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Molecular and Morphological Analyses for Delimiting Species Boundaries: The Case of Sclerodermus cereicollis Kieffer, 1904 (Hymenoptera: Bethylidae)
Sea Slugs (Mollusca, Gastropoda, Heterobranchia) from the Medes Islands (Costa Brava, NE Spain): Biodiversity and Ecological Study over a Decade
Habitat and Conservation Assessment of Annual Killifishes of the Genus Xenurolebias (Rivulidae: Cynolebiinae) from Coastal Floodplains, Including the First Record South of the Rio Doce, Southeastern Brazil
New Insights in the Helicellini Ihering, 1909 with Description of Kherattolactea gen. nov. and the First Record of Orexana Chueca, Gómez-Moliner, Madeira & Pfenninger, 2018 from Algeria
Updated List of Oklahoma Tiger Beetles (Coleoptera: Cicindelidae) with Notes on Their Distribution and Conservation Status

Journal Description

Diversity

Diversity is a peer-reviewed, open access journal on the science of biodiversity from molecules, genes, populations, and species, to ecosystems and is published monthly online by MDPI.

Open Access— free for readers, with article processing charges (APC) paid by authors or their institutions.
High Visibility: indexed within Scopus, SCIE (Web of Science), PubAg, GEOBASE, CAPlus / SciFinder, and other databases.
Journal Rank: JCR - Q2 (Biodiversity Conservation) / CiteScore - Q1 (Agricultural and Biological Sciences (miscellaneous))
Rapid Publication: manuscripts are peer-reviewed and a first decision is provided to authors approximately 17.1 days after submission; acceptance to publication is undertaken in 2.9 days (median values for papers published in this journal in the first half of 2025).
Recognition of Reviewers: reviewers who provide timely, thorough peer-review reports receive vouchers entitling them to a discount on the APC of their next publication in any MDPI journal, in appreciation of the work done.
Diversity is a companion journal of Fossil Studies.
Journal Cluster of Ecosystem and Resource Management: Forests, Diversity, Fire, Conservation, Ecologies, Biosphere and Wild.

Impact Factor: 2.1 (2024); 5-Year Impact Factor: 2.3 (2024)

Imprint Information Journal Flyer Open Access ISSN: 1424-2818

Latest Articles

27 pages, 17255 KB

Open AccessArticle

Spatial Prioritization for the Zonation of a Reef System in a New Remote Marine Protected Area in the Southern Gulf of Mexico

by Juan Emanuel Frías-Vega, Rodolfo Rioja-Nieto, Erick Barrera-Falcón, Carlos Cruz-Vázquez and Lorenzo Alvarez-Filip

Diversity 2025, 17(10), 708; https://doi.org/10.3390/d17100708 (registering DOI) - 13 Oct 2025

Coral reef ecosystems are biodiversity hotspots that provide essential ecological and environmental services but are increasingly threatened by anthropogenic pressure and climate change. Effective conservation of reef systems within Marine Protected Areas (MPAs) can be enhanced using spatially explicit approaches that integrate habitat [...] Read more.

Coral reef ecosystems are biodiversity hotspots that provide essential ecological and environmental services but are increasingly threatened by anthropogenic pressure and climate change. Effective conservation of reef systems within Marine Protected Areas (MPAs) can be enhanced using spatially explicit approaches that integrate habitat mapping and ecological metrics at seascape scales. In this study, we characterized the benthic seascape of Cayo Arenas and identified optimal priority conservation zones in one of the core zones of the recently established Southern Gulf of Mexico Reefs National Park (SGMRNP). In July 2023, ground-truthing was performed to quantify the cover of sand, calcareous matrix, macroalgae, hard corals and octocorals. Cluster analysis of quantitative data and ecological similarity between classes was used to identify the main benthic habitat classes. Object-based and supervised classification algorithms on a PlanetScope image were used to construct a thematic map of the benthic reef system. Based on the thematic map, habitat connectivity, β-diversity, patch compactness, and availability for commercial species were estimated. In addition, a benthic change analysis (2017–2013), based on the spectral characteristics of PlanetScope images, was performed. The layers obtained were then used to perform an iterative weighted overlay analysis (WOA) using 126 combinations. Six main habitat classes, with different coverages of hard corals, calcareous matrix, macroalgae, and sand, were identified. Habitats with calcareous matrix and sandy substrates dominated the seascape. High habitat compactness, connectivity, and β-diversity values were observed, suggesting habitat stability and ecologically dynamic areas. Based on the WOA, eight optimal priority areas for conservation were recognized. These areas are characterized by heterogeneous habitats, moderate coral cover, and high connectivity. We provide a spatially explicit approach that can strengthen conservation planning within the SGMRNP and other MPAs, particularly by assisting zonation and sub-zonation processes. Full article

(This article belongs to the Special Issue Undersea Refuges: Functional Ecology and Biodiversity of Coral Reef Ecosystems)

18 pages, 3258 KB

Open AccessArticle

Phyto- and Zooplankton Diversity Under Land Use and Water Quality Dynamics in the Jialing River, China

by Xiaopeng Tang, Yiling Huang, Chang Chen, Haoyun He, Qiang Qin, Fei Xu and Fubin Zhang

Diversity 2025, 17(10), 707; https://doi.org/10.3390/d17100707 (registering DOI) - 13 Oct 2025

Understanding the mechanisms that maintain biodiversity is crucial for effective conservation in riverine ecosystems. However, the direct and indirect mechanisms by which land use patterns and water quality parameters influence plankton α- and β-diversity remain poorly elucidated. Here, we undertook a [...] Read more.

Understanding the mechanisms that maintain biodiversity is crucial for effective conservation in riverine ecosystems. However, the direct and indirect mechanisms by which land use patterns and water quality parameters influence plankton α- and β-diversity remain poorly elucidated. Here, we undertook a comprehensive survey of plankton communities across the Jialing River basin. Our results showed that Bacillariophyta and Chlorophyta were the dominant phytoplankton groups, whereas Protozoa and Copepoda predominated among zooplankton. Redundancy analysis identified dissolved oxygen and total phosphorus as key environmental factors shaping plankton community structure. Additionally, random forest models indicated that anthropogenic stressors exerted consistent effects on both α- and β-diversity of phytoplankton. Importantly, the decomposition of β-diversity revealed that species turnover constituted the major component, underscoring the importance of basin-scale management approaches. Structural equation modeling further demonstrated that land use practices predominantly affected phytoplankton β-diversity indirectly via water quality alterations, with a relatively weak direct effect. In contrast, neither the direct nor indirect effects of land use were significant for zooplankton communities. These findings suggest that phytoplankton may serve as more reliable bioindicators of anthropogenic disturbance than zooplankton in this freshwater system. Moreover, our findings highlight the central role of water quality in regulating phytoplankton diversity responses to environmental change. Consequently, we recommend that conservation strategies in the Jialing River basin focus on water quality monitoring and the mitigation of its ecological effects. Full article

(This article belongs to the Section Freshwater Biodiversity)

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22 pages, 6295 KB

Open AccessArticle

The Multipartite Mitogenome of Camellia sinensis cv. Xinyang10 Reveals Frequent Reorganization and Hints at Phylogeographic History

by Ming-Hui Yan, Yan-Rong Du, Wei Tong, Jia-Meng Su, Guo-Qing Pu, Lu-Miao Yan, Tong-Tong Zhu and Wen-Wen Wang

Diversity 2025, 17(10), 705; https://doi.org/10.3390/d17100705 (registering DOI) - 11 Oct 2025

Camellia sinensis cv. Xinyang10 is a nationally recognized elite tea cultivar selected from the Xinyang drought-resistant population, valued for its notable cold tolerance and broad adaptability. In this study, we present the first complete assembly and annotation of its mitogenome. The mitogenome features [...] Read more.

Camellia sinensis cv. Xinyang10 is a nationally recognized elite tea cultivar selected from the Xinyang drought-resistant population, valued for its notable cold tolerance and broad adaptability. In this study, we present the first complete assembly and annotation of its mitogenome. The mitogenome features a multipartite structure, consisting of a circular chromosome (798,917 bp) and a linear chromosome (46,159 bp), harboring a total of 74 genes. We identified extensive repetitive sequences (244 simple sequence repeats and 998 long sequence repeats), 211 RNA editing sites, and 16,614 bp of chloroplast-derived DNA, indicating a highly dynamic genome. Positive selection was detected in nad1 and ccmFC. Phylogenetic analysis based on mitochondrial SNP markers placed C. sinensis Xinyang10 closest to C. sinensis var. pubilimba. Notably, a phylogeny reconstructed based on mitogenomic collinearity displayed a distinct geographical pattern, supporting the hypothesized westward-to-eastward migration route of tea plants from southwestern China. These findings provide valuable genomic resources and demonstrate the utility of the mitogenome in understanding the evolutionary history of tea plants. Full article

(This article belongs to the Section Plant Diversity)

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24 pages, 4004 KB

Open AccessArticle

Genetic Monitoring of the Endangered Acipenser dabryanus Using a High-Resolution MNP System

by Lu Cai, Wei Jiang, Zhiwei Fang, Hai Peng, Hao Chen, Renjing Wan, Lifen Gao, Baolong Zhang, Zilan Xiao, Sha Li, Lun Li, Lihong Chen, Huiyin Song, Tiantian Li and Junfei Zhou

Diversity 2025, 17(10), 704; https://doi.org/10.3390/d17100704 (registering DOI) - 11 Oct 2025

Acipenser dabryanus, once abundant in China’s freshwater ecosystems, is now extinct in the wild. Effective genetic tools are urgently needed to support conservation efforts under the Yangtze River Protection Law and the 10-year fishing ban. Traditional molecular markers (e.g., COI, SSR, [...] Read more.

Acipenser dabryanus, once abundant in China’s freshwater ecosystems, is now extinct in the wild. Effective genetic tools are urgently needed to support conservation efforts under the Yangtze River Protection Law and the 10-year fishing ban. Traditional molecular markers (e.g., COI, SSR, SNP) often lack sufficient resolution for fine-scale population assessment. Here, we developed a high-resolution Multiple-Nucleotide Polymorphism (MNP) system for A. dabryanus, comprising 424 newly developed, highly polymorphic markers optimized for multiplex PCR and high-throughput sequencing. The MNP system demonstrated excellent performance in individual fin tissue samples, successfully distinguishing Acipenser sinensis and Acipenser ruthenus individuals from the A. dabryanus population. In addition, 41 characteristic alleles specific to A. dabryanus were further identified. Across samples, it achieved >90% MNP locus detection rate, with an average of 7.48 alleles per locus, 66.5% heterozygosity, >98% reproducibility, and 99% accuracy. A strong correlation was observed between DNA concentration and spike-in-based copy numbers (R² > 0.99), and sensitivity analysis confirmed reliable detection at ~1 copy/reaction. Application of the system across 97 samples, including 51 A. dabryanus tissue samples and 46 water environmental samples, revealed clear population structure with an average genetic differentiation of 70.45%, highlighting substantial genetic diversity within the sampled populations. Based on the above experimental results, the high-resolution MNP system has the potential to enable construction of population-specific allelic genotypes to distinguish wild individuals from released ones and, when applied to tissue and eDNA samples, to facilitate monitoring of migration pathways and habitat connectivity. Such applications could provide essential genetic information to evaluate release programs, guide conservation strategies, and inform habitat restoration for the recovery of A. dabryanus. Full article

(This article belongs to the Special Issue Genetic Diversity, Ecology and Conservation of Endangered Species—2nd Edition)

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18 pages, 1722 KB

Open AccessArticle

Transformation of Phytoplankton Communities in the High Arctic: Ecological Properties of Species

by Larisa Pautova, Vladimir Silkin, Marina Kravchishina and Alexey Klyuvitkin

Diversity 2025, 17(10), 703; https://doi.org/10.3390/d17100703 - 8 Oct 2025

During the 84th cruise of the R/V Akademik Mstislav Keldysh in August 2021, patterns of phytoplankton composition transformation were revealed along a northward gradient. The study involved three transects in the Fram Strait and adjacent Arctic waters: a southern transect (from the Barents [...] Read more.

During the 84th cruise of the R/V Akademik Mstislav Keldysh in August 2021, patterns of phytoplankton composition transformation were revealed along a northward gradient. The study involved three transects in the Fram Strait and adjacent Arctic waters: a southern transect (from the Barents Sea shelf to the Greenland shelf), a middle transect across the Fram Strait, and a northern transect along the ice edge. Ten species of diatoms and eleven of dinoflagellates were identified, and their ecological preferences were characterized by determining the minimum, maximum, mean, and median values for abundance, biomass, depth of the biomass maximum, salinity, temperature, and the concentrations and ratios of nitrogen, phosphorus, and silicon. Significant gradients in temperature, salinity, silicon, and nitrogen concentrations were recorded along the south–north direction in the study area. The phytoplankton community responds to these changing factors through restructuring. Dinoflagellates predominantly dominate the southern and middle transects, whereas large diatoms make a substantial contribution to the phytoplankton biomass in the northern transect. Diatom biomass is determined by nitrogen concentration. The dependence of dinoflagellate biomass on that of small flagellates confirms the importance of mixotrophic nutrition. A hypothesis is proposed that the most probable criterion for the selective selection of diatoms northward is the half-saturation constant for nitrogen uptake, while for dinoflagellates, it is temperature. Full article

(This article belongs to the Section Marine Diversity)

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21 pages, 2607 KB

Open AccessArticle

Drivers of Alpine Mire Vegetation at Their Range Limit

by Aaron Pérez-Haase and Josep M. Ninot

Diversity 2025, 17(10), 702; https://doi.org/10.3390/d17100702 - 8 Oct 2025

Mires are fragile ecosystems in which plant communities are structured by complex interactions among hydrological regimes and groundwater properties. Although extensively studied in boreal and temperate regions, their environmental drivers in southern European mountains remain poorly understood. We investigated five complex mires in [...] Read more.

Mires are fragile ecosystems in which plant communities are structured by complex interactions among hydrological regimes and groundwater properties. Although extensively studied in boreal and temperate regions, their environmental drivers in southern European mountains remain poorly understood. We investigated five complex mires in the Pyrenees, sampling 156 plots of vascular plants and bryophytes while measuring water table dynamics and groundwater chemistry over two years. Vegetation was classified into six main groups, including acid and alkaline fens, transition mires and Sphagnum hummocks. Ordination analyses (tb-PCA and RDA) revealed that mean water table depth, groundwater calcium and silicon content, and pH were the most important determinants of floristic composition. Bryophytes responded primarily to pH, whereas vascular plants were more influenced by water table variables, reflecting functional trait differences. Despite these environmental effects, spatial structure explained a comparable or greater proportion of variance, especially for vascular plants, underscoring the roles of local species pools, dispersal limitation, and site history in shaping community patterns. Establishing a reliable baseline is crucial for interpreting the distribution patterns of mire vegetation. Our results demonstrate that both environmental gradients and spatial processes are fundamental to understanding mire vegetation and highlight the importance of analyzing plant taxonomic groups separately. Full article

(This article belongs to the Special Issue Wetland Ecosystems: Diversity, Threats, Resilience and Adaptation in the Context of Increased Climate Change)

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16 pages, 2224 KB

Open AccessArticle

Dynamic Accumulation and Bio-Mediated Fragmentation of Microplastics in the Digestive System of Red Swamp Crayfish (Procambarus clarkii)

by Yueyue Huang, Qiqi Li, Xinyu Xiang, Jingyu Jiang, Jiong Li, Huili Chen, Ming Zhang and Binsong Jin

Diversity 2025, 17(10), 701; https://doi.org/10.3390/d17100701 - 8 Oct 2025

The dynamic behavior and biologically mediated transformation of microplastics (MPs) in crustaceans remain insufficiently explored in aquatic ecotoxicology. In this study, we employed the red swamp crayfish (Procambarus clarkii) as a model organism to systematically investigate the accumulation, distribution, fragmentation, and [...] Read more.

The dynamic behavior and biologically mediated transformation of microplastics (MPs) in crustaceans remain insufficiently explored in aquatic ecotoxicology. In this study, we employed the red swamp crayfish (Procambarus clarkii) as a model organism to systematically investigate the accumulation, distribution, fragmentation, and excretion kinetics of MPs within its digestive system under controlled conditions. We exposed crayfish to fluorescent polystyrene microplastics (50 μm) at a high concentration (100,000 particles/L), which exceeded typical environmental levels but was necessary to track accumulation and fragmentation dynamics within the experimental timeframe, and dissections were performed at 24, 48, and 96 h. Spatiotemporal patterns and morphological changes in MPs were analyzed using advanced microscopic imaging techniques. The results revealed a peak in MP accumulation at 48 h, followed by a decrease at 96 h, suggesting a dynamic equilibrium between ingestion and elimination. Over time, particle sizes decreased significantly, a result consistent with microplastic fragmentation. Additionally, feed supplementation during depuration was associated with increased fragmentation efficiency. Morphological analysis showed digestion-induced changes such as surface wrinkling, irregular edges, and particle shrinkage. These findings elucidate the transformation mechanisms of microplastics within crustaceans and provide crucial insights for assessing their potential ecological risks and fate as pollutants. Based on results from high-concentration short-term laboratory exposure studies, this paper further indicates the necessity for in-depth exploration into the long-term dynamics of microplastics within aquatic organisms and the potential for their transfer across trophic levels. Full article

(This article belongs to the Special Issue Diversity and Biogeography of Crustaceans in Continental Waters)

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16 pages, 3154 KB

Open AccessReview

Rhodolith Diversity in Panama: A Baseline for Future Research and Conservation Actions

by Noemí León, Cindy Fernández-García, Brian Wysor, Iván A. Valdespino and Edgardo Díaz-Ferguson

Diversity 2025, 17(10), 700; https://doi.org/10.3390/d17100700 - 8 Oct 2025

Rhodoliths are calcareous red algae considered indicators of ocean acidification and key biodiversity hotspots due to their ability to host a variety of species within their three-dimensional structures. This work aims to review the available scientific literature on rhodolith-forming species: reports from literature, [...] Read more.

Rhodoliths are calcareous red algae considered indicators of ocean acidification and key biodiversity hotspots due to their ability to host a variety of species within their three-dimensional structures. This work aims to review the available scientific literature on rhodolith-forming species: reports from literature, the Symbiota digital taxonomic inventory, field observations, and nucleotide databases. A total of 21 species is reported, predominantly from the Corallinaceae family and the Lithophylloideae subfamily. Rhodoliths have been reported in Bocas del Toro, the Gulf of Chiriqui, Coiba National Park (PNC), the Gulf of Panama, and at the Las Perlas Archipelago. This review represents the first step in raising awareness about the presence of these organisms along Panama’s coast and advocating for their inclusion in the management plans of protected areas, such as PNC, a UNESCO World Heritage Site, where rhodoliths are not yet part of the recorded algae species list or the park’s conservation targets, despite their ecological relevance. Knowledge remains limited, and their conservation status is uncertain, but the increasing sampling efforts and integration of morphological and molecular studies will open new opportunities to improve the estimation of rhodolith diversity in Panama. Full article

(This article belongs to the Section Marine Diversity)

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16 pages, 3913 KB

Open AccessArticle

The Invasive Red Swamp Crayfish (Procambarus clarkii) in the Scientific Literature Using a Text Mining and Topic Modelling Approach

by Cinzia Bergamino, Simone Lioy, Giuseppe Esposito, Paolo Pastorino, Marino Prearo and Benedetto Sicuro

Diversity 2025, 17(10), 699; https://doi.org/10.3390/d17100699 - 7 Oct 2025

The red swamp crayfish (Procambarus clarkii) is the most widely introduced crayfish species worldwide. Its spread causes massive environmental impacts on native species and ecosystems. Owing to its commercial value and impacts in introduced countries, the literature on P. clarkii has [...] Read more.

The red swamp crayfish (Procambarus clarkii) is the most widely introduced crayfish species worldwide. Its spread causes massive environmental impacts on native species and ecosystems. Owing to its commercial value and impacts in introduced countries, the literature on P. clarkii has increased exponentially, making necessary studies for synthesising the collected information. In this study, a text mining and topic modelling approach was used to analyse the scientific literature on P. clarkii as an invasive species, to identify the interests and trends of research lines through time and space. A keyword-based search of research databases was performed, and the abstracts of 519 articles were analysed to identify the most characterising terms. These included both descriptive terms of the species and terms related to its invasiveness and impacts. The analysis of the scientific literature allowed us to identify 14 research topics focusing on the ecological impacts of P. clarkii and its geographical distribution, with a growing interest in invasion mechanisms and dispersal pathways. On the contrary, management studies are less abundant, despite their scientific value is highlighted by their increasing number of citations. This reflects the fact that most management-related studies are found in the grey literature and are therefore underrepresented in the scientific literature. The limited accessibility to data and the complexity of control strategies are obstacles to the effective management of this species. Improvement in information sharing through the creation of digital platforms that support distribution data suitable for modelling species spread, and the integration of knowledge from non-academic sources may help fill current knowledge gaps and provide new perspectives for the management of P. clarkii. Full article

(This article belongs to the Section Freshwater Biodiversity)

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19 pages, 916 KB

Open AccessReview

The Mechanisms of Sphagneticola trilobata Invasion as One of the Most Aggressive Invasive Plant Species

by Hisashi Kato-Noguchi and Midori Kato

Diversity 2025, 17(10), 698; https://doi.org/10.3390/d17100698 - 6 Oct 2025

Sphagneticola trilobata (L.) Pruski has been introduced to many countries due to its ornamental and economic value. However, it has been listed in the world’s 100 worst alien invasive species due to its invasive nature. This species easily escapes cultivation and forms dense [...] Read more.

Sphagneticola trilobata (L.) Pruski has been introduced to many countries due to its ornamental and economic value. However, it has been listed in the world’s 100 worst alien invasive species due to its invasive nature. This species easily escapes cultivation and forms dense ground covers. It reproduces asexually through ramet formation from stem fragments. It also produces a large number of viable seeds that establish extensive seed banks. The movement of stem fragments and the dispersal of seeds, coupled with human activity, contribute to its short- and long-distance distribution. S. trilobata grows rapidly due to its high nutrient absorption and photosynthetic abilities. It exhibits high genetic and epigenetic variation. It can adapt to the different habitats and tolerate various adverse environmental conditions, including cold and high temperatures, low and high light irradiation, low nutrient levels, waterlogging, drought, salinity and global warming. S. trilobata has powerful defense systems against herbivory and pathogen infection. These systems activate the jasmonic acid signaling pathway, producing several defensive compounds. This species may also acquire more resources through allelopathy, which suppresses the germination and growth of neighboring plants. These life history traits and defensive abilities likely contribute to its invasive nature. This is the first review to focus on the mechanisms of its invasiveness in terms of growth, and reproduction, as well as its ability to adapt to different environmental conditions and defend itself. Full article

(This article belongs to the Special Issue Ecology, Distribution, Impacts, and Management of Invasive Plants)

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10 pages, 897 KB

Open AccessArticle

Leaf Stoichiometric Characteristics of Three Dominant Plant Species in the Water–Land Ecotone

by Xiaolong Bai, Wangjun Li, Shun Zou, Bin He and Xiaohui Xue

Diversity 2025, 17(10), 697; https://doi.org/10.3390/d17100697 - 4 Oct 2025

Ecological stoichiometry, as a discipline investigating plant elemental coupling mechanisms, has become a research focus across various ecosystems. However, few studies have examined plant stoichiometric characteristics in the water–land ecotone of plateau karst lake wetlands. It remains unclear whether foliar nutrient contents and [...] Read more.

Ecological stoichiometry, as a discipline investigating plant elemental coupling mechanisms, has become a research focus across various ecosystems. However, few studies have examined plant stoichiometric characteristics in the water–land ecotone of plateau karst lake wetlands. It remains unclear whether foliar nutrient contents and stoichiometric ratios in this transitional zone vary with flooding intensity. This study established three sampling gradients (near-water area, middle area, and far-water area) within the water–land ecotone of Caohai Lake wetland in Guizhou Plateau, measuring nutrient concentrations along with their stoichiometric ratios in leaves of three dominant plant species. The results revealed significant interspecific differences in leaf nitrogen (N), phosphorus (P), potassium (K), calcium (Ca) concentrations and N:P ratios among the three dominant species, while significant spatial variations were observed in N concentration and the C:N ratio across sampling locations. Correlation analysis demonstrated significant positive relationships among leaf N, P, and K concentrations, all showing negative correlations with C concentration. Phragmites australis exhibited significantly lower C:N and N:P ratios compared to Scirpus validus and Juncus effusus, suggesting its growth advantage through rapid nutrient acquisition. This species may serve as an efficient phytoremediator for N and P absorption from both soil and water. These findings provide valuable references for vegetation selection in constructed wetlands. Full article

(This article belongs to the Section Plant Diversity)

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14 pages, 5040 KB

Open AccessArticle

The Diversity Pattern of Two Endangered Dung Beetles in China Under the Influence of Climate Change

by Nina Zhang, Yijie Tong, Lulu Li, Ming Lai, Xinpu Wang and Ming Bai

Diversity 2025, 17(10), 696; https://doi.org/10.3390/d17100696 - 4 Oct 2025

Comprehending the effects of climate change on the range of endangered species is essential for formulating successful conservation strategies. This research examines two nationally protected dung beetle species (Heliocopris dominus and Heliocopris bucephalus) in China to forecast their probable habitat range [...] Read more.

Comprehending the effects of climate change on the range of endangered species is essential for formulating successful conservation strategies. This research examines two nationally protected dung beetle species (Heliocopris dominus and Heliocopris bucephalus) in China to forecast their probable habitat range under present and future climate scenarios. Employing MaxEnt modeling with validated occurrence records and environmental variables, we discerned critical factors affecting their distribution and anticipated changes in habitat suitability. Results reveal that isothermality, temperature seasonality, maximum temperature of the warmest month, and annual precipitation are the principal environmental drivers. Presently, appropriate habitats are primarily located in southern Yunnan and Hainan, with future forecasts indicating a northward extension into additional areas. These findings offer critical insights for choosing conservation zones for these vulnerable species amid shifting climate conditions. Full article

(This article belongs to the Special Issue Diversity and Taxonomy of Scarabaeoidea)

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14 pages, 1517 KB

Open AccessArticle

Temporal Diversity Shifts in Subtidal Tubastraea-Invaded Rocky Shores of Arraial do Cabo Bay, Southeastern Brazil

by Bruno Pereira Masi, Marcio Alves Siqueira, Alexandre R. da Silva, Luciana Altvater, Alexandre D. Kassuga and Ricardo Coutinho

Diversity 2025, 17(10), 695; https://doi.org/10.3390/d17100695 - 4 Oct 2025

Invasive species can alter community composition and ecosystem functioning. In the subtidal rocky shores of Arraial do Cabo Bay, southeastern Brazil, the invasive coral Tubastraea spp. has established populations, raising concerns about long-term impacts on native benthic communities. This study investigates temporal shifts [...] Read more.

Invasive species can alter community composition and ecosystem functioning. In the subtidal rocky shores of Arraial do Cabo Bay, southeastern Brazil, the invasive coral Tubastraea spp. has established populations, raising concerns about long-term impacts on native benthic communities. This study investigates temporal shifts in β-diversity across 44 fixed plots containing Tubastraea spp., monitored over 383 days. Underwater photographic surveys and multivariate analyses identified nine distinct benthic community types, each forming mosaic structures of sessile organisms. Temporal β-diversity analyses revealed that only the group characterized by Tubastraea, crustose calcareous algae and the zoantharian Palythoa caribaeorum showed significant differences between species gains and losses over time, suggesting temporal-scale dependency. Key contributors to community dissimilarity included P. caribaeorum, crustose calcareous algae, turf, the sponge genus Darwinella, and Tubastraea. This study highlights the importance of considering both spatial and temporal heterogeneity when assessing the ecological impact of marine invasive species. Our findings underscore the need for multi-scale monitoring to fully understand the dynamics of tropical subtidal ecosystems under biological invasion. While numerous studies report a correlation between Tubastraea abundance and shifts in ecological diversity, this relationship may be weak, as critical drivers such as the complexity of community organization are rarely accounted for. Full article

(This article belongs to the Section Marine Diversity)

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43 pages, 20555 KB

Open AccessArticle

Medusae (Cnidaria) of Reunion Island (South West Indian Ocean): Diversity, Abundance and Distribution

by Chloé A.-F. Bourmaud, Sergey Slobodov, François Guilhaumon, Jacqueline Goy and Nicole Gravier-Bonnet

Diversity 2025, 17(10), 694; https://doi.org/10.3390/d17100694 - 4 Oct 2025

Numerous studies have been conducted on the benthic stages of Medusozoa in Reunion Island, but none on the pelagic stages. This study is the first to investigate the shallow waters of the island for the diversity, abundance, and spatio-temporal distribution of jellyfish. During [...] Read more.

Numerous studies have been conducted on the benthic stages of Medusozoa in Reunion Island, but none on the pelagic stages. This study is the first to investigate the shallow waters of the island for the diversity, abundance, and spatio-temporal distribution of jellyfish. During a one-year survey, samples were collected with a plankton net weekly or biweekly at four sites (two reef/two non-reef) and two depths (10/50 m). Of the 267 samples, 3450 medusae were sorted and 56 species identified. The meroplanktonic Hydroidolina (Antho- and Leptomedusae) were the most diverse (38 species), while the holoplanktonic Trachylinae (13 species) were the most abundant. Hydromedusa species richness was higher at coastal stations than offshore, but similar between reef and non-reef sites. There was no significant variation in species richness or abundance between months or seasons. Including some other catches, the total number of species reached 62. Eight species are new records for the Indian Ocean (all Anthomedusae). Indian Ocean literature references are given in the species list, and some photographs are provided. This initial study, which greatly expands the local hydrozoan fauna knowledge, will serve as a reference for future research, especially regarding climate change and coastal management in Reunion Island. Full article

(This article belongs to the Section Marine Diversity)

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13 pages, 7780 KB

Open AccessArticle

Population Structure and Genetic Diversity of Oysters from a Natural Reef on Magu Island, Shandong, China

by Yumeng Liu, Sichao Pu, Liang Zhang, Yinglu Ji, Jie Feng, Peizhen Ma and Lan Wang

Diversity 2025, 17(10), 693; https://doi.org/10.3390/d17100693 - 3 Oct 2025

Oyster reefs are receiving increasing attention due to severe survival challenges and their significant ecological service functions. Despite increased restorations worldwide, both natural and restored reefs have often not been monitored to an extent. Reef-building oyster populations are the foundation for the development [...] Read more.

Oyster reefs are receiving increasing attention due to severe survival challenges and their significant ecological service functions. Despite increased restorations worldwide, both natural and restored reefs have often not been monitored to an extent. Reef-building oyster populations are the foundation for the development of oyster reefs. In order to provide basic data for further protection and potential restoration of the oyster reef in the muddy tidal flats of Magu Island, in the middle of Dingzi Bay, the population structure and genetic diversity of the reef-building oysters were assessed through field investigation and molecular experiments. Results showed that the area of the oyster reef was 20,689 square meters and the oysters were Magallana gigas. The distribution of oyster patches revealed a reef building-up stage. The mean densities of the oysters were 3260.80 ind·m⁻² and 3097.60 ind·m⁻² in spring and autumn, respectively, and the biomasses were 25,209.38 g·m⁻² and 30,137.44 g·m⁻². The frequent distribution of shell height indicated two primary sizes divided by ages. Population genetic analyses based on partial mitochondrial cox1, cox3, and nad2 showed low nucleotide diversity and moderate haplotype diversity, proposing the population growth stage. Both the results of the population structure and genetic diversity suggested a developing status of the oyster reef on Magu Island. Full article

(This article belongs to the Section Biodiversity Conservation)

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20 pages, 1303 KB

Open AccessArticle

Marine Mammals’ Fauna Detection via eDNA Methodology in Pagasitikos Gulf (Greece)

by Elena Akritopoulou, Athanasios Exadactylos, Anastasia Komnenou, Joanne Sarantopoulou, Christos Domenikiotis and Georgios A. Gkafas

Diversity 2025, 17(10), 692; https://doi.org/10.3390/d17100692 - 3 Oct 2025

Marine mammals are important ecological bio-indicators of marine ecosystems impacted by a plethora of anthropogenic and environmental threats. Genomics detects genetic variation, adaptation to environmental shifts, and susceptibility to diseases in marine mammal species. In this study, eDNA was utilized for the first [...] Read more.

Marine mammals are important ecological bio-indicators of marine ecosystems impacted by a plethora of anthropogenic and environmental threats. Genomics detects genetic variation, adaptation to environmental shifts, and susceptibility to diseases in marine mammal species. In this study, eDNA was utilized for the first time in the Pagasitikos Gulf over three consecutive years (2022–2024) in order to detect marine mammal species. Additionally, visual monitoring and eDNA results were compared to reveal the pros and cons of the two methodologies. The gulf was zoned into five different areas with respect to oceanographic features for sampling. DNA extraction was assessed by using a standard protocol of phenol–chloroform followed by PCR amplification using the 16S rRNA gene. A total of 5,209,613 highly filtered sequence reads were attributed to 108 species. Among these, Monachus monachus, Tursiops truncatus, and Ziphius cavirostris species were detected. This novel detection of Z. cavirostris in the relatively shallow waters of the Gulf of Pagasitikos raised the question of whether it was a random event or a new ecological trend. Z. cavirostris and M. monachus appeared to share the same marine areas within the gulf. In the era of the climate crisis, eDNA provides essential information on marine mammals’ ecological status, yields novel detections, and predicts behavioral changes essential to deep-diving species. Full article

(This article belongs to the Special Issue Applications of Environmental DNA in Biomonitoring Across Multiple Trophic Levels)

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11 pages, 688 KB

Open AccessArticle

Lethal Heat Exchange—Short-Term Thermoregulation in Two Triturus Species During Abrupt Changes in Living Media (Water vs. Air)

by Daniela Mihova, Sebastian Topliceanu, Valeriya Velkova and Nikolay Natchev

Diversity 2025, 17(10), 691; https://doi.org/10.3390/d17100691 - 3 Oct 2025

As adults, some newts exhibit a multiphasic lifestyle, switching between aquatic and terrestrial habitats. Under laboratory conditions, we provided an experiment to expose newts, which were in their aquatic phase, to air as a surrounding medium. We studied how the body temperature changed [...] Read more.

As adults, some newts exhibit a multiphasic lifestyle, switching between aquatic and terrestrial habitats. Under laboratory conditions, we provided an experiment to expose newts, which were in their aquatic phase, to air as a surrounding medium. We studied how the body temperature changed when the ambient temperature increased. The thirteen specimens used in the study belonged to two species from the genus Triturus sp.—T. ivanbureschi and T. dobrogicus. For temperature measurements, we used a precise thermometer with a beaded thermocouple and an IR thermal camera. We started the experiment at 17 °C and increased the air temperature by approximately 1 °C every 10 min. The newts were exposed to the air until the first signs of physical exhaustion appeared. An increase of 1 °C in ambient temperature led to an average increase of 0.87 °C in the body temperature of the newts across the four experimental days. The measured body temperature showed a consistent increase during all experimental sessions, but it did not equalize with the environmental temperature. The body temperature in all specimens remained lower by an average of 2.24 (±0.02) °C. Full article

(This article belongs to the Special Issue Amphibian and Reptile Adaptation: Biodiversity and Monitoring)

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16 pages, 2109 KB

Open AccessArticle

Avian Biodiversity Response Toward Ecological Restoration of Wetlands Through Farmland Abandonment Measures in the Sanjiang Plain, China

by Xueying Sun, Jingli Zhu, Qingming Wu, Muhammad Suliman, Xiaogang Lin, Lu Chen and Hongfei Zou

Diversity 2025, 17(10), 690; https://doi.org/10.3390/d17100690 - 2 Oct 2025

Large-scale agricultural development has led to a significant reduction in wetland areas, resulting in habitat fragmentation for birds and biodiversity loss. Recently, the implementation of farmland abandonment policies has helped in the restoration of wetland areas. In order to understand the ecological effects [...] Read more.

Large-scale agricultural development has led to a significant reduction in wetland areas, resulting in habitat fragmentation for birds and biodiversity loss. Recently, the implementation of farmland abandonment policies has helped in the restoration of wetland areas. In order to understand the ecological effects of farmland abandonment, this study investigated the bird communities in the Naoli River National Nature Reserve (NRNNR) in the Sanjiang Plain after abandonment. The field surveys (line transect and point count methods) of bird community diversity in the abandoned areas of the NRNNR showed 92 bird species from 37 families and 16 orders, including 4 species of national first-class protected birds and 17 species of national second-class protected birds (accounting for a combined 22.83%). Additionally, the bird community diversity displayed annual variation in individual and species richness over time, and the diversity indices order was 2019 > 2020 > 2018 > 2016 > 2015. Bird species richness and individual abundance were significantly higher in meadow habitats as compared to other habitat types. With prolonged restoration time after farmland withdrawal, the Pielou evenness index of bird communities significantly decreased, while the total number of individual birds significantly increased (p < 0.05). The abandoned time showed a positive impact on waterbird richness, while the longer abandoned duration led to higher waterbird richness. In conclusion, long-term ecological restoration measures revealed a significant enhancement in bird diversity over time. Full article

(This article belongs to the Section Animal Diversity)

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42 pages, 34525 KB

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Marine Crabs from African Waters Housed in the Museo Nacional de Ciencias Naturales (MNCN-CSIC)—An Opportunity for Biogeographic and Systematic Studies—Part II: Thoracotremata

by Isabel Muñoz, José Enrique García-Raso, Begoña Sánchez and Jose A. Cuesta

Diversity 2025, 17(10), 689; https://doi.org/10.3390/d17100689 - 1 Oct 2025

Zoological collections are essential for preserving regional biodiversity but often lack taxonomic updates, risking data loss. This work supposes the continuation of a review of the African marine crabs housed at the Crustacean collection of the Museo Nacional de Ciencias Naturales (MNCN) in [...] Read more.

Zoological collections are essential for preserving regional biodiversity but often lack taxonomic updates, risking data loss. This work supposes the continuation of a review of the African marine crabs housed at the Crustacean collection of the Museo Nacional de Ciencias Naturales (MNCN) in Madrid. Part I, Heterotremata, revealed that only 21.9% of the specimens were correctly identified. In this new study focused on Thoracotremata species, 197 specimens (59 records) were reviewed, and this new study reveals similar results to Part I: 22.9% of the reviewed specimens were previously correctly identified (less than 29% when considering records), meaning that around 77.2% of the African Thoracotremata specimens housed in the MNCN were either misidentified or not identified at all. This highlights the importance of the taxonomic reviews made by specialists of specimens housed in both historical and non-historical scientific collections. This time we have used DNA barcodes (16S and COI) to confirm identifications or to add new molecular data to species without previous DNA sequences known. DNA sequences (16S and/or COI) were obtained for seven species. It has been a challenge to obtain sequences from specimens preserved 60 to 200 years ago. Full article

(This article belongs to the Section Marine Diversity)

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11 pages, 1081 KB

Open AccessArticle

Large Parasites in a Crowded Space: Variation in Prevalence and Volumetric Effects of Sarcotaces arcticus (Collett, 1874) in Two Host Rockfish (Sebastes spp.) Species

by Raquel Wilson, Samantha A. Tilden, Catherine C. Snyder and Mark C. Belk

Diversity 2025, 17(10), 688; https://doi.org/10.3390/d17100688 - 30 Sep 2025

Sarcotaces arcticus (Collett, 1874) is a relatively large, internal parasitic copepod that infects many marine fishes. Although its large size suggests it may have a negative effect on host reproduction by reducing space available in the abdominal cavity (i.e., volumetric effect), such quantitative [...] Read more.

Sarcotaces arcticus (Collett, 1874) is a relatively large, internal parasitic copepod that infects many marine fishes. Although its large size suggests it may have a negative effect on host reproduction by reducing space available in the abdominal cavity (i.e., volumetric effect), such quantitative aspects of host-parasite relationships for S. arcticus have never been documented. We compared the prevalence and the ratio of live to dead parasites among sizes and sexes of two species of rockfish hosts (Sebastes ciliatus, Tilesius, 1813, dark rockfish; and Sebastes variabilis, Pallas, 1814, dusky rockfish) and quantified the reduction of internal space available in infected hosts. Samples were collected in southeast Alaskan waters where the two host rockfish species coexist in sympatry. Both total prevalence and prevalence of live S. arcticus were significantly higher in S. variabilis compared to S. ciliatus, because of higher prevalence in female S. variabilis. The relationship between body cavity volume, volume available for reproduction, and total length was isometric for both host species combined. An average live S. arcticus with a volume of 8.1 milliliters occupied about 45% in smaller hosts and about 5% in larger hosts of the volume available for reproductive organs. The high prevalence and large size of this parasite could significantly reduce fecundity and fitness of rockfish hosts through reductions in internal volume available for reproduction. Full article

(This article belongs to the Special Issue 2025 Feature Papers by Diversity’s Editorial Board Members)

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