Diversity

13 pages, 4287 KB

Open AccessArticle

Coevolution and Genetic Divergence Between Two Aphid Species (Aphididae, Lachninae: Cinara formosana and Tuberolachnus salignus) and Their Obligate Buchnera Symbionts

by Chunlin An, Huachao Xu, Lixiang Wang, Lei Liu, Youssef Dewer and Suqin Shang

Diversity 2026, 18(2), 105; https://doi.org/10.3390/d18020105 (registering DOI) - 7 Feb 2026

Abstract

The obligate symbiosis between aphids and their primary bacterial symbionts (Buchnera) is ecologically and evolutionarily significant, yet the genetic patterns underlying these associations require further clarification. This study investigated the coevolutionary relationships of two aphid species, Cinara formosana and Tuberolachnus salignus [...] Read more.

The obligate symbiosis between aphids and their primary bacterial symbionts (Buchnera) is ecologically and evolutionarily significant, yet the genetic patterns underlying these associations require further clarification. This study investigated the coevolutionary relationships of two aphid species, Cinara formosana and Tuberolachnus salignus, with their Buchnera symbionts using COI (mitochondrial cytochrome c oxidase subunit I) and bacterial 16S rRNA (16S ribosomal RNA) markers revealed substantial genetic divergence between the two aphid species, with interspecific genetic distances ranging from 0.131 to 0.138. In contrast, populations of T. salignus from different regions showed minimal intraspecific variation (genetic distance 0.006). Phylogenetic analyses confirmed that populations of each aphid species formed distinct, monophyletic clusters. Crucially, the phylogenetic relationships inferred from the aphid COI gene were fully congruent with those derived from the Buchnera 16S rRNA gene sequences. This concordance further supports the application of the COI gene as a reliable marker for species identification within the studied Lachninae aphids. Our findings provide novel insights into the coupled genetic divergence and coevolution of aphids and their obligate symbionts, offering a molecular framework for the precise identification and population monitoring of these aphids, which can inform sustainable management strategies. Full article

(This article belongs to the Section Phylogeny and Evolution)

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15 pages, 1140 KB

Open AccessArticle

Identifying Core Habitats and Connectivity Patterns for the Endangered Black Muntjac in a Subtropical Montane Reserve

by Jie Yao, Feiyan Lv, Jiancheng Zhai, Jun Tian and Ruijie Yang

Diversity 2026, 18(2), 104; https://doi.org/10.3390/d18020104 - 6 Feb 2026

Abstract

Habitat loss and fragmentation threaten forest-dependent ungulates in subtropical mountain systems, yet integrative assessments linking habitat quality and landscape configuration remain limited. Here, we evaluated habitat suitability and identified core habitat patches for the endangered black muntjac (Muntiacus crinifrons) in Tongboshan [...] Read more.

Habitat loss and fragmentation threaten forest-dependent ungulates in subtropical mountain systems, yet integrative assessments linking habitat quality and landscape configuration remain limited. Here, we evaluated habitat suitability and identified core habitat patches for the endangered black muntjac (Muntiacus crinifrons) in Tongboshan National Nature Reserve using an Analytic Hierarchy Process–Habitat Suitability Index (AHP–HSI) framework integrated with camera-trap validation and landscape pattern analysis. Vegetation-related indicators (NDVI and vegetation type) were the dominant suitability drivers, and highly suitable habitats accounted for 62.9% of the reserve (8646.97 ha), forming three major forest blocks with low disturbance levels. Camera-trap detections (n = 58) showed strong concordance with model predictions (98.28% within moderately suitable or higher classes). Landscape metrics revealed contrasting spatial configurations between overall high-suitability habitats and optimal core patches, indicating that demographic source areas are embedded within fragmented peripheral mosaics. Medium patches and forested ridges may function as potential stepping stones and corridors facilitating movement across habitat clusters. These findings highlight the importance of maintaining functional connectivity and mitigating edge disturbances in buffer and experimental zones to ensure long-term population persistence and effective protected-area management for forest ungulates. Full article

(This article belongs to the Section Biodiversity Conservation)

21 pages, 3208 KB

Open AccessArticle

Impacts of Haloxylon ammodendron Plantation Establishment on Arachnid and Soil Mesofauna Communities in a Desert–Oasis Ecotone

by Ziting Wang, Xiuzhen Zhao, Yongzhen Wang, Quanlin Ma, Yongzhong Luo, Xin Luo, Xiaogan Zhou, Fang Li and Jiliang Liu

Diversity 2026, 18(2), 103; https://doi.org/10.3390/d18020103 - 6 Feb 2026

Abstract

Haloxylon ammodendron plantations constitute a dominant vegetation component of the desert–oasis ecotone in the arid and semi-arid regions of northwest China, playing a critical role in maintaining oasis stability and ecological security. However, the effects of converting natural desert ecosystems into plantations on [...] Read more.

Haloxylon ammodendron plantations constitute a dominant vegetation component of the desert–oasis ecotone in the arid and semi-arid regions of northwest China, playing a critical role in maintaining oasis stability and ecological security. However, the effects of converting natural desert ecosystems into plantations on the soil food webs of arthropods remain poorly understood, particularly with respect to how these effects vary across plantation age. To address this knowledge gap, we conducted a field investigation in the desert–oasis ecotone of the middle reaches of the Hexi Corridor, Gansu Province. Using pitfall trapping, we sampled two key arthropod taxa (arachnids and soil mesofauna) from control areas (natural deserts) and H. ammodendron plantations representing different ages (young and old). The results indicated that both young and old plantations were associated with significantly higher abundance and richness of arachnids, soil mesofauna, mites, and springtails compared with natural deserts, with springtail richness exhibiting a further significant increase in old plantations. Arachnid responses to plantation conversion were strongly structured by body size. Medium arachnid abundance increased in both young and old plantations, whereas large arachnid abundance increased only in young plantations and declined in older ones. In contrast, small arachnid abundance exhibited significant increases exclusively in old plantations. In addition, relationships between arachnid, mite and springtail abundance varied with plantation age: the ratio of large arachnids to mites and springtails declined significantly in old plantations relative to young ones, while the corresponding ratio for small arachnids showed an opposite pattern. Variations in soil mesofauna community composition were primarily explained by shrub cover, herbaceous cover, coarse sand proportion, silt-clay content, and soil soluble salt, which together accounted for 48.9% of observed variation. For arachnids, soil mesofauna as a food resource significantly enhanced abundance and richness. Moreover, shrub cover and silt-clay content were also drivers of arachnid community variation, jointly explaining 6.7% of variance. Overall, the establishment of H. ammodendron plantations promoted the diversity of both arachnids and soil mesofauna, but their relationships shifted dynamically with plantation age, leading to a reorganization of detrital food web structure and functioning. Full article

(This article belongs to the Special Issue Arthropod Diversity in Arid and Desert Ecosystems)

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14 pages, 2223 KB

Open AccessArticle

Plant Diversity and Community Structure of Subalpine Wetlands in Fenghuangshan, Northeast China

by Bing Li, Wansheng Liu, Shang Dong, Yuewen Wang and Liqiang Mu

Diversity 2026, 18(2), 102; https://doi.org/10.3390/d18020102 - 6 Feb 2026

Abstract

Wetlands play essential roles in sustaining biodiversity, maintaining hydrological stability, and regulating the climate. Subalpine wetlands are particularly rare in Northeast China, yet their floristic composition and diversity patterns remain poorly studied. To fill this knowledge gap and address the lack of baseline [...] Read more.

Wetlands play essential roles in sustaining biodiversity, maintaining hydrological stability, and regulating the climate. Subalpine wetlands are particularly rare in Northeast China, yet their floristic composition and diversity patterns remain poorly studied. To fill this knowledge gap and address the lack of baseline plant data for this region, this study conducted systematic field surveys in the subalpine wetlands of Fenghuangshan, Heilongjiang Province, with the aim of assessing plant diversity, dominant floristic types, and community differentiation. The result showed a total of 100 vascular plant species were recorded, belonging to 38 families and 69 genera. Four nationally protected Class II species were also identified, underscoring the region’s conservation importance. Across the three representative plant associations, the Carex limosa-Carex lasiocarpa association exhibited markedly higher species richness, Simpson diversity, and Shannon diversity than both the Salix sericeo-cinerea and Pinus pumila-Rhododendron aureum associations, reflecting pronounced community-level variation in biodiversity. The floristic characteristics at the species level also pointed to a predominantly temperate distribution and showed a pronounced vascular plant flora, which is characterized by the ecotone between temperate and boreal biogeographical zones, directly underpinning the different composition of the communities. This study presents a detailed baseline assessment of plant diversity and floristic composition in the Fenghuangshan subalpine wetland ecosystem. In response to the limited understanding of such ecosystems in East Asia, this research provides crucial foundational data. Furthermore, by contextualizing these results with ecological patterns observed in Northern European wetlands, the study places the local findings into a broader, global perspective. The results offer essential scientific support for biodiversity monitoring, ecological conservation planning, and the future restoration of subalpine wetlands in Northeast China. Full article

(This article belongs to the Section Plant Diversity)

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15 pages, 4074 KB

Open AccessArticle

Plant Species Diversity and Dominant Plant Functional Types Control Productivity in a Reclaimed Mineland Prairie

by Ellen Kieser, Rachael Glover, Beck M. Swab and G. Matt Davies

Diversity 2026, 18(2), 101; https://doi.org/10.3390/d18020101 - 6 Feb 2026

Abstract

Tallgrass prairie ecosystems in North America sustain globally important plant and animal biodiversity while providing ecosystem services, including biomass production, forage for livestock, and carbon sequestration. Land use change has left less than 1% of North American prairies intact, and opportunities are needed [...] Read more.

Tallgrass prairie ecosystems in North America sustain globally important plant and animal biodiversity while providing ecosystem services, including biomass production, forage for livestock, and carbon sequestration. Land use change has left less than 1% of North American prairies intact, and opportunities are needed for their restoration. There has been increasing interest in the establishment of prairies on degraded former minelands, where significant challenges exist in reestablishing historic vegetation communities. We examined how the productivity and diversity of mineland prairies were influenced by varying restoration treatments that had been applied nearly a decade previously. We utilized an existing prairie research plot network established using seed mixes containing from one to seven different species and differing fertilization and tillage treatments. We calibrated a non-destructive method to assess prairie biomass and used it to assess the productivity and diversity across 312 research plots. The results showed that, with the exception of C4 grasses, few originally seeded species were present. Significant differences in species richness existed as a function of the interacting effects of seed mix type and fertilization treatment. Unfertilized plots generally had a higher species richness, particularly where larger numbers of species were included in the mixes. Prairie biomass was significantly greater in seed mixes containing big bluestem (Andropogon gerardii) and was also significantly related to Shannon diversity. Our results suggest that the establishment of (Andropogon gerardii) is fundamental to maximizing the diversity and productivity of mineland prairies, especially in the absence of follow-up management. The results also suggest that caution should be exercised when considering the use of fertilizer, as this may reduce the diversity of native species by favoring competitive non-native species such as some C3 grasses. Full article

(This article belongs to the Section Plant Diversity)

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22 pages, 4729 KB

Open AccessArticle

Diversity and Ethnobotanical Knowledge of Spice Plants and Pickled Vegetables in Youjiang District, Baise City, Guangxi, China

by Wei Shen, Bin Huang, Yuefeng Zhang, Xiangtao Cen, Lingling Lv, Piyaporn Saensouk, Phiphat Sonthongphithak, Surapon Saensouk and Tammanoon Jitpromma

Diversity 2026, 18(2), 100; https://doi.org/10.3390/d18020100 - 5 Feb 2026

Abstract

Spices and pickled vegetables play a central role in everyday cuisine in China, contributing to flavor, food preservation, and dietary continuity, yet their ethnobotanical diversity and use patterns remain insufficiently documented in urbanizing regions. This study aimed to document the diversity, utilization forms, [...] Read more.

Spices and pickled vegetables play a central role in everyday cuisine in China, contributing to flavor, food preservation, and dietary continuity, yet their ethnobotanical diversity and use patterns remain insufficiently documented in urbanizing regions. This study aimed to document the diversity, utilization forms, and cultural importance of spice plants and species used for pickled products in Youjiang District, Baise city, Guangxi Zhuang Autonomous Region, southern China. Ethnobotanical data were collected in 2025 through field surveys conducted in traditional markets, local households, and local restaurants. Semi-structured interviews, informal conversations, and participant observation were carried out with 40 informants selected using snowball sampling to capture practical knowledge related to culinary use, fermentation, and trade. The cultural importance of recorded species was evaluated using the Use Value (UV) index. A total of 68 plant taxa belonging to 55 genera and 27 families were documented. Zingiberaceae and Apiaceae were the most species-rich families, with native and introduced species nearly equally represented. Herbs dominated the recorded growth forms, while fruits, leaves, and roots were the most frequently used plant parts. Dried use was the predominant form, followed by fresh use and pickled products. Sixty species were used as spices and 13 species as pickled vegetables, with several taxa exhibiting multifunctional use. Species with the highest UVs, including Allium sativum, A. cepa, A. fistulosum, and Houttuynia cordata, were characterized by frequent daily use. These findings highlight the role of ethnobotanical knowledge in sustaining culturally embedded and resilient urban food systems. Full article

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55 pages, 3603 KB

Open AccessArticle

A Step Too Far: Culling a Native Australian Honeyeater, the Noisy Miner (Manorina melanocephalis), for ‘Conservation’: Biases, Contradictions, and Myth-Making

by Gisela Kaplan

Diversity 2026, 18(2), 99; https://doi.org/10.3390/d18020099 - 5 Feb 2026

Abstract

Birds of the Anthropocene have to adapt to changing and often very unfavourable conditions, among them habitat fragmentation or outright habitat loss. Many organisations worldwide are deeply committed to stemming the tide of extinctions of native species and maintaining biodiversity. The question is [...] Read more.

Birds of the Anthropocene have to adapt to changing and often very unfavourable conditions, among them habitat fragmentation or outright habitat loss. Many organisations worldwide are deeply committed to stemming the tide of extinctions of native species and maintaining biodiversity. The question is how far scientists and practitioners are willing to go to achieve conservation goals in situations that are not entirely resolved, are contradictory, or involve dubious claims about alleged causative agents. The noisy miner, Manorina melanocephala, has been painted as such a causative agent in the decline of small woodland birds. The noisy miner is a highly successful, flexible, and socially complex small native Australian honeyeater (woodland bird). As will be shown in a new data analysis, the noisy miner also ranks highly in cognitive abilities. Despite its status as a native species, a protracted campaign against the species has led to government policies permitting its culling in New South Wales due to its alleged ‘overabundance’ and ‘harmful’ impact on small woodland birds. As a consequence, noisy miners can now be shot legally and have been culled in their thousands in the last decade. Allegedly, these actions have been taken for conservation purposes. This paper raises significant doubts about the claims against this species, and the methods and ethics of how a native species can become the sole bearer of the ills of the Anthropocene. This paper exposes bias or misinterpreted evidence and shows how myth-making is possible in modern science and how language can purposefully mislead the public via characterisations of avian behaviour. In essence, this paper is a case study of ethical issues in science: about the degree and type of intervention, and how far we are willing to go in the name of conservation, particularly when based on spurious or contradictory evidence and at the cost of native animals. Full article

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

14 pages, 7934 KB

Open AccessArticle

Multi-Dimensional Characterization of Seasonal Phytoplankton Community Dynamics in Urban Water Bodies of Beijing

by Dongxia Wang, Bo Liu, Yaqi Wang, Jie Yang, Tingting Du, Kena Shi, Shuai Yang, Shaokai Xiong, Lei Guo, Ranran Ding, Zhen Cheng, Yu Peng and Yuxin Hu

Diversity 2026, 18(2), 98; https://doi.org/10.3390/d18020098 - 5 Feb 2026

Abstract

Phytoplankton play a central role in aquatic ecosystems as primary producers and serve as key bioindicators of water quality. This study systematically examined the seasonal dynamics (spring, summer, autumn) of phytoplankton communities in Beijing’s urban water bodies by integrating α-diversity, co-occurrence networks, β-diversity [...] Read more.

Phytoplankton play a central role in aquatic ecosystems as primary producers and serve as key bioindicators of water quality. This study systematically examined the seasonal dynamics (spring, summer, autumn) of phytoplankton communities in Beijing’s urban water bodies by integrating α-diversity, co-occurrence networks, β-diversity decomposition, and environmental driver analysis. Results indicated that spring exhibited the highest α-diversity (Margalef index: 2.95, Shannon index: 2.99) and optimal ecological conditions, with community assembly primarily influenced by spatial processes. Summer was characterized by cyanobacterial dominance, a peak in algal density (957.35 ± 4818.65 ind./L), and tightly connected, cooperative networks with high clustering and positive interactions. In autumn, β-diversity increased significantly (0.9030), driven predominantly by taxa turnover, while co-occurrence networks became more modular and less connected, indicating enhanced environmental filtering. Key environmental drivers, including temperature, total phosphorus, total nitrogen, and organic pollution indices, shaped community structure, with their relative influence shifting seasonally. A random forest model, trained on multiple biodiversity indices and algal density, effectively captured nonlinear ecological patterns, confirming the highest ecological quality in spring and a marginal decline in autumn. These findings highlight the seasonal transition in assembly mechanisms—from spatial to environmental processes—and support tailored management strategies. Full article

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

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30 pages, 5826 KB

Open AccessArticle

Diversity of Upstream-Migrating Fish Passing Xayaburi Hydroelectric Power Plant in Northern Laos

by Wayne Robinson, Rohit Pothula, Rattee Tanatitivarapong, Thanasak Poomchaivej, Suthathip Khongthon, Lee J. Baumgartner, Michael Raeder and Nattavit Thanakunvoraset

Diversity 2026, 18(2), 97; https://doi.org/10.3390/d18020097 - 5 Feb 2026

Abstract

The Mekong River is one of the most fish-species-rich rivers on Earth, yet most of our knowledge on fish diversity and migrations comes from fishery catch data, and fishery-independent, standard effort surveys are needed. Specifically, migratory fish data sets are heavily biased by [...] Read more.

The Mekong River is one of the most fish-species-rich rivers on Earth, yet most of our knowledge on fish diversity and migrations comes from fishery catch data, and fishery-independent, standard effort surveys are needed. Specifically, migratory fish data sets are heavily biased by the influence of fisher gear types and by fisher location, with most major Mekong fisheries, and consequently fishing effort, being in southern Laos, Cambodia and Vietnam. Fish using the Xayaburi Hydroelectric Power Plant (XHPP) fish pass have been monitored since commencing operations in 2019. This programme offers a unique, eventual long-term data set, with standard effort, aimed at migrating fish species, and capable of providing data on the scarcely studied fish migration patterns of northern Laos. Species that migrate from floodplain feeding and spawning habitats to the main channel were dominant in the dry season, but used the fish pass throughout the year. On the other hand, known long-distance migratory species were infrequently collected in the fish pass, but showed very strong affiliations with the flood season from May to July. We demonstrate that fish passage mitigation in tropical southeast Asia can, and should be, designed for use by a multitude of species, including resident species that are not classified as migratory. If changes in connectivity from future downstream barriers (i.e., scheduled hydropower dams) occur, then the monitoring program at XHPP will be able to detect the impact on migratory fish populations. We identify several species whose presence and relative abundance have potential to serve as indicators for future downstream connectivity issues. Full article

(This article belongs to the Special Issue Aquatic Biodiversity and Habitat Restoration)

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21 pages, 783 KB

Open AccessArticle

Molecular Resources for the Stored Grain Cryptolestes Cryptic Pest Species (Coleoptera: Laemophloeidae)

by Wee Tek Tay, Melissa Piper, Stephen Beckett, Daniele Kunz and Paul De Barro

Diversity 2026, 18(2), 96; https://doi.org/10.3390/d18020096 - 4 Feb 2026

Abstract

Recent evolutionary genetics and molecular characterisation of Cryptolestes (Ganglbauer) stored grain pest beetle species revealed gaps in public DNA databases that resulted in molecular diagnostic inconsistencies in publicly available sequence databases. We report the characterisation of mitochondrial DNA cytochrome oxidase I (mtCOI) genes [...] Read more.

Recent evolutionary genetics and molecular characterisation of Cryptolestes (Ganglbauer) stored grain pest beetle species revealed gaps in public DNA databases that resulted in molecular diagnostic inconsistencies in publicly available sequence databases. We report the characterisation of mitochondrial DNA cytochrome oxidase I (mtCOI) genes from specimens intercepted during Australia’s border biosecurity inspections, and surveys of public mtCOI gene sequences, for Cryptolestes species status re-assessment. We identified and characterised a new putative Cryptolestes species (C. sp. ‘WTT-2016’) and demonstrated the close evolutionary relationships between C. ferrugineus (Stephens)/C. pusilloides (Steel and Howe) and between C. pusillus (Schonherr) and the previously identified C. sp. ‘WTT-2013’ cryptic species. Confusion between C. ferrugineus, C. pusiolloides, C. pusillus, C. sp. ‘WTT-2013’, and C. sp. ‘WTT-2016’ highlighted a substantial and persistent taxonomic challenge within Cryptolestes, while low C. spartii (Curtis)/C. corticinus (Reitter) inter-specific genetic distances suggested they were the same species. Assembled and annotated mitochondrial DNA genomes (mitogenomes) of six Cryptolestes species identified assembly errors in published mitogenomes of C. ferrugineus and C. turcicus (Grouvelle) and misidentification of C. pusillus. Based on re-evaluation of genetic distances and phylogeny congruence, we proposed a Cryptolestes ‘operational species-level genetic gap’ at approximately 5% to help define Cryptolestes species boundaries, thereby contributing to improving agricultural biosecurity preparedness associated with this important stored grain beetle species. Our work also provides an evolutionary framework that will contribute to future understanding of ecological and environmental impact posed by this highly invasive cryptic beetle species complex. Full article

(This article belongs to the Section Animal Diversity)

30 pages, 14749 KB

Open AccessFeature PaperArticle

Artificial Intelligence-Assisted Daytime Video Monitoring for Bird, Insect, and Other Wildlife Interactions with Photovoltaic Solar Energy Facilities

by Yuki Hamada, Adam Z. Szymanski, Paul F. Tarpey and Leroy J. Walston

Diversity 2026, 18(2), 95; https://doi.org/10.3390/d18020095 - 3 Feb 2026

Abstract

Studying bird, insect, and other wildlife interactions with photovoltaic (PV) solar energy facilities is difficult due to limited multi-season, multi-site data. Researchers can address such data gaps by combining passive monitoring and artificial intelligence (AI). As a part of the development of AI-enabled [...] Read more.

Studying bird, insect, and other wildlife interactions with photovoltaic (PV) solar energy facilities is difficult due to limited multi-season, multi-site data. Researchers can address such data gaps by combining passive monitoring and artificial intelligence (AI). As a part of the development of AI-enabled avian–solar monitoring software, we collected over 19,000 h of daytime videos at five PV sites across three U.S. regions between 2019 and 2024. We applied a moving object detection and tracking (MODT Version 1) AI model we developed earlier to 4373 h of the footage to extract moving objects in video frames, and human reviewers interpreted the model output and identified 68,646 bird, 25,968 insect, and 169 other wildlife instances to generate the training/validation dataset. We analyzed the data by site, region, and season, considering ground cover and landscapes. Songbirds were most common, with raptors as the next most frequent group. Most notably, no bird collisions were confirmed in our observations collected from the videos. Birds most often flew over or near panels, with the highest observations in the Midwest and Northeast (approximately 30 observations per hour on average) and fewer in the desert Southwest. Other behaviors included perching, foraging, and nesting. Bird abundance peaked during breeding and migration seasons. AI-assisted video monitoring proved effective for non-invasively studying flying wildlife at solar facilities to inform ecologically mindful energy development. Full article

(This article belongs to the Special Issue Avian Ecology and Diversity, Population Monitoring and Conservation II: Recent Advances and New Challenges)

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12 pages, 1979 KB

Open AccessCommunication

Rhopilema nomadica in the Mediterranean: Molecular Evidence for Migration and Insights into Its Proliferation

by Zafrir Kuplik, Hila Dror, Karin Tamar, Alan Sutton, James Lusana, Blandina Lugendo and Dror L. Angel

Diversity 2026, 18(2), 94; https://doi.org/10.3390/d18020094 - 3 Feb 2026

Abstract

Since it was first observed in Israel in the 1970s, and due to its subsequent negative impact on human activities, the nomad jellyfish Rhopilema nomadica has earned itself a spot on the list of the 100 Worst Invasive Alien Species in the Mediterranean. [...] Read more.

Since it was first observed in Israel in the 1970s, and due to its subsequent negative impact on human activities, the nomad jellyfish Rhopilema nomadica has earned itself a spot on the list of the 100 Worst Invasive Alien Species in the Mediterranean. It was assumed to originate in the Red Sea, or in the Indo-Pacific region, but in the absence of additional reports of live specimens outside the Mediterranean, its origins have remained a mystery. Here, via molecular analysis, we present the first verified results of the existence of R. nomadica in the Western Indian Ocean. Moreover, using additional evidence from Cassiopea andromeda and R. nomadica, we propose that the construction of the Aswan High Dam may have led to the proliferation of R. nomadica in the Levantine Basin. Full article

(This article belongs to the Special Issue Cnidaria: Diversity, Ecology, and Evolution)

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31 pages, 5434 KB

Open AccessArticle

Diversity, Ethnobotanical Knowledge, and Cultural Food Significance of Edible Plants Traded in an Urban Market in Baise City, China

by Yuefeng Zhang, Bin Huang, Wei Shen, Lingling Lv, Xiangtao Cen, Piyaporn Saensouk, Thawatphong Boonma, Surapon Saensouk and Tammanoon Jitpromma

Diversity 2026, 18(2), 93; https://doi.org/10.3390/d18020093 - 3 Feb 2026

Abstract

Urban markets are key nodes for the persistence and adaptation of traditional edible plant knowledge, linking rural production with urban consumption. This study was based on monthly market surveys conducted throughout 2025 in an urban market in Baise City, Guangxi, China. A total [...] Read more.

Urban markets are key nodes for the persistence and adaptation of traditional edible plant knowledge, linking rural production with urban consumption. This study was based on monthly market surveys conducted throughout 2025 in an urban market in Baise City, Guangxi, China. A total of 54 edible plant taxa were recorded, including both native and introduced species, with herbaceous plants predominating alongside climbers, trees, and grasses. Ethnobotanical data were obtained through semi-structured interviews with 40 local informants (20 men and 20 women, aged 25–65 years) selected using purposive sampling, focusing on individuals actively involved in purchasing and preparing edible plants. High Cultural Food Significance Index (CFSI) values highlighted culturally central taxa, including Allium ascalonicum L., × Brassarda juncea (L.) Su Liu & Z.H. Feng, and Houttuynia cordata Thunb., reflecting frequent use and culinary–medicinal integration. Fidelity Level (FL) analyses identified species with strong consensus for specific therapeutic applications, such as × B. juncea, Alpinia galanga (L.) Willd., and Nelumbo nucifera Gaertn., while Informant Consensus Factor (FIC) values indicated moderate to high agreement across gastrointestinal, respiratory, inflammatory, and other health categories. These results underscore the persistence of the “food as medicine” concept, showing that edible plants function simultaneously as nutritional and preventive healthcare resources. The overlap of culinary and medicinal roles demonstrates dynamic food–medicine integration, with urban markets acting as cultural hubs that maintain dietary diversity, household food security, and ethnobotanical knowledge. Future studies should incorporate ethnozoological resources and longitudinal monitoring to capture the full scope of urban food–medicine systems. Full article

(This article belongs to the Special Issue Ethnobotany, Medicinal Plants and Biodiversity Conservation: 2nd Edition)

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31 pages, 6364 KB

Open AccessArticle

First Known Cranium of Cuvieronius (Proboscidea: Gomphotheriidae) from North America

by Peter Houde, Spencer G. Lucas, Matthew Heizler, Julia Ricci, William J. Boecklen and Brian Hampton

Diversity 2026, 18(2), 92; https://doi.org/10.3390/d18020092 - 3 Feb 2026

Abstract

We describe the first known complete cranium of an adult Cuvieronius from North America, dated to approximately 1.2 Ma, Early Irvingtonian North American Land Mammal Age. It differs in some details from better-known later Andean populations of Cuvieronius that may reflect polymorphism, sexual [...] Read more.

We describe the first known complete cranium of an adult Cuvieronius from North America, dated to approximately 1.2 Ma, Early Irvingtonian North American Land Mammal Age. It differs in some details from better-known later Andean populations of Cuvieronius that may reflect polymorphism, sexual dimorphism, ontogeny, genetic divergence, or erroneously reconstructed specimens. We argue that North/Central American and South American Cuvieronius are most logically two genetically distinct cryptic species based on differences in their ages and our inferences about genetic divergence arising from an initial founder effect and/or isolation by distance, followed by allopatry over a long geologic time interval. Full article

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

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16 pages, 2867 KB

Open AccessArticle

Tocotrienol-Dominated Profiles in Ilex Genus (Aquifoliaceae) Seeds and Their Relationship to Plant Phylogeny

by Danija Lazdiņa, Inga Mišina, Krists Dukurs and Paweł Górnaś

Diversity 2026, 18(2), 91; https://doi.org/10.3390/d18020091 - 2 Feb 2026

Abstract

Most research on tocochromanols suggests that tocotrienols (T3) are rarely found in nature, especially in dicotyledonous species. The present study investigates species from the Ilex (holly) genus, the sole surviving genus in the Aquifoliaceae family. The study tested 29 species or hybrids from [...] Read more.

Most research on tocochromanols suggests that tocotrienols (T3) are rarely found in nature, especially in dicotyledonous species. The present study investigates species from the Ilex (holly) genus, the sole surviving genus in the Aquifoliaceae family. The study tested 29 species or hybrids from botanical gardens across Eurasia and the US. A direct ultrasound-assisted extraction in ethanol (UAEE) protocol was validated and used to extract tocochromanols. Tocochromanol recovery from seeds via UAEE ranged between 96–100%, compared to saponification. α-T3 and γ-T3 accounted for an average of 91% of all tocochromanols determined in Ilex species. The highest tocochromanol content was found in I. crenata and I. serrata (8.11 and 6.66 mg 100 g⁻¹ dry weight, respectively). A total of 19 of 29 species in the Aquifoliaceae family were dominated by α-T3. Differences between plant type (shrub/tree) and seasonality (deciduous/evergreen) were not statistically significant, and appear to be mainly influenced by other factors. Linear discriminant analysis identified I. crenata, I. asprella, I. × meserveae, I. vomitoria, and I. geniculata (all shrubby) as divergent. Full article

(This article belongs to the Section Phylogeny and Evolution)

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10 pages, 2626 KB

Open AccessBrief Report

Extreme Reproductive Constraints Under Pollinator Scarcity in the Endangered Orchid Calanthe aristulifera: Five-Year Preliminary Monitoring in South Korea

by Seongjun Kim, Chang Woo Lee, Jung Eun Hwang, Hwan-Joon Park, Hyeong Bin Park, Young-Joong Kim and Yubin Lee

Diversity 2026, 18(2), 90; https://doi.org/10.3390/d18020090 - 2 Feb 2026

Abstract

Calanthe aristulifera is an endangered terrestrial orchid that has historically suffered from severe illegal poaching. However, little is understood regarding population dynamics for remaining C. aristulifera populations. This study presented the first record on the size, reproduction rate, and insect visitors of C. [...] Read more.

Calanthe aristulifera is an endangered terrestrial orchid that has historically suffered from severe illegal poaching. However, little is understood regarding population dynamics for remaining C. aristulifera populations. This study presented the first record on the size, reproduction rate, and insect visitors of C. aristulifera populations on an oceanic island from 2021 to 2025, to identify threatening factors and provide conservation implications. Throughout the study period, complete absence of fruit set of C. aristulifera was found (natural fruit set ratio: 0%). This reflects the reproductive failure as an on-going threatening factor, regardless of the yearly variations in total number of C. aristulifera individuals (198–253) and flowering rate (62.2–87.4%). The known pollinators (Eucera nipponensis and Lasioglossum occidens) were undetected near C. aristulifera populations, which coincided with complete reproductive failure. Insects like Callipora lata, Episyrphus balteatus, and Bibio tenebrosus visited to C. aristulifera flowers, but direct field and photographic observations showed no pollinia removal by such insects. Overall results highlight that conservation programs should adopt management practices to attract effective pollinators to C. aristulifera populations. Ex situ conservation may also be an option to facilitate in vitro propagation experiments, and help the remaining C. aristulifera to avoid severe reproductive constraints. Full article

(This article belongs to the Special Issue Orchid Biodiversity: Population Dynamics and Conservation Challenges)

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37 pages, 22857 KB

Open AccessArticle

Phylogenomic Insights of Mesentotoma Salmon, 1942 (Collembola: Entomobryidae: Entomobryinae): First Mitogenome and Phylogenetic Hypothesis, Taxonomic Notes, and Description of Two New Brazilian Species

by Stéphanie dos Santos Viana, Nerivania Nunes Godeiro, José Wellington de Morais and Nikolas Gioia Cipola

Diversity 2026, 18(2), 89; https://doi.org/10.3390/d18020089 - 31 Jan 2026

Abstract

We used whole-genome sequencing to assemble the first complete mitogenome from a Mesentotoma Salmon, 1942 species. Mesentotoma was included in phylogenetic analyses along with 21 mitogenomes of other Entomobryinae. Maximum likelihood and Bayesian inferences yielded similar results; both analyses indicated that Mesentotoma is [...] Read more.

We used whole-genome sequencing to assemble the first complete mitogenome from a Mesentotoma Salmon, 1942 species. Mesentotoma was included in phylogenetic analyses along with 21 mitogenomes of other Entomobryinae. Maximum likelihood and Bayesian inferences yielded similar results; both analyses indicated that Mesentotoma is related to Willowsia jacobsoni and Entomobrya proxima. However, other genera of Entomobryinae, also lacking a mucronal spine (Desertia Tshelnokov, 1979 Calx Christiansen, 1958 and Isotobrya Womersley, 1934) need to be included in further analysis to verify their relationships, as well as other species of Mesentotoma. Furthermore, five species previously assigned to Entomobrya were transferred to Mesentotoma due to the absence of a mucronal spine. E. coeruleopicta Marlier, 1945 is a junior homonym of E. coeruleopicta Schött, 1917 and a replacement name is proposed: M. tranvercyana nom. nov., comb. nov. In addition, two new species of Mesentotoma from a Brazilian island are described and characterized by reduced macrochaetotaxy. This represents the first record of Mesentotoma in the Neotropical region, increasing its total number of valid species from eight to fifteen. We provided an identification key for the seven Mesentotoma species recorded in the Tropical zone. Full article

(This article belongs to the Special Issue Integrative Systematics and Evolution of Collembola)

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17 pages, 5044 KB

Open AccessArticle

The Complete Mitogenome of Two Trachinotus Species and a Phylogenetic Analysis of the Pompano Subfamily Trachinotinae

by Oscar David Albito Balcázar, Luan Rabelo, Emile Jeane Silva Menezes, Tibério Cesar Tortola Burlamaqui, Alexandre Aleixo, José Augusto Pires Bitencourt, Grazielle Gomes, Nils Edvin Asp Neto, Iracilda Sampaio and Marcelo Vallinoto

Diversity 2026, 18(2), 88; https://doi.org/10.3390/d18020088 - 31 Jan 2026

Abstract

The marine fish genus Trachinotus (Carangidae: Trachinotinae) comprises species of considerable economic and ecological importance; however, a significant gap in genomic data has limited the understanding of its evolutionary history and systematics. To address this gap, we determined the complete mitochondrial genomes of [...] Read more.

The marine fish genus Trachinotus (Carangidae: Trachinotinae) comprises species of considerable economic and ecological importance; however, a significant gap in genomic data has limited the understanding of its evolutionary history and systematics. To address this gap, we determined the complete mitochondrial genomes of two key species, Trachinotus goodei (Palometa) and Trachinotus mookalee (Indian Pompano). The mitogenome of T. goodei was sequenced from genomic DNA and assembled de novo, whereas the T. mookalee mitogenome was assembled by mining publicly available RNA-Seq data, demonstrating a cost-effective approach for expanding genomic resources. The resulting mitogenomes were 16,547 bp and 16,545 bp long, respectively, and both presented conserved gene content (13 protein-coding genes, 22 tRNAs, 2 rRNAs) and organization typical of teleost fishes. Phylogenetic analysis incorporating these new genomes with those of four other Trachinotus species was performed via a concatenated dataset of 13 protein-coding genes. Maximum likelihood and Bayesian inference recovered Trachinotus as a strongly supported monophyletic group. The phylogeny revealed a fundamental and deeply divergent split between two major clades, one comprising species from the Atlantic Ocean and the other containing species from the Indo-Pacific. This robust biogeographic partition provides compelling evidence that allopatric speciation is a primary driver of diversification within the genus. Full article

(This article belongs to the Section Animal Diversity)

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16 pages, 4255 KB

Open AccessArticle

Enduring Gene Flow, Despite an Extremely Low Effective Population Size, Supports Hope for the Recovery of the Globally Endangered Lear’s Macaw

by Erica C. Pacífico, Gregorio Sánchez-Montes, Fernanda R. Paschotto, Thiago Filadelfo, Fernando Hiraldo, José A. Godoy, Cristina Y. Miyaki and José L. Tella

Diversity 2026, 18(2), 87; https://doi.org/10.3390/d18020087 - 31 Jan 2026

Abstract

When analyzing the long-term viability of small, declining populations, it is essential to recognize that inbreeding and the erosion of genetic diversity are primarily driven by the effective population size, which is often a fraction of the total census count. The globally endangered [...] Read more.

When analyzing the long-term viability of small, declining populations, it is essential to recognize that inbreeding and the erosion of genetic diversity are primarily driven by the effective population size, which is often a fraction of the total census count. The globally endangered Lear’s macaw (Anodorhynchus leari) is a restricted-range species endemic to the Caatinga ecoregion in NE Brazil. This species was only known in captivity due to wildlife illegal trade, until 1978, when a small population close to extinction was discovered in the wild, estimated at ca. 60 individuals in 1983. Conservation efforts have allowed for population recovery in recent decades, reaching a population of ca. 2273 individuals in 2022. Given these drastic population changes, a genetic assessment is important to empower conservation strategies with knowledge about the level of genetic variability, population genetic structure, inbreeding levels, and demographic history. We used a set of eight species-specific microsatellites to provide the first genetic assessment of the wild population of this species by genotyping non-invasive samples (molted feathers) collected in the known breeding and roosting sites of the species. Our results revealed a low effective population size (N_e = 49–80), which represents the main conservation concern. We also observed evidence of past bottlenecks. However, moderate levels of genetic diversity, no evidence of inbreeding, and a wide connectivity across the study area confirm a single population and set the ground for the potential natural recovery of this species and the recolonization of breeding sites across its former range. Full article

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

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