Endangered Research Articles

High astrovirus diversity in an endemic bat species suggests multiple spillovers from synanthropic rodents and birds.

Beyond the role of bats as natural host reservoirs of infectious agents, the impact of viral spillover from other animal species to bats has been neglected. Given the limited virus-host specificity of astroviruses (AstVs) and their propensity for cross-species transmission, we hypothesized that AstVs could be transmitted within animal communities (rodents, birds, and bats) and that native endemic bats may be exposed to viruses hosted by other species. We investigated the presence of AstV RNA in 3,796 biological samples collected in Reunion Island from Mormopterus francoismoutoui (N = 3421), an endemic free-tailed bat species, and also from small terrestrial mammals and birds: Rattus rattus (N = 146), Rattus norvegicus (N = 74), Mus musculus domesticus (N = 36), Suncus murinus (N = 99), and Columba livia (N = 20). We found significant differences in AstV prevalence between species (ranging from 1% ± 1.97% in S. murinus to 75% ± 18.9% in C. livia) as well as variation of pairwise identity of AstV sequences among host species, with a high diversity in M. francoismoutoui (mean pairwise identity: 53.2% ± 11.2%). Phylogenetic analyses further revealed that AstVs detected in bats did not cluster in a single clade and were genetically related to AstVs found in birds, rodents, pigs, dogs, cats, and reptiles. Our study suggests that bats may be exposed to viruses associated to synanthropic and alien species. Cascade effects of virus spillover toward endemic and endangered bat species need to be fully assessed.IMPORTANCEEpidemiological consequences of cross-species transmission of zoonotic viruses are mostly considered from a health and economic perspective. Virus spillovers resulting from human-introduced species are much less considered, although they may have major consequences on the conservation of endemic and endangered bat species, in particular in an island context. Based on astrovirus detection and sequencing in an endemic bat species and five non-native species on a tropical island, we identified multiple and repeated viral introductions from synanthropic rodents and birds to bats, rather than the opposite. Such findings call for more investigations in these isolated and vulnerable ecosystems to better understand and mitigate the risks associated with pathogen spillovers.

Integrated analyses provide insights into the seed dormancy mechanisms of the endangered plant Sinojackia sarcocarpa.

Sinojackia sarcocarpa, an endangered ornamental plant endemic to China, faces germination challenges that contribute to its endangered status. The mechanisms of its seed dormancy are not well understood. This study used morphological, physiological, transcriptomic, and gene function analyses to investigate these mechanisms. Our research shows that seed dormancy in Sinojackia sarcocarpa involves both physical and physiological factors. We found that removing the hard endocarp and applying gibberellic acid can effectively break dormancy. Transcriptomic analysis identified 2218 up-regulated and 374 down-regulated genes during germination. Notably, DOG1-domain genes SsDOGL4, SsTGA9, and SsTGA10 were significantly downregulated, while SsDOG1 was not. Additionally, overexpression of SsDOGL4 in Arabidopsis endosperm was found to enhance seed dormancy. Collectively, these findings offer significant insights into the mechanisms underlying seed dormancy in this endangered plant species.

Range-wide understanding of genetic diversity and population structure of endangered Kashmir musk deer in North-Western Himalaya.

The endangered Kashmir musk deer (Moschus cupreus), native to high-altitude Himalayas, is an ecological significant and endangered ungulate, threatened by habitat loss and poaching for musk pod distributed in western Himalayan ranges of India, Nepal and Afghanistan. Despite its critical conservation status and ecological importance in regulating vegetation dynamics, knowledge gaps persist regarding its population structure and genetic diversity, hindering effective management strategies. We aimed to understand the population genetics of Kashmir musk deer in north-western Himalayas using two mitochondrial DNA (mtDNA) regions and 11 microsatellite loci. Total of 63 consensus sequences were analyzed, revealing 10 haplotypes with high haplotype diversity (Hd = 0.906 ± 0.031) and moderate nucleotide diversity (π = 0.00539 ± 0.004) at mitochondrial markers. Microsatellite analysis indicated moderate genetic variability, with observed heterozygosity (Ho = 0.445 ± 0.049) and expected heterozygosity (He = 0.764 ± 0.039), comparable to the forest musk deer but relatively lower than that observed in other ungulates. Population structure analysis identified three potential genetic clusters, with evidence of genetic admixture in the Lahaul Valley, possibly due to gene flow from neighboring areas. Historical demographic analyses using Bayesian skyline plots and mismatch distribution curves indicated stable population sizes in the past, followed by recent declines in maternal effective population size. Our findings highlight the necessity of preserving the genetic diversity of the Kashmir musk deer to ensure its long-term survival. We recommend expanding the geographic range of sampling to include regions such as Chamba and Kinnaur districts in Himachal Pradesh, potential areas in Jammu and Kashmir and Uttarakhand, for more comprehensive population-level analysis. Such efforts will be crucial for developing targeted conservation strategies and mitigating the impacts of human activities on this endangered species.

Insights on the evolution and adaptation toward high-altitude and cold environments in the snow leopard lineage.

How snow leopard gradually adapted to the extreme environments in Tibet remains unexplored due to the scanty fossil record in Tibet. Here, we recognize five valid outside-Tibet records of the snow leopard lineage. Our results suggest that the snow leopard dispersed out of the Tibetan Plateau multiple times during the Quaternary. The osteological anatomy of the modern snow leopard shows adaptation to the steep slope and, to a lesser extent, cold/high-altitude environment. Fossils and phylogeny suggest that the snow leopard experienced a gradual strengthening of such adaptation, especially since the Middle Pleistocene (~0.8 million years). Species distribution modeling suggests that the locations of the fossil sites are not within most suitable area, and we argue that local landscape features are more influential factors than temperature and altitude alone. Our study underscores the importance of integrating morphology, fossil records, and species distribution modeling, to comprehensively understand the evolution, ecology, and inform conservation strategies for endangered species.

Stem Cell Therapy for Diseases of Livestock Animals: An In-Depth Review.

Stem cells are unique, undifferentiated cells that have the ability to both replicate themselves and develop into specialized cell types. This dual capability makes them valuable in the development of regenerative medicine. Current development in stem cell research has widened their application in cell therapy, drug discovery, reproductive cloning in animals, and cell models for various diseases. Although there are substantial studies revealing the treatment of human degenerative diseases using stem cells, this is yet to be explored in livestock animals. Many diseases in livestock species such as mastitis, laminitis, neuromuscular disorders, autoimmune diseases, and some debilitating diseases are not covered completely by the existing drugs and treatment can be improved by using different types of stem cells like embryonic stem cells, adult stem cells, and induced pluripotent stem cells. This review mainly focuses on the use of stem cells for disease treatment in livestock animals. In addition to the diseases mentioned, the potential of stem cells can be helpful in wound healing, skin disease therapy, and treatment of some genetic disorders. This article explores the potential of stem cells from various sources in the therapy of livestock diseases and also their role in the conservation of endangered species as well as disease model preparation. Moreover, the future perspectives and challenges associated with the application of stem cells in livestock are discussed. Overall, the transformative impact of stem cell research on the livestock sector is comprehensively studied which will help researchers to design future research work on stem cells related to livestock diseases.

Assessment of genetic conservation units of an endangered glacial relict insular species, Amentotaxus formosana, based on fine-scale genetic structures of multiple fragmented mountainous populations in Taiwan

Assessment of genetic conservation units of an endangered glacial relict insular species, Amentotaxus formosana, based on fine-scale genetic structures of multiple fragmented mountainous populations in Taiwan

Scientific Tourism Leveraging Resilience: An Initiative on Providence and Ketlina Islands, Colombia

Summary This case study is a report which sums up a recent initiative on nature conservation and tourism. It discusses a low degree of resilience observed on Providence and Ketlina Islands (Colombian Caribbean) in the aftermath of COVID-19 and the devastating hurricanes which have hit them in past years. The impact of COVID-19 and recent meteorological events have revealed a low degree of community resilience because of a lack of solid infrastructures and low community cohesion. Consequently, proposals have emerged for community-led tourism, including a bottom-up initiative for scientific tourism which is outlined in this case study. The project will train and empower the community, who ultimately are the guardians of the destination. In this context, the project revolves around reinforcing the conservation of endangered species such as local sea turtles. More visitor involvement is also proposed, as tourists are encouraged to become guardians of the destination and its natural environment. With a more focused strategy on tourism fostering social cohesion and generating higher revenue, the islands’ resilience is expected to improve in the future. Information © The Authors 2025

Emerging contaminants in the Mediterranean Sea endangering Lebanon's Palm Islands Natural Reserve.

The Mediterranean Sea is an intercontinental marine environment renowned for its biodiversity and ecological significance. However, it is also one of the most polluted seas globally with significant levels of microplastics and heavy metals among other emerging contaminants. In Lebanon, inadequate waste management infrastructure and unregulated industrial discharges have exacerbated water quality deterioration by introducing these complex contaminants into surface and seawater. The Palm Islands Natural Reserve in Lebanon is a UNESCO-designated marine protected area and home to endangered species. However, the reserve faces significant threats from pollution, including heavy metals and microplastics, exacerbated by nearby Tripoli's escalating contamination. Plasticisers, particularly phthalates, are recognized for their hormone-disrupting effects, and heavy metals like cadmium, lead, and arsenic pose severe eco-toxicological risks. This study investigates the levels of heavy metals and phthalates in water and sediments from the Palm Islands. Samples were collected from different locations within the reserve, and heavy metals and phthalates were detected, including chromium (13.58 to 19.28 μg L-1), arsenic (2.05 to 5.04 μg L-1), cadmium (1.27 to 3.04 μg L-1), and lead (0.92 to 2.88 μg L-1). Cadmium levels exceeded the permissible limits set by environmental regulatory bodies, highlighting an urgent pollution problem. Phthalates, including DEP and DEHP, were also detected in concentrations of 7.12-10.25 μg L-1 for DEP and 38.47-56.12 μg L-1 for DEHP raising concerns over their potential eco-toxicological impact on marine species. Our research underscores the need for comprehensive environmental monitoring, better waste management infrastructure, and stricter regulatory measures to address pollution in Lebanon's coastal ecosystems.

Mammal Diversity on Conservation Islands in Protected Areas in Oaxaca, Mexico

Protected sites managed by indigenous people have been used for decades to conserve natural resources. These sites can be considered “conservation islands” and can maintain high biodiversity. This study explores the diversity and structure of medium and large mammals in (1) four protected natural areas in Oaxaca, Mexico, and (2) two different conservation strategies: one protected natural area (PNA) and three Voluntary Conservation Areas (VCAs). Data from 30 camera traps installed by community monitoring between 2013 and 2019 were used. A total of 29,304 camera days were accumulated in the Central Valleys and the Western Mountains and Valleys province. A total of 60,725 photographic records were analyzed, resulting in 13,471 independent events. Twenty-four species of wild mammals were documented, including endangered species. VCA showed higher species richness compared to PNA. Odocoileus virginianus was the most dominant in PNA, while Dicotyles angulatus was most dominant in VCA. We found differences in species richness between the four sites and between the two conservation strategies. Both conservation strategies are effective in maintaining mammal richness. We consider that these sites can serve as conservation islands that, in turn, can inter-connect landscapes and serve as potential biological corridors.

Characterizing the microbiome recruited by the endangered plant Firmiana danxiaensis in phosphorus-deficient acidic soil

Phosphorus (P)-deficient soils serve as crucial habitats for endangered plant species. Microbiomes play pivotal roles in soil element cycling and in determining a plant’s adaptability to the environment. However, the relationship between the endangered plant, microbiome, and soil stoichiometric traits, and how it affects plant adaption to P-deficient habitats remain largely unexplored. In this study, we investigated the microbiome (bacteria and fungi) in the rhizosphere of Firmiana danxiaensis, an endangered plant species growing exclusively in P-deficient acidic soils on Mt. Danxia, South China; the non-endangered coexisting tree species Pinus massoniana was used as a reference. Our results showed that soil traits in the rhizosphere of F. danxiaensis differed significantly from that of P. massoniana, including higher soil pH, lower C:N, and higher N:P. The rhizosphere of F. danxiaensis harbors higher microbial diversity and different microbial communities from P. massoniana. Using the machine learning approach, we characterized 76 bacterial and 20 fungal phylotypes dominated in F. danxiaensis rhizosphere, most of which had strong impacts on microbial ecological network structure (they accounted for only 0.33% node numbers but linked 21.2% of the nodes in the network); specifically, Udaeobacter spp., a highly abundant (constituting 4.07% of the total bacterial community) member of Verrucomicrobiota exclusively accumulated in the rhizosphere of F. danxiaensis but not P. massoniana, demonstrated a pronounced ecological prefers toward F. danxiaensis rhizosphere habitat (high pH, low C:N and high N:P) and potential antagonistic indication. In contrast, P. massoniana rhizosphere harbored more Subgroup2 of Acidobacteria and Gammaproteobacterial N-fixer. Taken together, this study provided novel evidence that endangered plants recruited a unique microbiome characterized by Udaeobacter spp. favoring high N habitat. It contributes not only to our understanding of microbiome recruitment by plants in P-deficient acidic soils, but also underscores the importance of microbiome in the conservation and population restoration of endangered plants.

Anatomical and palynological peculiarities of rare species Hyacinthella atropatana (Hyacinthaceae) in Armenia

Hyacinthella atropatana (Hyacinthaceae) is endemic to South Transcaucasia and is also listed in the Red Book of Plants of Armenia under the EN (Endangered) category. There are three known locations of this species, namely the Darelegis and Meghri floristic regions (Armenia) and Nakhchivan (Azerbaijan). The comparative anatomical analysis of H. atropatana specimens from both Armenian populations was conducted for the first time. The results revealed no anatomical differences between the examined specimens. The observed anatomical features, including the mechanical tissue in the scape and palisade tissue in the leaf, underscore the species’ xerophilic adaptations. Our research contributes also novel quantitative data to supplement existing literature. An evaluation of the species’ anatomical traits in relation to other investigated Hyacinthella and Scilla species substantiates H. atropatana’s closest structural similarity to the genus Hyacinthella, particularly regarding scape and leaf anatomy. At the same time, H. atropatana was distinguished from the representatives of both genera by having the smallest number of vascular bundles in both the scape and the leaf, as well as a smaller number of cortex layers in the scape. The data obtained confirmed the previous opinion on the uniqueness of this species. A comprehensive study of the pollen characteristics of H. atropatana was conducted also for the first time. It revealed a noticeable palynomorphological similarity between the two Armenian populations, as well as between samples collected in Armenia and Nakhchivan (Azerbaijan), which may be attributed to the considerable resemblance of their habitats. Additionally, our research established that within the Hyacinthella genus, H. atropatana is distinctive both in the size of pollen grains (somewhat larger than those noted for other studied species) and the uniqueness of pollen exine ornamentation. The data received support the previously proposed assumption about some isolation of this species within the Hyacinthella genus and its placement in a separate section, Atropatana.

Study of endophytic fungi of Ipomoea pes-caprae reveals the superiority of in situ plant conservation over ex situ conservation from a mycological view

In nature conservation, ex situ and in situ conservation strategies are discussed for protecting endangered species of plants and animals. However, the impacts of these strategies on the microbes associated with these species are rarely considered. In our study, we chose the endophytic fungi of the pantropical creeping plant Ipomoea pes-caprae as representative coastal plant in two natural coastal populations and two botanical gardens in Taiwan as collection sites in order to investigate the potential effect of ex situ plantation on the biodiversity of microbes intimately associated with this plant. In a culture-dependent approach, endophytic fungi were isolated under axenic conditions and identified to species, genus, or higher taxonomic ranks with DNA barcodes and morphology. In addition to yielding ca. 800 strains and over 100 morphospecies, a principal component analysis (PCA) of the distribution of the dominant fungal species showed clear differences in the composition of endophytic fungal species depending on the sampling sites. We conclude that the endophytic fungi from the original site are replaced by other species in the ex situ plantations. Due to the limitations of ex situ conservation of microbes and from a mycological and microbial perspective, in situ conservation should outweigh ex situ approaches.

Evaluating the Impact of Climate Change on the Asia Habitat Suitability of Troides helena Using the MaxEnt Model.

Butterflies are highly sensitive to climate change, and Troides helena, as an endangered butterfly species, is also affected by these changes. To enhance the conservation of T. helena and effectively plan its protected areas, it is crucial to understand the potential impacts of climate change on its distribution. This study utilized a MaxEnt model in combination with ArcGIS technology to predict the global potential suitable habitats of T. helena under current and future climate conditions, using the species' distribution data and relevant environmental variables. The results indicated that the MaxEnt model provided a good prediction accuracy for the distribution of T. helena. Under the current climate scenario, the species is primarily distributed in tropical regions, with high suitability areas concentrated in tropical rainforest climates. In future climate scenarios, the suitable habitat areas for T. helena in medium and high suitability categories generally show an expansion trend, which increases over time. Especially under the SSP5-8.5 scenario, by the 2090s, the area of high suitability for T. helena is projected to increase by 42.85%. The analysis of key environmental factors revealed that precipitation of the wettest quarter (Bio16) was the most significant environmental factor affecting the distribution of T. helena. The species has high demands for precipitation and temperature and can adapt to future climate warming. This study is valuable for identifying the optimal conservation areas for T. helena and provides a reference for future conservation efforts.

Utilization of oocytes from closely related domestic species for interspecies somatic cell nuclear transfer in gaur embryo production

Context The limited availability of recipient oocytes poses significant challenges in increasing the population of endangered species. Aims This study demonstrates the use of oocytes from closely related domestic species (cattle, buffalo, and goat) in the production of gaur embryos via interspecies somatic cell nuclear transfer (iSCNT). The developmental abilities of embryos from various combinations – gaur–bovine, gaur–buffalo, gaur–goat, and others – are analyzed. Previous achievements are retrospectively reviewed and summarized. Methods The methodologies for iSCNT and in vitro gaur embryo production are outlined. Key results Blastocyst rates among gaur–bovine, gaur–buffalo, and gaur–goat embryos showed no significant differences (P < 0.05). Gaur–bovine embryo development was comparable to intraspecies embryos (bovine–bovine), indicating successful developmental compatibility. Pregnancy rates after transferring gaur–bovine embryos were reported for the first time, with rates of 4.76%, 42.86%, 19.05% and 4.76% at Days 45, 60, 90 and 120, respectively. Conclusions Bovine, buffalo, and goat oocyte cytoplasm is effective for producing gaur iSCNT embryos, capable of initiating early pregnancies. Implications Laboratory techniques and methodologies can save costs and time, contributing to the conservation of endangered species.

Stress Response of the Juvenile Tri-Spine Horseshoe Crab Tachypleus tridentatus to Hypoxia: Insights From Phenotypic, Metabolomic, and Microbial Analyses.

Over the past few decades, ocean hypoxia has been increasing due to human activities. Hypoxic stress, characterized by a reduced level of dissolved oxygen, is an escalating threat to marine ecosystems, with potentially devastating effects on the viability of endangered species such as the tri-spine horseshoe crab Tachypleus tridentatus. Even though this species is remarkably resilient to low oxygen levels, persistent hypoxia can negatively impact its population's survivability. The objective of this research was to examine the impact of short-term hypoxia on the behavior, gut microbiota, and metabolomics of juvenile T. tridentatus. First instar juvenile horseshoe crabs were subjected to hypoxic stress (2mg O2/L) for 14 days and then recovered for 7 days in an environment with normal dissolved oxygen. The findings demonstrated that short-term hypoxia reduced the rates of swimming and burrowing of horseshoe crabs, and induced the change of tissue metabolites and intestinal flora malfunction. Additionally, in the hypoxia groups on day 14, 86 distinct metabolites showed a trend of downregulation, while 29 metabolites showed an upregulation trend. Arginine biosynthesis; histidine metabolism; vitamin B6 metabolism; aminoacyl-tRNA biosynthesis; and alanine, aspartate, and glutamate metabolism were the top five metabolic KEGG pathways (p < 0.05) enriched with 8 metabolites. In conclusion, our results provided new insights related to the behaviors, microbiota, and metabolites involved in juvenile T. tridentatus exposed to short-term hypoxic conditions and confirmed that hypoxia impairs their behavioral and physiological status.

Plastome data provides new insights into population differentiation and evolution of Ginkgo in the Sichuan Basin of China

BackgroundGinkgo biloba L., an iconic living fossil, challenges traditional views of evolutionary stasis. While nuclear genomic studies have revealed population structure across China, the evolutionary patterns reflected in maternally inherited plastomes remain unclear, particularly in the Sichuan Basin - a potential glacial refugium that may have played a crucial role in Ginkgo’s persistence.ResultsAnalysis of 227 complete plastomes, including 81 newly sampled individuals from the Sichuan Basin, revealed three distinct maternal lineages differing from known nuclear genome patterns. We identified 170 sequence variants and extensive RNA editing (235 sites) with a bias toward hydrophobic amino acid conversions, suggesting active molecular evolution. A previously undocumented haplotype (IIA2), predominant in western Sichuan Basin populations, showed close genetic affinity with rare refugial haplotypes. Western populations exhibited higher haplotypic diversity and distinctive genetic structure, supporting the basin’s role as both glacial refugium and corridor for population expansion. Ancient trees (314–784 years) provided evidence for interaction between natural processes and historical human dispersal in shaping current genetic patterns.ConclusionsOur findings demonstrate substantial genetic diversity within Sichuan Basin Ginkgo populations and reveal dynamic molecular evolution through plastome variation and RNA editing patterns, challenging the notion of evolutionary stasis in this living fossil. This study provides crucial genomic resources for understanding Ginkgo’s evolution and informs conservation strategies for this endangered species.

Predicting habitat refugia of the medicinal plant Dolomiaea costus under two climate change scenarios

Assessing the impacts of climate change on the distribution of medicinally important and endangered species is critical for conservation planning. This study focuses on Dolomiaea costus (Falc.) Kasana & A.K. Pandey, a critically endangered and highly valuable medicinal plant found in the fragile climate of Pakistan. Using species distribution modelling (MaxEnt), we evaluated the current and future habitat suitability of D. costus under two climate change scenarios (SSP370 and SSP585) for the periods 2041–2070 and 2071–2100. Occurrence data were collected from field surveys and the Global Biodiversity Information Facility (GBIF), while bioclimatic data were sourced from Climatologies at High Resolution for the Earth’s Land Surface Areas (CHELSA). The MaxEnt model achieved a high mean AUC value of 0.967, indicating strong predictive accuracy. Suitable habitats for D. costus span approximately 99,871 Km2 across the western Himalayas, Karakoram, and Hindukush regions. Climate projections revealed that under SSP370, suitable areas decrease from 99,260 Km2 in 2041–2070 to 90,962.5 Km2 in 2071–2100, with high-suitability zones reducing from 13,024.5 Km2 to 11,490.5 Km2. In contrast, the SSP585 scenario showed a modest expansion of suitable habitat from 107,104 Km2 to 111,217.5 Km2, though high-suitability areas declined from 18,208 Km2 to 16,811 Km2. Precipitation-related variables, especially precipitation seasonality, were the most influential drivers of habitat suitability, contributing 64.3% to the model, followed by mean monthly precipitation of the driest quarter (18.8%) and precipitation of the wettest and driest months. Jackknife tests also confirmed their critical importance. These findings underscored the sensitivity of D. costus habitat to the intensity of climate change, particularly under severe warming conditions and highlighted the urgent need for a comprehensive conservation plan. A combination of strategies, including climate-smart conservation, habitat protection, species reintroduction, and cultivation in moderately to highly suitable habitats, is crucial to ensure the long-term survival of D. costus in Pakistan amidst the changing climate.

Species distribution modelling and landscape connectivity as tools to inform management and conservation for the critically endangered Himalayan brown bear (Ursus arctos isabellinus) in the Deosai National Park, Pakistan

The main cause of the global threat to large carnivore populations living in high-altitude areas is human pressure. The Himalayan brown bear (Ursus arctos isabellinus, hereafter bear) is listed as a critically endangered species, and it dominates the higher altitudes of the North and Western Himalayan landscapes. Here, we used species distribution modelling and landscape connectivity to find bears’ suitable habitats and corridors in the Deosai National Park (DNP) and surrounding areas. Species distribution models detected a bear’s suitable habitat of 1,125 km2, of which ca. 73% was covered by DNP. The most crucial predictors in determining the bears’ distribution were elevation—particularly if it was between 3,500 and 4,500 meters above sea level—as well as the bears’ distance from rivers, cattle, and the DNP borders. We discovered robust connectivity among presence points in the core of the study area, particularly within the DNP boundaries, by using the electrical circuit theory models. Landscape connectivity values were indeed low in some areas outside and close to the DNP confines. Based on our findings, it is imperative to protect habitats and corridors that allow the bears to migrate between the suitable patches, particularly beyond the park’s boundaries, to improve bear conservation.

Examining Truth Regimes Reveals How Local Communities View Flooding and River Management in the Lower Missouri River Basin, USA.

Riverine flooding is increasing in frequency and intensity, requiring river management agencies to consider new approaches to working with communities on flood mitigation planning. Communication and information sharing between agencies and communities is complex, and mistrust and misinformation arise quickly when communities perceive that they are excluded from planning. Subsequently, riverfront community members create narratives that can be examined as truth regimes-truths created and repeated that indicate how flooding and its causes are understood, represented, and discussed within their communities-to explain why flooding occurs in their area. To better understand community perceptions of river management related to repeated flooding, we employed a qualitative methodology of semi-structured interviews with 112 community members in 3 communities on the Missouri River, USA. Discourse analysis of the interviews revealed three dominant truth regimes that shape perceptions of river management in these communities: (1) upstream reservoir releases are driven by recreational aims, such as fishing and boating within reservoirs, instead of downstream flood control; (2) endangered species protection surpasses other river values and flood management; and (3) river navigation for commerce is no longer prioritized. For environmental managers, understanding the truth regimes circulating within local affected communities can help moderate mistrust of and frustration with governing bodies, guide project messaging to disarm false truth regimes, and improve the communication of river science, management options and policy implementation.

Orogeny and High Pollen Flow as Driving Forces for High Genetic Diversity of Endangered Acer griseum (Franch.) Pax Endemic to China.

Acer griseum (Franch.) Pax is an endangered species endemic to China, mainly scattered in the Qinling-Daba Mountains. The genetic diversity of 17 natural populations were analyzed by nuclear DNA (nDNA) and chloroplast DNA (cpDNA) to explore the driving forces for its microevolution. A high level of genetic diversity (nDNA: He = 0.296, cpDNA: Ht = 0.806) was found in A. griseum. Genetic variation was mainly within populations (92.52%) based on nDNA, while it was mainly among populations (96.26%) based on cpDNA. The seventeen populations were divided into two groups, corresponding to the subtropical zone (Group I) and temperate zone (Group II), with haplotype 4 (Hap4) and Hap5 being the most common haplotypes, respectively. Consequently, genes associated with heat and heavy metal stress were identified in Group I, while genes related to salt and drought stress were identified in Group II. Haplotype differentiation was driven by the heterogeneous microenvironment caused by the uplifting of the Qinling-Daba Mountains, which was a vital source of its high genetic diversity. Furthermore, the uplifted Qinling-Daba mountains may bridge high pollen flow among populations, whereas rivers can result in low seed flow among populations, which has led to the incongruent genetic structure between nDNA and cpDNA. This study represents a new perspective that geological events, especially orogeny, play an important role in plant microevolution through the establishment of maternal genetic structure and provides a meaningful conservation strategy for A. griseum. Overall, the Qinling-Daba Mountains not only are cradles for the genetic diversity of A. griseum but also provided refugia for it during the Quaternary glacial period.