Diversity

16 pages, 3440 KB

Open AccessArticle

Formation of Rhizospheric Microbial Consortia Under Combined Phytoremediation and Bacterial Introduction in Oil-Polluted Environments

by Tatiana Zhilkina, Irina Gerasimova, Tamara Babich, Vitaly Kadnikov, Alexey Beletsky and Anastasia Kamionskaya

Diversity 2026, 18(2), 61; https://doi.org/10.3390/d18020061 (registering DOI) - 23 Jan 2026

Abstract

The integration of oil-degrading microorganisms with phytoremediation has the potential to generate a synergistic effect in the removal of petroleum pollutants. This study analyzed the influence of two aquatic plant species (Eichhornia crassipes and Pistia stratiotes) and hydrocarbon-oxidizing bacterial strains ( [...] Read more.

The integration of oil-degrading microorganisms with phytoremediation has the potential to generate a synergistic effect in the removal of petroleum pollutants. This study analyzed the influence of two aquatic plant species (Eichhornia crassipes and Pistia stratiotes) and hydrocarbon-oxidizing bacterial strains (Rhodococcus erythropolis and Pseudomonas brenneri), as well as a microbial preparation, on the formation of bacterial consortia under oil-polluted conditions. The study assessed the losses of petroleum alkanes, the rheological properties of water, and the structure of emerging rhizospheric microbial communities by high-throughput sequencing. E. crassipes demonstrated a higher potential for stimulating the development of an oil-oxidizing microbial community. However, the introduced bacterial strains did not establish themselves within the formed microbial community, indicating the complexity of selecting compatible plant–microbe combinations for efficient bioremediation. Nevertheless, this approach remains a promising direction for enhancing the efficiency of hydrocarbon degradation in aquatic ecosystems. Full article

(This article belongs to the Special Issue Microbial Diversity and Function Exploration in Oilfield Ecosystems and Petroleum-Contaminated Environments)

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18 pages, 471 KB

Open AccessCommentary

Modern Coral Taxonomy Requires Reproducible Data Alongside Field Observations—Comments on Veron et al. (2025)

by Peter F. Cowman, Tom C. L. Bridge, Tracy D. Ainsworth, Francesca Benzoni, Victor Bonito, Ann Budd, Patrick Cabaitan, Emma F. Camp, Chaolun Allen Chen, Sean R. Connolly, Augustine J. Crosbie, Joana Figueiredo, Douglas Fenner, Zac Forsman, Hironobu Fukami, Catherine E. I. Head, Bert W. Hoeksema, Danwei Huang, Marcelo V. Kitahara, Nancy Knowlton, Chao-Yang Kuo, Mei-Fang Lin, Joshua S. Madin, Hanaka Mera, Keiichi Nomura, Nicolas Oury, Andrea M. Quattrini, Kate M. Quigley, Sage H. Rassmussen, Kaveh Samimi-Namin, Frederic Sinniger, David J. Suggett and Andrew H. Baird Show full author list Hide full author list

Diversity 2026, 18(2), 60; https://doi.org/10.3390/d18020060 (registering DOI) - 23 Jan 2026

Abstract

The recent review by Veron et al. (2025) posits that quantitative genomic evidence used to understand coral evolution should be secondary to species hypotheses derived from expert opinion based on field experience. The authors argue that morphological “biological entities” should take [...] Read more.

The recent review by Veron et al. (2025) posits that quantitative genomic evidence used to understand coral evolution should be secondary to species hypotheses derived from expert opinion based on field experience. The authors argue that morphological “biological entities” should take precedence over molecular evidence when conflicts arise. This perspective required the rejection of extensive, independent molecular datasets that have progressively converged on a robust evolutionary framework for reef corals. Here, we reaffirm how prioritising subjective visual assessments over quantitative genetic and genomic data is methodologically unsound and scientifically regressive. We reject the framing of this perspective as “morphology versus molecules”. Rather, it is a fundamental divergence between two opposing philosophies: a static system anchored in non-reproducible expert judgement, and an integrative framework where genetic data provide the necessary independent test of morphological hypotheses. We show how a reliance on “field entities” obscures true morphological patterns by failing to distinguish between phenotypic plasticity, convergence, and evolutionary divergence. Effective taxonomy requires species hypotheses to be testable, and to stand or fall on the strength of reproducible evidence. Such a framework does not replace morphology; it validates it by providing an explicit, testable basis for evaluating morphological hypotheses. The integration of testable, reproducible molecular analysis with other lines of evidence including morphology is the benchmark of modern taxonomy across all Kingdoms of Life. We address the logical inconsistencies in the general arguments put forward by Veron et al. (2025) and refute their specific rejection of recent Acropora species-level revision with reproducible data. Full article

(This article belongs to the Section Marine Diversity)

18 pages, 2331 KB

Open AccessArticle

Chromosomal Architecture, Karyotype Profiling and Evolutionary Dynamics in Aleppo Oak (Quercus infectoria Oliv.)

by Solmaz Najafi, Nasrin Seyedi, Burak Özdemir, Hossein Zeinalzadeh-Tabrizi, Beatrice Farda and Loretta Pace

Diversity 2026, 18(1), 59; https://doi.org/10.3390/d18010059 (registering DOI) - 22 Jan 2026

Abstract

Aleppo oak (Quercus infectoria) is among the most industrially and ecologically significant oak species, valued for its medicinal properties and considerable genetic importance. Cytogenetic analysis provides critical insight into evolutionary history, interspecific relationships, and karyotypic differentiation. This study investigated the chromosomal [...] Read more.

Aleppo oak (Quercus infectoria) is among the most industrially and ecologically significant oak species, valued for its medicinal properties and considerable genetic importance. Cytogenetic analysis provides critical insight into evolutionary history, interspecific relationships, and karyotypic differentiation. This study investigated the chromosomal architecture and karyotypic diversity of five natural populations of this species in western Iran (Sardasht, Oramanat, Baneh, Paveh, and Marivan) using actively dividing root meristems and a high-resolution image-based cytogenetic system. All examined cells displayed a basic chromosome number of x = 12 and a diploid condition, and chromosome lengths ranged from 0.90 to 2.12 µm. ANOVA and mean comparisons of five chromosomal parameters (Long Arm, Short Arm and Total Length, Arm Ratio, and Centromeric Index) revealed significant interpopulation differences in chromosome length and arm dimensions. All populations shared the karyotype formula 12 m and were classified into Stebbins’ Category B, indicating a moderately symmetrical, relatively primitive cytogenetic structure. Principal component analysis reduced the dataset to two major axes explaining 99.93% of the total variance, predominantly influenced by SA and TL on PC1 and by LA, AR, and CI on PC2. Hierarchical clustering grouped the populations into three distinct lineages, with Sardasht–Oramanat–Baneh showing the greatest divergence. Biplot vector patterns further clarified trait correlations, highlighting genomic structuring and potential breeding utility. Full article

(This article belongs to the Special Issue Ethnobotany and Plant Diversity: Conservation and Sustainable Use)

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22 pages, 6389 KB

Open AccessArticle

Zooplankton Indicators of Ecological Functioning Along an Urbanisation Gradient

by Larisa I. Florescu, Mirela M. Moldoveanu, Cristina A. Dumitrache and Rodica D. Catana

Diversity 2026, 18(1), 58; https://doi.org/10.3390/d18010058 - 22 Jan 2026

Abstract

Zooplankton is an essential functional component of the aquatic food web, reflecting, through its structure and biomass, the impact of anthropogenic pressures on ecosystems. In this study, we investigated the traits of the Rotifera and Crustacea communities along a rural–urban gradient in the [...] Read more.

Zooplankton is an essential functional component of the aquatic food web, reflecting, through its structure and biomass, the impact of anthropogenic pressures on ecosystems. In this study, we investigated the traits of the Rotifera and Crustacea communities along a rural–urban gradient in the Colentina River system. The results revealed a partial separation between rotifers and crustaceans, with distinct distributions determined by trophic conditions and habitat type. Trophic indices (Carlson’s TSI, TSI_ROT, TSI_CR) indicated increased eutrophication in peri-urban and urban areas (Fundeni, Plumbuita) compared to rural reference ecosystems (Colentina, Crevedia). The relationships between Resource Use Efficiency (RUE) and trophic indices were positive and significant in rural areas, indicating a balanced ecosystem, but were decoupled in urbanised sectors, where high RUE values were driven by increased biomass of opportunistic species, whereas TSI indicated eutrophic conditions. The results confirm the role of zooplankton as a sensitive bioindicator, capable of capturing both the impact of eutrophication and the capacity of urbanised ecosystems to maintain trophic functionality. The integration of zooplankton-based metrics into monitoring schemes offers a complementary perspective on ecological resilience in aquatic ecosystems under urban pressures. Full article

(This article belongs to the Section Freshwater Biodiversity)

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16 pages, 2227 KB

Open AccessArticle

Distribution and Potential Dispersal Corridors of Two Onychodactylus Species in the Republic of Korea

by Young-Guk Kim, Hahyun Nam, Jaejin Park, Jiho Park and Daesik Park

Diversity 2026, 18(1), 57; https://doi.org/10.3390/d18010057 - 22 Jan 2026

Abstract

Accurate information regarding species boundaries is essential for ecological research and conservation planning. This information is particularly difficult to obtain but essential for cryptic amphibian species. The distribution and potential dispersal corridors of two cryptic salamander species, the Korean clawed (Onychodactylus koreanus [...] Read more.

Accurate information regarding species boundaries is essential for ecological research and conservation planning. This information is particularly difficult to obtain but essential for cryptic amphibian species. The distribution and potential dispersal corridors of two cryptic salamander species, the Korean clawed (Onychodactylus koreanus) and the Yangsan clawed (O. sillanus) salamanders, were investigated using integrated approaches for high-resolution species distribution modeling (SDM), genetic species identification, and habitat connectivity analysis. The SDM results showed high habitat suitability in mid- and high-mountainous areas, but very low suitability in riverine areas for both species. Genetic species identification of the 25 populations delimited the distribution boundary between the two species along the Nakdong and Geumho rivers. Dispersal corridors of the two species commonly involved a detour around the major rivers and produced only one possible dispersal route, where both species moved into the opposite species’ habitat along the east side of the mountainous areas of the Geumho River. The findings not only clarify the distribution range of two cryptic Onychodactylus species in the Republic of Korea but also highlight the importance of the unique dispersal route for studying species interactions and maintaining ecological connectivity. Full article

(This article belongs to the Collection Disturbance Ecology: A New Emerging Field in Basic/Applied Ecology and Conservation)

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28 pages, 2378 KB

Open AccessReview

Medicinal and Aromatic Plant Diversity of Greece: Biodiversity Knowledge, Ethnobotany and Sustainable Use—A Short Review

by Alexandra D. Solomou, Aikaterini Molla and Elpiniki Skoufogianni

Diversity 2026, 18(1), 56; https://doi.org/10.3390/d18010056 - 22 Jan 2026

Abstract

Greece lies within the Mediterranean global biodiversity hotspot and harbors exceptional plant richness and endemism, including numerous medicinal and aromatic plants (MAPs). These taxa underpin long ethnobotanical traditions and contemporary bioeconomy niches (culinary herbs, essential oils, phototherapeutics). The aim of this review is [...] Read more.

Greece lies within the Mediterranean global biodiversity hotspot and harbors exceptional plant richness and endemism, including numerous medicinal and aromatic plants (MAPs). These taxa underpin long ethnobotanical traditions and contemporary bioeconomy niches (culinary herbs, essential oils, phototherapeutics). The aim of this review is to map (i) the biodiversity knowledge base for Greek MAPs, (ii) recent ethnobotanical evidence, and (iii) sustainability pathways (conservation, cultivation, value chains, and regulation) in a Mediterranean context. The information is presented and analyzed in a critical manner. A total of 115 research studies were systematically reviewed based on the Preferred Reporting Items for Systematic Review and Meta-Analysis (PRISMA) guidelines. Key findings highlight that (i) Greece is a regional plant-diversity hotspot with many MAP endemics in Lamiaceae; (ii) contemporary ethnobotanical knowledge persists and adapts; and (iii) strong sustainability levers exist through Natura 2000 coverage, Good Agricultural and Collection Practice (GACP) and European Medicines Agency (EMA) frameworks, and Protected Designation of Origin (PDO)/United Nations Educational, Scientific and Cultural Organization (UNESCO) recognitions (e.g., Krokos Kozanis saffron, Chios mastic), although threats from climate and land-use change remain significant. In conclusion, Greek MAPs combine high biodiversity value, living ethnobotanical traditions, and tangible bioeconomic opportunities. Their sustainable prospects depend on integrating habitat protection, GACP and FairWild Standard (FairWild)-aligned wild collection and cultivation, domestication of priority endemics, and climate-resilience planning, all supported by traceable value chains and Access and Benefit-Sharing (ABS)/Nagoya Protocol compliance. The review concludes with practical recommendations and a prioritized list of flagship taxa for “conservation through use.” Full article

(This article belongs to the Special Issue Ethnobotany and Plant Diversity: Conservation and Sustainable Use)

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12 pages, 1654 KB

Open AccessArticle

Meteorological Forcing Shapes Seasonal Surface Zooplankton Dynamics in Lake Karamurat, a Small Tectonic Lake in Türkiye

by Pınar Gürbüzer, Okan Külköylüoğlu and Ahmet Altındağ

Diversity 2026, 18(1), 55; https://doi.org/10.3390/d18010055 - 21 Jan 2026

Abstract

In temperate freshwater ecosystems, zooplankton play a crucial role in the pelagic food web and act as sensitive indicators of environmental change. They respond to shifts in water temperature, hydrodynamic mixing, and short-term meteorological events. This study investigated the epilimnetic zooplankton fauna of [...] Read more.

In temperate freshwater ecosystems, zooplankton play a crucial role in the pelagic food web and act as sensitive indicators of environmental change. They respond to shifts in water temperature, hydrodynamic mixing, and short-term meteorological events. This study investigated the epilimnetic zooplankton fauna of Lake Karamurat (Bolu, Türkiye), a small tectonic temperate lake, with a specific focus on the influence of rainfall events and wind speed on community structure. The samples were taken seasonally and horizontally using a plankton net (55 µm mesh size) and were analyzed alongside in situ physico-chemical measurements and meteorological data. In total, 74 zooplankton taxa were identified, comprising 54 rotifer species and 20 crustacean species (16 Cladocera and 4 Copepoda). Testudinella greeni was recorded for the first time in Türkiye, representing a new addition to the Turkish Rotifera fauna. Multivariate analyses revealed that electrical conductivity, water temperature, dissolved oxygen, precipitation, and wind speed were key drivers shaping community composition. The findings suggest that wind-driven surface mixing and episodic rainfall events enhanced vertical redistribution, leading to dominance of rotifers and small-bodied cladocerans in the epilimnion. These findings underscore the critical role of sampling strategy in shallow lakes under dynamic conditions and provide new faunistic insights into the zooplankton diversity of Anatolian lakes. Full article

(This article belongs to the Special Issue Diversity and Ecology of Freshwater Plankton)

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24 pages, 30705 KB

Open AccessArticle

The Other Side of the Coin: Taxonomic Updates and Species Key of Herennia (Araneae: Nephilidae)

by Matjaž Kuntner, Kuang-Ping Yu, Eva Turk, Klemen Čandek, Matjaž Gregorič, Gregory J. Anderson, Jonathan A. Coddington and Ren-Chung Cheng

Diversity 2026, 18(1), 54; https://doi.org/10.3390/d18010054 - 20 Jan 2026

Abstract

Coin spiders of the genus Herennia Thorell, 1877 are species-rich nephilids distributed across South, East, and Southeast Asia and Australasia. They are notable for ladder-shaped arboricolous webs, extreme sexual size dimorphism, and complex sexual behaviors. The most recent revision recognized 11 species, only [...] Read more.

Coin spiders of the genus Herennia Thorell, 1877 are species-rich nephilids distributed across South, East, and Southeast Asia and Australasia. They are notable for ladder-shaped arboricolous webs, extreme sexual size dimorphism, and complex sexual behaviors. The most recent revision recognized 11 species, only 4 of which were described from both sexes. Here, we present a taxonomic revision integrating new morphological and molecular data and recognize 14 species. We describe three new species—H. eva Kuntner from Sulawesi, H. maj Kuntner from Vietnam, and H. tsoi Kuntner et al. from Taiwan—and document previously unknown males of H. oz Kuntner, 2005 from Australia and H. tone Kuntner, 2005 from the Philippines. We also extend the known distribution of H. papuana Thorell, 1881 from New Guinea to Australia. Although several molecular species-delimitation analyses suggest H. oz and H. etruscilla Kuntner, 2005 may be conspecific, consistent and diagnostic morphological differences support their recognition as distinct species. We provide an updated identification key to all valid Herennia species. Additional undescribed endemics are likely to occur across the Asian mainland and the rapidly disappearing forests of Southeast Asian and Australasian islands. The genus’ biogeographic pattern, shaped by an ancestrally broad distribution spanning the Wallace Line, may reflect repeated loss and regain of ballooning, a hypothesis that warrants experimental and comparative testing. Full article

(This article belongs to the Section Phylogeny and Evolution)

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19 pages, 2083 KB

Open AccessArticle

Demography of an Imperiled Minnow Species (Lepidomeda aliciae: Leuciscidae) Under Different Predation Regimes

by Josh E. Rasmussen, Eric J. Billman, Jerald B. Johnson, Brenden M. Orocu, Robert A. Richardson, J. Jaime Zúñiga-Vega and Mark C. Belk

Diversity 2026, 18(1), 53; https://doi.org/10.3390/d18010053 - 20 Jan 2026

Abstract

To understand the demography of an evolutionarily naïve fish species that sometimes coexists with an invasive predator, we collected mark–recapture data and size–frequency data of two populations of southern leatherside chub (Lepidomeda aliciae), one of which coexists with nonnative brown trout [...] Read more.

To understand the demography of an evolutionarily naïve fish species that sometimes coexists with an invasive predator, we collected mark–recapture data and size–frequency data of two populations of southern leatherside chub (Lepidomeda aliciae), one of which coexists with nonnative brown trout (Salmo trutta). For each population, we estimated vital rates from mark–recapture data to inform a stage-structured matrix transition model. We also used size–frequency distributions from these populations in an integral projection model. Southern leatherside chub from the predator-free environment exhibited higher survival (except age-0) and lower average realized fecundity than the population from the predator environment. Survival rates of age-0 in the predator environment were double the rates in the predator-free habitat. Growth transitions from the smallest size class and reproduction at medium sizes had a combined elasticity of nearly 0.70 in the predator environment, but only 0.43 in the predator-free population. Our results indicate that the southern leatherside chub in Lost Creek that are sympatric with invasive brown trout have reduced abundance and survival of larger individuals and higher age-0 survival and value of reproduction at smaller sizes, compared to the Salina Creek population. Full article

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

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15 pages, 3968 KB

Open AccessArticle

High-Resolution Integrative Delimitation of Intertidal Limpets via Multi-Locus Barcodes and SEM Morphology

by Jialong Liang, Kexin Zhao, Xiaonan Ma, Jiayi Zang, Wenxiao Guo and Ran Zhao

Diversity 2026, 18(1), 52; https://doi.org/10.3390/d18010052 - 19 Jan 2026

Abstract

Limpets are marine gastropod molluscs well adapted to intertidal rocky environments, yet their taxonomic resolution remains challenging due to extensive morphological convergence and the presence of cryptic species. In this study, we applied an integrative taxonomic framework combining multi-locus DNA barcoding and fine-scale [...] Read more.

Limpets are marine gastropod molluscs well adapted to intertidal rocky environments, yet their taxonomic resolution remains challenging due to extensive morphological convergence and the presence of cryptic species. In this study, we applied an integrative taxonomic framework combining multi-locus DNA barcoding and fine-scale morphological characterization to clarify species boundaries within three families of limpets—Nacellidae, Lottiidae, and Siphonariidae. A total of 132 individuals collected from six coastal sites in Shenzhen and adjacent areas of southern China were analyzed using four markers Cytochrome c oxidase subunit I (COI), 16S ribosomal RNA (16S rRNA), Cytochrome b (Cytb) and 28S ribosomal RNA (28S rRNA), together with scanning electron microscopy (SEM) observations of radular morphology. Molecular analyses identified nine distinct species across five genera. Kimura two-parameter distance analyses revealed clear barcode gaps in 16S rRNA, Cytb, and 28S rRNA genes, particularly among Cellana and Nipponacmea, whereas COI exhibited stronger discriminatory power within Siphonaria. Moreover, our study provides newly 16S, 28S references for Nipponacmea formosa and Cytb references for Nipponacmea formosa, Lottia luchuana, Siphonaria atra, Siphonaria sirius, Siphonaria sp. and Siphonaria sirius, enriching the public references and explaining the lack of corresponding records in previous BLAST searches. In addition, we identified misannotated COI references in NCBI which were labelled as Nipponacema schrenckii but belong to Cellana toreuma, highlighting inconsistencies in existing reference data rather than issues with our samples. SEM-based radular features displayed consistent interspecific variation that corroborated molecularly defined clades, offering comprehensive search of the NCBI reliable morphological evidence for species delimitation. Collectively, our findings highlight the value of integrating lineage-specific molecular markers with detailed morphological analyses to resolve taxonomic ambiguities in morphologically conservative marine gastropods. Furthermore, this approach strengthens molecular reference resources essential for future biodiversity and evolutionary research on intertidal limpets. Full article

(This article belongs to the Section Marine Diversity)

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13 pages, 4861 KB

Open AccessArticle

Evaluation of the Validity of the Spanish Eocene Pleurodiran Turtle ‘Duerochelys arribasi’: The Youngest Freshwater Member of Erymnochelyinae (Podocnemididae) in Europe

by Adán Pérez-García, Andrea Guerrero, Santiago Martín de Jesús and Francisco Ortega

Diversity 2026, 18(1), 51; https://doi.org/10.3390/d18010051 - 19 Jan 2026

Abstract

The validity of the youngest representative of Neochelys described to date, representing the last European freshwater member of Erymnochelyinae, has been considered doubtful. A revision of the previously documented specimens of this Spanish Bartonian or Priabonian (MP 16 or MP 17, middle or [...] Read more.

The validity of the youngest representative of Neochelys described to date, representing the last European freshwater member of Erymnochelyinae, has been considered doubtful. A revision of the previously documented specimens of this Spanish Bartonian or Priabonian (MP 16 or MP 17, middle or late Eocene) species is performed here, along with the analysis of additional unpublished remains from the same geological formation. The principal character originally used to diagnose the species (i.e., paired gular scutes) is refuted here, and interpreted instead as an anomalous variation that is also found in other representatives of the genus. However, Neochelys arribasi is supported as a valid species based on other morphological features. We recognize here an increase in size for the representatives of Neochelys from the Duero Basin over time, which are also the youngest known species of Neochelys. Full article

(This article belongs to the Special Issue 2026 Feature Papers by Diversity's Editorial Board Members)

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22 pages, 2026 KB

Open AccessArticle

Evolutionary Relationships and Genetic Diversity in the Southern Siberian Populations of the Saker Falcon (Falco cherrug), a Young and Endangered Species

by Daria Nikolaevna Rozhkova, Elena Pavlovna Shnayder, Valentina Georgievna Tambovtseva, Igor Vyacheslavovich Karyakin, Alla Veniaminovna Blekhman, Oleg Evgenievich Lazebny, Svetlana Yuryevna Sorokina, Ludmila Sergeevna Zinevich and Alexey Mikhailovich Kulikov

Diversity 2026, 18(1), 50; https://doi.org/10.3390/d18010050 - 18 Jan 2026

Abstract

Studying intraspecific differentiation in closely related species is essential to clarify the phylogenetic relationships and mechanisms of early stage speciation, particularly in evolutionarily young lineages affected by human-driven population declines. The endangered saker falcon (Falco cherrug), with its ambiguous phylogenetic links [...] Read more.

Studying intraspecific differentiation in closely related species is essential to clarify the phylogenetic relationships and mechanisms of early stage speciation, particularly in evolutionarily young lineages affected by human-driven population declines. The endangered saker falcon (Falco cherrug), with its ambiguous phylogenetic links to the gyrfalcon (F. rusticolus), exemplifies this scenario. This study presents a comprehensive genetic analysis of F. cherrug and F. rusticolus using mtDNA markers and microsatellite loci, focusing on the diversity of southern Siberian saker falcon populations. The genotyping results for these populations were correlated with phenotypic data obtained from long-term monitoring (1999–2021). Our findings provide novel insights into the current subspecific differentiation and the remnants of a nascent subspecies structure that existed before the recent demographic collapse. Furthermore, our results support the hypothesis of the gyrfalcon’s origin as a descendant species of the Asian saker falcon, i.e., an evolutionarily young lineage undergoing divergence. Our data contribute to the understanding of the Hierofalco evolutionary history, particularly through the analysis of heterogeneous mutation rates among mitochondrial haplogroups. This study underscores the critical importance of conservation efforts for wild endangered populations through long-term monitoring integrated with combined genetic approaches. Full article

(This article belongs to the Special Issue Avian Genetic Diversity)

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41 pages, 6730 KB

Open AccessArticle

Ethnobotany of Local Vegetables and Spices in Sakon Nakhon Province, Thailand

by Piyaporn Saensouk, Surapon Saensouk, Phiphat Sonthongphithak, Auemporn Junsongduang, Kamonwan Koompoot, Bin Huang, Wei Shen and Tammanoon Jitpromma

Diversity 2026, 18(1), 49; https://doi.org/10.3390/d18010049 - 17 Jan 2026

Abstract

Local vegetables and spices are essential components of traditional food and health systems in northeastern Thailand, yet quantitative ethnobotanical evidence remains limited. This study documents the diversity, utilization, and cultural significance of vegetables and spices used in Sang Kho Sub-district, Phu Phan District, [...] Read more.

Local vegetables and spices are essential components of traditional food and health systems in northeastern Thailand, yet quantitative ethnobotanical evidence remains limited. This study documents the diversity, utilization, and cultural significance of vegetables and spices used in Sang Kho Sub-district, Phu Phan District, Sakon Nakhon Province. Ethnobotanical data were collected in 2025 through field surveys, voucher-based plant identification, semi-structured interviews, and participant observation involving 92 informants across 23 villages. Cultural significance and medicinal knowledge were evaluated using the Cultural Importance Index (CI), Informant Consensus Factor (FIC), and Fidelity Level (FL). A total of 113 taxa belonging to 94 genera and 49 plant families were recorded. Poaceae and Zingiberaceae were the most species-rich families. Native species slightly predominated (51.33%), and herbaceous taxa were most common. Leaves were the most frequently used plant part. Most taxa were used as vegetables (92 species), followed by traditional medicines (20 species), spices or seasonings (18 species), and food ingredients or culinary additives (18 species). The highest CI values were recorded for Allium ascalonicum L. (1.152), Capsicum annuum L. (1.098), and Coriandrum sativum L. (1.043). FIC values ranged from 0.60 to 1.00, with complete consensus for circulatory and neurological disorders. Cymbopogon citratus showed the highest FL (75%) for gastrointestinal uses. These findings demonstrate the close integration of food and medicine in local plant-use systems and provide baseline data for food system resilience and cultural knowledge conservation. Full article

(This article belongs to the Special Issue Ethnobotany and Plant Diversity: Conservation and Sustainable Use)

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22 pages, 2580 KB

Open AccessArticle

Variation in Soil Microbial Carbon Utilization Patterns Along a Forest Successional Series in a Degraded Wetland of the Sanjiang Plain

by Zhaorui Liu, Wenmiao Pu, Kaiquan Zhang, Rongze Luo, Xin Sui and Mai-He Li

Diversity 2026, 18(1), 48; https://doi.org/10.3390/d18010048 - 16 Jan 2026

Abstract

The Sanjiang Plain hosts the largest freshwater wetland in Northeastern China and plays a critical role in regional climate stability. However, climate change and human activities have degraded the wetland, forming a successional gradient from the original flooded wetland to dry shrub and [...] Read more.

The Sanjiang Plain hosts the largest freshwater wetland in Northeastern China and plays a critical role in regional climate stability. However, climate change and human activities have degraded the wetland, forming a successional gradient from the original flooded wetland to dry shrub and forest vegetation with a lower ground water level. This degradation has altered soil microbial structure and functions, reducing ecological and socio-economic benefits. Along this successional gradient, we used Biolog-ECO plates combined with soil enzyme assays (catalase, urease, sucrase, and acid phosphatase) to assess the dynamics of microbial carbon metabolic activity, measured by average well color development (AWCD). The results showed a systematic decline in AWCD values with advancing succession, revealing a pronounced reduction in overall microbial metabolic activity during wetland degradation. This trend correlated with loss of soil moisture, organic carbon, and nitrogen nutrients. Microbial communities in early successional wetland stages (i.e., original natural wetland and wetland edge) preferred labile carbon sources (e.g., carbohydrates, amino acids), while forested stages favored relatively more structural (e.g., polymers, phenolic compounds). These findings indicate that vegetation succession regulates microbial carbon metabolism by modifying soil physicochemical properties, providing insights for wetland restoration. Full article

(This article belongs to the Special Issue Microbial Diversity in Different Environments)

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20 pages, 1399 KB

Open AccessReview

Nature-Based Solutions for Resilience: A Global Review of Ecosystem Services from Urban Forests and Cover Crops

by Anastasia Ivanova, Reena Randhir and Timothy O. Randhir

Diversity 2026, 18(1), 47; https://doi.org/10.3390/d18010047 - 15 Jan 2026

Abstract

Climate change and land-use intensification are speeding up the loss of ecosystem services that support human health, food security, and environmental stability. Vegetative interventions—such as urban forests in cities and cover crops in farming systems—are increasingly seen as nature-based solutions for climate adaptation. [...] Read more.

Climate change and land-use intensification are speeding up the loss of ecosystem services that support human health, food security, and environmental stability. Vegetative interventions—such as urban forests in cities and cover crops in farming systems—are increasingly seen as nature-based solutions for climate adaptation. However, their benefits are often viewed separately. This review combines 20 years of research to explore how these strategies, together, improve provisioning, regulating, supporting, and cultural ecosystem services across various landscapes. Urban forests help reduce urban heat islands, improve air quality, manage stormwater, and offer cultural and health benefits. Cover crops increase soil fertility, regulate water, support nutrient cycling, and enhance crop yields, with potential for carbon sequestration and biofuel production. We identify opportunities and challenges, highlight barriers to adopting these strategies, and suggest integrated frameworks—including spatial decision-support tools, incentive programs, and education—to encourage broader use. By connecting urban and rural systems, this review underscores vegetation as a versatile tool for resilience, essential for reaching global sustainability goals. Full article

(This article belongs to the Special Issue 2026 Feature Papers by Diversity's Editorial Board Members)

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12 pages, 1483 KB

Open AccessArticle

Climate Zones Modulate Deep Chlorophyll Maxima in Middle-Latitude Lakes via Thermocline Development

by Li Wang, Qichao Zhou, Yong Li and Xufa Ma

Diversity 2026, 18(1), 46; https://doi.org/10.3390/d18010046 - 15 Jan 2026

Abstract

Thermal stability is a key factor in determining the phenomena of deep chlorophyll maxima (DCM) in stratified lakes, as it mediates the vertical balance between light and nutrients required by phytoplankton. While it is well established that lake stratification is sensitive to latitude [...] Read more.

Thermal stability is a key factor in determining the phenomena of deep chlorophyll maxima (DCM) in stratified lakes, as it mediates the vertical balance between light and nutrients required by phytoplankton. While it is well established that lake stratification is sensitive to latitude gradients, the ways in which thermal stability modulates DCM characteristics (i.e., depth, thickness, and concentration) and nutrient–chlorophyll relationships across different latitude classifications remain unclear. In this study, data on thermocline depth, DCM feature, and water quality parameters were collected from 88 globally distributed stratified lakes. Our findings indicate that (1) higher-latitude lakes exhibit strong thermoclines, with light and nitrogen serving as the primary drivers of thermal stratification; (2) in high-latitude lakes, surface chlorophyll a concentrations are more tightly linked to total phosphorus than that at DCM depth in low-latitude lakes; and (3) structural equation modeling (SEM) results demonstrate that higher-latitude lakes form shallower and thinner DCM structures, where low light levels contribute to reduced peaks in algal biomass. These findings provide valuable insights for the management of stratified lakes facing the dual pressures of climate change and eutrophication. Full article

(This article belongs to the Special Issue The Ecological Functions of Algae in a Changing World: From Fundamentals to Applications)

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22 pages, 24533 KB

Open AccessArticle

Diversity of Plant-Parasitic Nematodes of the Genus Pratylenchus (Nematoda: Pratylenchidae) in California: Descriptions of Two New Species and Insights from Phylogenetic Analyses

by Sergio Álvarez-Ortega, Amy Michaud and Sergei A. Subbotin

Diversity 2026, 18(1), 45; https://doi.org/10.3390/d18010045 - 14 Jan 2026

Abstract

Root-lesion nematodes of the genus Pratylenchus are among the most economically significant plant-parasitic nematodes worldwide. During nematological surveys conducted in natural and agricultural ecosystems in California, several known species, P. bolivianus, P. hippeastri, P. pinguicaudatus, P. scribneri, P. thornei [...] Read more.

Root-lesion nematodes of the genus Pratylenchus are among the most economically significant plant-parasitic nematodes worldwide. During nematological surveys conducted in natural and agricultural ecosystems in California, several known species, P. bolivianus, P. hippeastri, P. pinguicaudatus, P. scribneri, P. thornei, and P. vulnus, as well as two undescribed species, P. chizhovi sp. n. and P. gracilis sp. n., were recovered. Pratylenchus chizhovi sp. n. is characterized by a slightly offset lip region with three annuli narrowing anteriorly, a short stylet (14.5–17.0 µm) with rounded knobs, a lateral field with four incisures, a spherical spermatheca lacking sperm, a vulva with somewhat prominent lips, a subcylindrical tail with a truncate-rounded, smooth terminus, and unknown males. Pratylenchus gracilis sp. n. is characterized by a lip region offset with three annuli narrowing anteriorly, a short stylet (15–18 µm) with rounded knobs, a lateral field with four incisures, an oval to rounded spermatheca containing some sperm cells, a vulva with somewhat prominent lips, a subcylindrical tail with a rounded, smooth terminus, and males present. Phylogenetic relationships of California Pratylenchus species and other members of the genus were inferred using 18S rRNA, D2–D3 of 28S rRNA, and the mitochondrial COI gene sequences. This study provides an updated assessment of Pratylenchus species diversity in California, highlighting both previously described taxa and newly discovered species. Full article

(This article belongs to the Section Phylogeny and Evolution)

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17 pages, 1325 KB

Open AccessArticle

Shifts in Composition, Origin, and Distribution of Invasive Alien Plants in Guangxi, China, over 50 Years

by Jia Kong, Cong Hu, Yadong Qie, Chaohao Xu, Aihua Wang, Zhonghua Zhang and Gang Hu

Diversity 2026, 18(1), 44; https://doi.org/10.3390/d18010044 - 14 Jan 2026

Abstract

Invasions by alien plants are major global drivers of ecosystem changes and loss of biodiversity. Guangxi is an ecological barrier in southern China that is increasingly being affected by invasive alien plant species. We comprehensively reviewed the literature, compiling and analyzing the long-term [...] Read more.

Invasions by alien plants are major global drivers of ecosystem changes and loss of biodiversity. Guangxi is an ecological barrier in southern China that is increasingly being affected by invasive alien plant species. We comprehensively reviewed the literature, compiling and analyzing the long-term changes in species composition, native range, life forms, municipal-scale patterns, and correlates of invasive alien plant richness in Guangxi at three time points (1973, 2010, and 2023). Over the 50-year period, the number of invasive alien plant species markedly increased from 31 species in 1973 to 84 in 2010 and 158 in 2023; the number of families, genera, and species increased 2.05-, 3.75-, and 5.10-fold, respectively. Species native to North America consistently dominated the invasive flora, followed by those native to Africa. The number of species native to South America and Asia increased in the records from 2010 to 2023. Annual herbaceous plants accounted for the largest proportion of invasive species throughout the study period and showed the largest absolute increase in species number. However, no substantial temporal shifts in the overall life-form composition were detected. At the municipal scale, the invasive alien plant richness exhibited pronounced spatial heterogeneity. The invasive alien plant richness was highest in Guilin and Baise in 1973, in Guilin in 2023, followed by Nanning and Baise. Correlation analyses based on 2023 data revealed a significant positive association between invasive alien plant richness and tourism intensity, whereas relationships between population size, gross domestic product, and climatic variables were weak or nonsignificant. Overall, our results document the continued expansion and the spatial differentiation of invasive alien plants in Guangxi over the 50-year period of 1973–2023. These patterns primarily reflect the accumulation in the number of recorded invasive species under a consistent classification framework and should be interpreted with caution given the potential variation in survey effort among periods and cities. The results provide a descriptive baseline for the provincial-scale monitoring, risk assessment, and management of invasive alien plants. Full article

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

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9 pages, 2379 KB

Open AccessArticle

Linking Phenotypic Variation to Developmental Conditions: A Population-Phenogenetic Study of Lacerta agilis

by Vladimir M. Zakharov and Ilya E. Trofimov

Diversity 2026, 18(1), 43; https://doi.org/10.3390/d18010043 - 14 Jan 2026

Abstract

We analyzed intraspecific phenotypic variability relation to experimentally established dependencies of phenotypic traits on developmental conditions. As a model system, we examined meristic variation in the sand lizard (Lacerta agilis) across the European part of its range. At both the level [...] Read more.

We analyzed intraspecific phenotypic variability relation to experimentally established dependencies of phenotypic traits on developmental conditions. As a model system, we examined meristic variation in the sand lizard (Lacerta agilis) across the European part of its range. At both the level of individual traits and their combined expression, of the spatial patterns of phenotypic diversity largely corresponds to experimentally identified trends in phenotype changes associated with developmental temperature, indicating a substantial role of habitat conditions in shaping phenotypic differentiation and the direction of genetic change. Deviations from these trends were observed in several intraspecific groups and were consistent with previously documented patterns of genetic differentiation. Overall, our results demonstrate the utility of an approach that interprets phenotypic variability through experimentally derived relationships between phenotype and developmental conditions, providing a promising framework for large-scale studies of intraspecific diversity in this and other species. Full article

(This article belongs to the Section Animal Diversity)

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