-Malki and Wael M. Shohdi

Diversity 2026, 18(3), 149; https://doi.org/10.3390/d18030149 - 28 Feb 2026

Abstract

This study documents the first confirmed record of the Buthid scorpion Leiurus nigellus from Jabal Arnan in the Ha’il region, located within the King Salman Bin Abdulaziz Royal Natural Reserve (KSRNR) in the northwestern Kingdom of Saudi Arabia (KSA). This species was originally [...] Read more.

This study documents the first confirmed record of the Buthid scorpion Leiurus nigellus from Jabal Arnan in the Ha’il region, located within the King Salman Bin Abdulaziz Royal Natural Reserve (KSRNR) in the northwestern Kingdom of Saudi Arabia (KSA). This species was originally described by Abu Afifeh, Aloufi & Al-Saraireh (2023). This locality extends the known distribution range of L. nigellus by over 200 km southeast of the type locality in Al-Ula, Al Madinah province. A total of six specimens of L. nigellus were collected during fieldwork conducted between June 2024 and April 2025, including two adult males, one adult female, and three juveniles. The objective of this study was to confirm the taxonomic identity of Leiurus nigellus from a newly discovered locality using morphological examination and mitochondrial DNA analysis and documentation of its known geographic distribution. Adult specimens (one male and one female) were examined using comparative morphometric analysis following standard scorpion taxonomic protocols, confirming diagnostic traits consistent with the original species description. Meanwhile, habitat assessments indicated adaptation to semi-arid rocky and gravel substrates. Molecular analysis was conducted on one adult male using targeted mitochondrial 16S rRNA gene sequencing (Sanger method). Phylogenetic relationships were inferred using neighbor-joining and maximum-parsimony analyses, placing L. nigellus within the Arabian Leiurus clade with bootstrap-supported affinity to Arabian congeners and limited intraspecific divergence. The generated 16S rRNA sequence represents the first molecular record for L. nigellus and has been deposited in GenBank. Sexual dimorphism was evident in morphometric traits, but these differences reflect normal biological variation rather than taxonomic differentiation. The discovery of L. nigellus in northern Saudi Arabia emphasizes the importance of continued faunistic and genetic surveys in underexplored regions, both to refine species distributions and to inform conservation management of specialized desert arachnofauna. Full article

(This article belongs to the Topic Arthropod Biodiversity: Ecological and Functional Aspects, 2nd Edition)

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11 pages, 1678 KB

Open AccessCommunication

Reassessment of the Taxonomic Identity of Artemia (Crustacea: Anostraca) from Kyêbxang Co (Tibet): Evidence for Artemia sorgeloosi Rather than Artemia tibetiana

by Chaojie Yang, Zijian Chen, Alireza Asem, Amin Eimanifar, Chun-Yang Shen, Hongyue Zhang, Chuan Jia and Michael Wink

Diversity 2026, 18(3), 148; https://doi.org/10.3390/d18030148 - 28 Feb 2026

Abstract

Correct species identification is essential for understanding biodiversity and managing ecosystems. The bisexual Brine Shrimp Artemia tibetiana and Artemia sorgeloosi represent two regional endemic taxa on the Tibetan Plateau, yet the taxonomic status of several populations remains unresolved. In particular, the Artemia population [...] Read more.

Correct species identification is essential for understanding biodiversity and managing ecosystems. The bisexual Brine Shrimp Artemia tibetiana and Artemia sorgeloosi represent two regional endemic taxa on the Tibetan Plateau, yet the taxonomic status of several populations remains unresolved. In particular, the Artemia population from Kyêbxang Co (Tibet, China) has been inconsistently assigned to either A. tibetiana or A. sorgeloosi in recent ecological and genomic studies, lacking formal taxonomic evaluation. To resolve this ambiguity, we conducted a precise biosystematic assessment based on DNA analyses: In this study, we performed a taxonomic reassessment of the Kyêbxang Co Artemia population, based on complete mitochondrial genome sequences and mitochondrial gene COI haplotype analyses. Phylogenetic analysis consistently positioned the Kyêbxang Co population within the A. sorgeloosi clade, clearly separated from the polyphyletic A. tibetiana lineage. Genetic distance values corroborated this placement, revealing minimal divergence from A. sorgeloosi (0.31%) but substantial divergence from A. tibetiana (9.07%). The COI haplotype network further indicated an exclusive maternal gene pool shared with topotypic A. sorgeloosi. Collectively, these results provide conclusive molecular evidence that the Brine Shrimp population of Kyêbxang Co belongs to A. sorgeloosi, not A. tibetiana. Full article

(This article belongs to the Section Phylogeny and Evolution)

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15 pages, 3241 KB

Open AccessArticle

Climate Change-Driven Projections of Suitable Habitat for Phleum pratense Across China

by Jing Pang, Na He, Chunjuan Shi, Guangtao Meng, Qinghua Yan, Yingying Xiu, Xinxian Xie and Qi Wang

Diversity 2026, 18(3), 147; https://doi.org/10.3390/d18030147 - 28 Feb 2026

Abstract

In the context of global climate change, clarifying the effects of climatic factors on the potential distribution of forage grass species is critical for grassland development and ecological management. In this study, Phleum pratense was selected as the focal species, and an ensemble [...] Read more.

In the context of global climate change, clarifying the effects of climatic factors on the potential distribution of forage grass species is critical for grassland development and ecological management. In this study, Phleum pratense was selected as the focal species, and an ensemble species distribution modeling framework was developed using the Biomod2 platform. After excluding highly correlated environmental variables, 17 ecologically meaningful predictors were retained to project the potential habitat suitability patterns of P. pratense and their future dynamics. The results indicate that the ensemble model achieved high predictive accuracy. Annual mean UV-B radiation, mean temperature of the driest quarter, and precipitation of the coldest quarter were identified as the primary climatic factors shaping the potential distribution of P. pratense. Under current climatic conditions, highly suitable habitats occupy a relatively limited and fragmented area, whereas low- and moderately suitable habitats predominate. Under future climate scenarios, increasing emission levels are associated with an overall contraction of moderately and highly suitable areas, accompanied by a continuous expansion of unsuitable habitats. In addition, the centroid of highly suitable habitats is projected to shift northwestward. These findings suggest that climate change may substantially alter the potential suitable range of P. pratense by modifying key climatic gradients and stress-period conditions. Overall, this study provides a scientific basis for the utilization of P. pratense germplasm resources and the sustainable development of plateau grassland systems. Full article

(This article belongs to the Special Issue Plant Adaptation and Survival Under Global Environmental Change)

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16 pages, 1620 KB

Open AccessArticle

Impact of Distinct Management Regimes on Wintering Waterbird Communities in China’s Coal Mining Subsidence Wetlands

by Sen Yang, Kai Cao, Yuanyuan Wang, Wenning Shen, Tong Lin, Ningning Liu, Jing Li, Lingbo Ji, Huiping Chen, Yanying Xu, Bo Tang and Ying Li

Diversity 2026, 18(3), 146; https://doi.org/10.3390/d18030146 - 28 Feb 2026

Abstract

Natural wetland loss constitutes a primary threat to waterbirds worldwide, increasingly forcing them to rely on expanding artificial wetlands. Extensive underground coal mining across the North China Plain has created numerous subsidence wetlands, which could serve as important alternative habitats for migratory and [...] Read more.

Natural wetland loss constitutes a primary threat to waterbirds worldwide, increasingly forcing them to rely on expanding artificial wetlands. Extensive underground coal mining across the North China Plain has created numerous subsidence wetlands, which could serve as important alternative habitats for migratory and wintering waterbirds. However, the effects of different management regimes on waterbirds in these novel artificial wetlands remain poorly understood, hindering effective strategies for reconciling human development with waterbird conservation. Here, we conducted a long-term field survey (2017–2025) of wintering waterbirds across 15 subsidence wetlands under four distinct human management regimes in the Huaibei coal mining area. We recorded 22,712 waterbirds of 45 species. We found that high-intensity aquaculture and floating photovoltaic systems were associated with reduced waterbird diversity, increased community dissimilarity, altered species composition, and the loss of multiple threatened species from survey records. We also found that ecological aquaculture and unutilized wetlands may serve as favorable habitats as alternatives to natural wetlands. Our findings demonstrate that subsidence wetlands can provide vital wintering habitats when managed sustainably, but intensive development severely compromises their conservation value. Future research should integrate habitat variables and year-round surveys to optimize management strategies for these expanding artificial ecosystems. Full article

(This article belongs to the Special Issue Wetland Biodiversity and Ecosystem Conservation)

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16 pages, 4891 KB

Open AccessArticle

Molecular Phylogeny and Biogeography of the Cyrtodactylus chauquangensis Group

by Hanh Vu Minh Nguyen, Nghia Duy Pham, Anh Thi Ngoc Ho, Vinh Quang Luu, Truong Quang Nguyen, Cuong The Pham, Thomas Ziegler, Minh Duc Le and Hanh Thi Ngo

Diversity 2026, 18(3), 145; https://doi.org/10.3390/d18030145 - 27 Feb 2026

Abstract

The Cyrtodactylus chauquangensis species group is a large limestone karst radiation of bent-toed geckos with at least 28 nominal species and has a broad distribution range with seven species found in northwestern Thailand, five in south-central China, five in northern Laos and 11 [...] Read more.

The Cyrtodactylus chauquangensis species group is a large limestone karst radiation of bent-toed geckos with at least 28 nominal species and has a broad distribution range with seven species found in northwestern Thailand, five in south-central China, five in northern Laos and 11 in northern Vietnam. To trace the biogeographic pattern of this group, we reconstruct its phylogenetic relationships and evolutionary history using three mitochondrial genes and four nuclear genes. Our results show that the C. chauquangensis species group is monophyletic, which can be divided into at least seven subclades. In terms of biogeography, the group might have originated from the Northwest Uplands of the Indochina region, including northern Laos and part of northwestern Vietnam, during the early Miocene and subsequently dispersed into northwestern Thailand. It later colonized the northern Annamites, Northeast Lowland, Northeast Uplands, and South-central China. A majority of lineages within this group likely diverged during the Miocene epoch when the East Asian monsoon was developed and increased precipitation in the region. The changing climate might have promoted plant diversity and provided suitable habitats and food resources for members of the C. chauquangensis group. In addition, the elevated rate of precipitation probably accelerated the dissolution of the limestone substrate and profoundly influenced the development of the karst region. The results of our study further highlight the importance of this unique period of time in shaping evolutionary histories of many different taxonomic groups in the region. Full article

(This article belongs to the Section Animal Diversity)

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17 pages, 1845 KB

Open AccessArticle

Freshwater Molluscan Assemblages in Upper Reaches of the Chi River, North-Eastern Thailand and Its Relationship of Physicochemical Habitat

by Benchawan Nahok, Chanidaporn Tumpeesuwan, Sakboworn Tumpeesuwan and Utain Chanlabut

Diversity 2026, 18(3), 144; https://doi.org/10.3390/d18030144 - 27 Feb 2026

Abstract

The Chi River Basin in northeastern Thailand is the country’s second-largest basin and a major tributary of the Mekong River, which is a regional hotspot for freshwater mollusc diversity. However, many of its sub-tributaries remain poorly studied. This study investigated molluscan diversity in [...] Read more.

The Chi River Basin in northeastern Thailand is the country’s second-largest basin and a major tributary of the Mekong River, which is a regional hotspot for freshwater mollusc diversity. However, many of its sub-tributaries remain poorly studied. This study investigated molluscan diversity in the upper Chi River and examined relationships between assemblage structure and physicochemical habitat factors. Quantitative quadrat sampling was conducted at 11 stations along a 100 km reach, and community–environment linkages were analyzed using cluster analysis and canonical correspondence analysis (CCA). A total of 2734 individuals representing 25 taxa (12 gastropods, 13 bivalves) were recorded. Three distinct assemblages—Upstream, Midstream, and Downstream—were identified along the longitudinal gradient. CCA indicated that flow velocity, total dissolved solids (TDS), and dissolved oxygen (DO) were the primary predictors of assemblage structure (p < 0.01), jointly explaining 59.5% of community variation. Upstream reaches were dominated by Thiaridae (Tarebia, Brotia), midstream sections by Corbicula, and downstream areas exhibited the highest diversity, characterized by large unionid mussels. This study provides the first quantitative evidence of clear longitudinal zonation in the upper Chi River and establishes essential baseline data for conservation and management in this overlooked, biodiversity-rich basin. Full article

(This article belongs to the Special Issue Advances in Freshwater Mollusk Research)

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