Your search keyword '"Xiongjun Liu"' showing total 21 results

1. Effect of the ten‐year fishing ban on change of phytoplankton community structure: Insights from the Gan River

Author

Peng Ye, Xinwen Lu, Wenxin Xia, Yating Wang, Chunhua Zhou, Xiongjun Liu, Shan Ouyang, and Xiaoping Wu

Subjects

biodiversity, community structure, environmental change, functional group traits, phytoplankton, Ecology, QH540-549.5

Abstract

Abstract The Yangtze River is one of the largest riverine ecosystems in the world and is a biodiversity hotspot. In recent years, this river ecosystem has undergone rapid habitat deterioration due to anthropogenic disturbances, leading to a decrease in freshwater biodiversity. Owing to these anthropogenic impacts, the Chinese government imposed a “Ten‐year fishing ban” (TYFB) in the Yangtze River and its tributaries. Ecological changes associated with this decision have not been documented to evaluate the level of success. This study evaluates the success of the TYFB by analyzing the changes in phytoplankton communities and comparing them to periods before the TYFB was imposed. A total of 325 phytoplankton species belonging to 7 phyla and 103 genera dominated by Chlorophyceae and Bacillariophyceae were identified. Species diversity according to the Shannon–Wiener ranged between 1.19 and 3.00. The results indicated that phytoplankton diversity increased, while both density and biomass decreased after the TYFB. The health of the aquatic ecosystem appeared to have improved after the TYFB, as indicated by the phytoplankton‐based index of biotic integrity. Significant seasonal and spatial differences were found among the number of species, density, and biomass of phytoplankton, where these differences were correlated with pH, water depth, chlorophyll‐a, permanganate index, transparency, copper, ammonia nitrogen, and total phosphorus based on redundancy analysis. Results from this study indicate that the TYFB played an important role in the restoration of freshwater ecosystem in the Yangtze River and its tributaries.

Published

2024

2. Changes and drivers of zooplankton diversity patterns in the middle reach of Yangtze River floodplain lakes, China

Author

Quanfeng Lu, Xiongjun Liu, Xuemei Qiu, Tao Liang, Jinping Chen, Shuai Zhao, Shan Ouyang, Binsong Jin, and Xiaoping Wu

Subjects

community structure, floodplain lakes, species diversity, Yangtze River, zooplankton, Ecology, QH540-549.5

Abstract

Abstract Anthropogenic habitat alteration interferes the natural aquatic habitats and the system's hydrodynamics in the Yangtze River floodplain lakes, resulting in a serious decline in freshwater biodiversity. Zooplankton communities possess major position in freshwater ecosystems, which play essential parts in maintaining biological balance of freshwater habitats. Knowledge of processes and mechanisms for affecting variations in abundance, biomass, and diversity of zooplankton is important for maintaining biological balance of freshwater ecosystems. Here, we analyzed that the temporal and spatial changes in the structure of zooplankton community and their temporal and spatial variations respond to changes in environmental factors in the middle reach of Yangtze River floodplain lakes. The results showed that zooplankton samples were classified into 128 species, and Rotifera was the most common taxa. Significant seasonal differences were found among the abundance and diversity of zooplankton. Similarly, we also found significant seasonal differences among the biomass of zooplankton functional groups. The spatial turnover component was the main contributor to the β diversity pattern, which indicated that study areas should establish habitat restoration areas to restore regional biodiversity. The NMDS plot showed that the structure of zooplankton community exhibited significant seasonal changes, where the community structure was correlated with pH, water temperature, water depth, salinity, total nitrogen, chlorophyll‐a, and total phosphorus based on RDA. This study highlights that it is very important to ensure the floodplain ecosystem's original state of functionality for maintaining the regional diversity of the ecosystem as a whole.

Published

2021

3. DNA barcoding, multilocus phylogeny, and morphometry reveal phenotypic plasticity in the Chinese freshwater mussel Lamprotula caveata (Bivalvia: Unionidae)

Author

Ruiwen Wu, Xiongjun Liu, Liang Guo, Chunhua Zhou, Shan Ouyang, and Xiaoping Wu

Subjects

China, DNA barcode, Lamprotula, molecular clock, morphometrics, phenotypic plasticity, Ecology, QH540-549.5

Abstract

Abstract Accurate species identification is crucial for developing conservation strategies for freshwater mussels, one of the most imperiled faunas in the world. Traditionally, mussel species description primarily relied on conchological characters. However, shell morphology has great variability, which leads to the complexity of species delimitation. As endemic species to China, Lamprotula caveata was originally described by Heude (1877). Lamprotula quadrangulosus and Lamprotula contritus were considered for synonymization of L. caveata based on shell variants in the early 20th century, which has been long debated due to lack of rigorous molecular analysis. Moreover, great morphological variation caused doubt whether there are cryptic species. In this study, we used a combined phylogenetic and morphometric approach to verify the validity of the synonymization of L. caveata. The results of molecular species delimitation showed that two molecular operational taxonomic units (MOTUs) were identified in Lamprotula spp., including the L. leaii lineage and the complex lineage (L. quadrangulosa, L. cornuumlunae, L. contritus, and L. caveata). Phylogenetic analyses revealed that L. cornuumlunae formed a basal monophyletic clade, whose divergence time was relatively recent (4.26 Ma [95% HPD = 1.91–7.22 Ma]), and L. contritus, L. caveata, and L. quadrangulosa formed a large polytomy group with very shallow branches. In the previous study, we have demonstrated the validity of L. cornuumlunae. The molecular evidences supported that the complex (L. quadrangulosa + L. contritus + L. caveata) was a valid species; L. quadrangulosa and L. contritus were synonyms of L. caveata. In addition, three morphospecies (L. quadrangulosa, L. contritus, and L. caveata) were aggregated without clear differentiation based on shell morphometric analysis. We confirmed multiple phenotypes in L. caveata for species identification and presumed that the phenotypic plasticity was a response to specific habitats. This study clarified the diversity and phylogeny of the Lamprotula group, which is a crucial step for developing new conservation and management strategies for this imperiled group.

Published

2022

4. Seasonal and spatial variability of zooplankton diversity in the Poyang Lake Basin using DNA metabarcoding

Author

Xuemei Qiu, Xiongjun Liu, Quanfeng Lu, Jinping Chen, Tao Liang, Weikai Wang, Shan Ouyang, Chunhua Zhou, and Xiaoping Wu

Subjects

biodiversity, conservation, DNA metabarcoding, freshwater ecosystems, zooplankton, Ecology, QH540-549.5

Abstract

Abstract Freshwater ecosystems face multiple threats to their stability globally. Poyang Lake is the largest lake in China, but its habitat has been seriously degraded because of human activities and natural factors (e.g. climate change), resulting in a decline in freshwater biodiversity. Zooplankton are useful indicators of environmental stressors because they are sensitive to external perturbations. DNA metabarcoding is an approach that has gained significant traction by aiding ecosystem conservation and management. Here, the seasonal and spatial variability in the zooplankton diversity were analyzed in the Poyang Lake Basin using DNA metabarcoding. The results showed that the community structure of zooplankton exhibited significant seasonal and spatial variability using DNA metabarcoding, where the community structure was correlated with turbidity, water temperature, pH, total phosphorus, and chlorophyll‐a. These results indicated habitat variations affected by human activities and seasonal change could be the main driving factors for the variations of zooplankton community. This study also provides an important reference for the management of aquatic ecosystem health and conservation of aquatic biodiversity.

Published

2022

5. Design of Hierarchical Porosity Via Manipulating Chemical and Microstructural Complexities in High‐Entropy Alloys for Efficient Water Electrolysis

Author

Rui Li, Xiongjun Liu, Weihong Liu, Zhibin Li, K. C. Chan, and Zhaoping Lu

Subjects

hierarchical pore, high‐entropy alloy, phase separation, spinodal decomposition, water electrolysis, Science

Abstract

Abstract Achieving a porous architecture with multiple‐length scales and utilizing the synergetic effects of multicomponent chemicals bring up new opportunities for further improving the electrocatalytic performance of nanocatalysts. Herein, the synthesis of a self‐supported hierarchical porous electrocatalyst based on a high‐entropy alloy (HEA) containing multiple transitional metals via physical metallurgy and dealloying strategies is reported. Microscale phase separation and nanoscale spinodal decomposition are modulated in a highly concentrated FeCoNiCu HEA, which makes it possible to obtain a porous structure with different length scales, i.e., relatively large porous channels formed by removing one separated phase and ultrafine mesopores obtained from leaching out one decomposition phase. The resultant hierarchical porous HEA exhibits superior water splitting performance, which takes full advantage of the enlarged surface area offered by the bi‐continuous mesoporous structure with the exceptional intrinsic reactivity originating from the synergetic electronic effects of the different components in alloying. Moreover, the microscale porous structure plays an important role in the significantly improved mass transportation, as well as the durability during electrocatalysis. This effective strategy that simultaneously utilizes the chemical and microstructural advantages of HEAs opens up a new avenue for developing HEA‐based, high‐performance porous electrocatalysts for various energy conversion/store applications.

Published

2022

6. Comparative analysis of gut microbiota diversity in endangered, economical, and common freshwater mussels using 16S rRNA gene sequencing

Author

Xiongjun Liu, Yanling Cao, Shan Ouyang, and Xiaoping Wu

Subjects

conservation, diversity, freshwater mussels, gut microbiota, Ecology, QH540-549.5

Abstract

Abstract Freshwater mussels are both among the most diverse and endangered faunas worldwide. The gut microbiota of species plays a key role in nutrition and immunity, such as preventing it from pathogen invasion, synthesizing beneficial secondary metabolites, and contributing to the digestion of complex nutrients. Information on the gut microbiota could have significant implications for conservation biology, especially for threatened or endangered species. However, there is relatively little study into the gut microbiota of freshwater mussels. Here, the gut microbiota diversity was analyzed in endangered (Solenaia carinata), economical (Sinohyriopsis cumingii), and common (Sinanodonta woodiana) freshwater mussels using 16S rRNA gene sequencing. This study represents the first to compare the gut microbiota diversity of endangered, economical, and common Chinese freshwater mussels. The results showed that 13,535 OTUs were found in S. carinata, 12,985 OTUs in S. cumingii, and 9,365 OTUs in S. woodiana. The dominant phylum in S. carinata and S. cumingii was Fusobacteria, and was Firmicutes in S. woodiana. Alpha diversity indices indicated that S. carinata and S. cumingii had a higher abundance and diversity of gut microbiota than S. woodiana. The composition of gut microbiota was different among three freshwater mussels, but their composition variation was not significant. This study provides insight for the conservation of freshwater mussel biodiversity, which will not only help conserve these vulnerable groups but also, will offer wider benefits to freshwater ecosystems.

Published

2020

7. Declining freshwater mussel diversity in the middle and lower reaches of the Xin River Basin: Threat and conservation

Author

Weiwei Sun, Xiongjun Liu, Ruiwen Wu, Weikai Wang, Yanli Wu, Shan Ouyang, and Xiaoping Wu

Subjects

biodiversity, conservation, freshwater mussels, quantitative, Xin River, Ecology, QH540-549.5

Abstract

Abstract Freshwater mussels provide important functions and services for aquatic ecosystems, but populations of many species have been extirpated. Information on biodiversity plays an important role in the conservation and management of freshwater mussels. The Xin River Basin is a biodiversity hotspot for freshwater mussels in China, with more than 43 species known, but populations of which are decreasing. Here, we quantify the diversity of freshwater mussels in the middle and lower reaches of the Xin River Basin and study the correlation of habitat characteristics and freshwater mussel diversity. Compared to the historical period, the number of species, density, and biomass of freshwater mussels decreased 33%, 83%, and 82% in the current period, respectively. Fifty two percent of recorded species were empty shells, and 14 native freshwater mussels were not found in the study area. Four species are currently listed as vulnerable species using IUCN criteria and their global status. The assemblage structure of freshwater mussels exhibits significant spatial differences, and there was a correlation with substrate and physicochemical parameters. The main tributary of the Xin River with higher freshwater mussel diversity should be established as one large protected area because the nestedness component was the main pattern of beta diversity. These results indicated freshwater mussel diversity was declining rapidly, which can help focus conservation effort for freshwater mussel biodiversity.

Published

2019

8. Biodiversity pattern of fish assemblages in Poyang Lake Basin: Threat and conservation

Author

Xiongjun Liu, Jiajun Qin, Yang Xu, Min Zhou, Xiaoping Wu, and Shan Ouyang

Subjects

beta diversity, biodiversity, conservation, fish, Poyang Lake Basin, Ecology, QH540-549.5

Abstract

Abstract Poyang Lake Basin is of great importance to maintain regional ecological balance. However, fish biodiversity in this basin has rapidly declined as the result of anthropogenic habitat alteration, such as dam construction, sand mining, and water pollution. Here, we aimed to analyze the temporal and spatial changes in biodiversity patterns of fish in Poyang Lake Basin over the last 37 years. The number of fish species underwent a significant decrease in the current period. In particular, 36.7% of the migration of fish was extirpated. Twenty‐seven fish species have been formally assessed using the Chinese Red List were currently listed as Critically Endangered (9), Endangered (3), Vulnerable (10), and Near Threatened (5). Alpha and gamma diversity revealed that fish diversity had also decreased, and beta diversity showed significant composition dissimilarity in two periods. PCoA showed that the historical fish composition dissimilarity was significantly different from that of the current period. We found a significant effect of the geographical distance on the spatial turnover component for the historical and current periods. In addition, the nestedness component was the main contributor to beta diversity, which indicated one large protected area should be established in Poyang Lake and the Ganjiang River Basin with higher species richness. These results indicated that fish biodiversity declined in the current period likely caused by anthropogenic habitat alteration and other threatened factors. Therefore, we suggest that the habitat reconstruction and biodiversity conservation for fish have become imperative in this basin, and a complete management plan should be carried out.

Published

2019

9. Temporal and spatial changes in macrozoobenthos diversity in Poyang Lake Basin, China

Author

Ke Li, Xiongjun Liu, Yu Zhou, Yang Xu, Qian Lv, Shan Ouyang, and Xiaoping Wu

Subjects

assemblage structure, environmental elements change, macrozoobenthos, Poyang Lake, Ecology, QH540-549.5

Abstract

Abstract Poyang Lake plays a significant role in maintaining and replenishing the macrozoobenthos biodiversity in the middle Yangtze River. However, due to human activities and natural factors, the habitat of Poyang Lake has been seriously degraded, resulting in a decline in macrozoobenthos biodiversity. Here, we analyzed the effect of human activity and environmental elements change on the diversity of macrozoobenthos based on a systematic investigation of Poyang Lake Basin in 2016–2017. The current species richness, density, and biomass of macrozoobenthos were lower than those in the historical period. At the same time, the community structure of the macrozoobenthos assemblage exhibits significant temporal and spatial differences. In addition, the spatial turnover component was the main contribution to beta diversity, which indicated that a number of protected areas would be necessary to conserve the biodiversity of macrozoobenthos. Water depth, dissolved oxygen, water velocity, and chlorophyll‐a were significantly correlated with macrozoobenthos distributions and assemblage structure based on RDA. These results indicated that human activities have seriously destroyed the macrozoobenthos habitat and led to the decline in macrozoobenthos diversity. Therefore, habitat restoration and the conservation of macrozoobenthos have become urgent in Poyang Lake Basin, and an integrated management plan should be developed and effectively implemented.

Published

2019

10. Assessment of the genetic diversity of Chinese freshwater mussels and refuge areas in the Yangtze River floodplain

Author

Xiongjun Liu, Manuel Lopes‐Lima, Xu Chen, Yu Zhou, Dongmei Qin, Chunhua Zhou, Shan Ouyang, Xiao‐Chen Huang, and Xiaoping Wu

Subjects

Ecology, Aquatic Science, Nature and Landscape Conservation

Published

2023

11. Systematics, distribution, biology, and conservation of freshwater mussels (Bivalvia: Unionida) in China

Author

Xiongjun Liu, Yueying Liu, Ruiwen Wu, David T. Zanatta, Manuel Lopes‐Lima, Duarte V. Gonçalves, Arthur E. Bogan, Shan Ouyang, and Xiaoping Wu

Subjects

Ecology, Aquatic Science, Nature and Landscape Conservation

Published

2022

12. <scp>DNA</scp> barcoding, multilocus phylogeny, and morphometry reveal phenotypic plasticity in the Chinese freshwater mussel Lamprotula caveata (Bivalvia: Unionidae)

Author

Ruiwen Wu, Xiongjun Liu, Liang Guo, Chunhua Zhou, Shan Ouyang, and Xiaoping Wu

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Published

2022

13. Comparative analysis of gut microbiota diversity in endangered, economical, and common freshwater mussels using 16S rRNA gene sequencing

Author

Xiaoping Wu, Yanling Cao, Shan Ouyang, and Xiongjun Liu

Subjects

0106 biological sciences, animal structures, Firmicutes, Biodiversity, Endangered species, Zoology, Gut flora, digestive system, 010603 evolutionary biology, 01 natural sciences, Freshwater ecosystem, diversity, 03 medical and health sciences, lcsh:QH540-549.5, freshwater mussels, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, 0303 health sciences, gut microbiota, Ecology, biology, conservation, Mussel, biology.organism_classification, Sinanodonta woodiana, Alpha diversity, lcsh:Ecology

Abstract

Freshwater mussels are both among the most diverse and endangered faunas worldwide. The gut microbiota of species plays a key role in nutrition and immunity, such as preventing it from pathogen invasion, synthesizing beneficial secondary metabolites, and contributing to the digestion of complex nutrients. Information on the gut microbiota could have significant implications for conservation biology, especially for threatened or endangered species. However, there is relatively little study into the gut microbiota of freshwater mussels. Here, the gut microbiota diversity was analyzed in endangered (Solenaia carinata), economical (Sinohyriopsis cumingii), and common (Sinanodonta woodiana) freshwater mussels using 16S rRNA gene sequencing. This study represents the first to compare the gut microbiota diversity of endangered, economical, and common Chinese freshwater mussels. The results showed that 13,535 OTUs were found in S. carinata, 12,985 OTUs in S. cumingii, and 9,365 OTUs in S. woodiana. The dominant phylum in S. carinata and S. cumingii was Fusobacteria, and was Firmicutes in S. woodiana. Alpha diversity indices indicated that S. carinata and S. cumingii had a higher abundance and diversity of gut microbiota than S. woodiana. The composition of gut microbiota was different among three freshwater mussels, but their composition variation was not significant. This study provides insight for the conservation of freshwater mussel biodiversity, which will not only help conserve these vulnerable groups but also, will offer wider benefits to freshwater ecosystems., This study represents the first to compare with the gut microbiota diversity in endangered, economical, and common Chinese freshwater mussels. The composition of gut microbiota among three freshwater mussels was different, but their composition variation was not significant. The composition of gut microbiota for three freshwater mussels was correlated with dissolved oxygen, turbidity, and chlorophyll‐a. This study provides valuable insight for the conservation of freshwater mussel biodiversity, which will not only help conserve these vulnerable groups but also, will offer wider benefits to freshwater ecosystems.

Published

2020

14. Conservation status assessment and a new method for establishing conservation priorities for freshwater mussels (Bivalvia: Unionida) in the middle and lower reaches of the Yangtze River drainage

Author

Xiongjun Liu, Manuel Lopes-Lima, Alexandra Zieritz, Arthur E. Bogan, Xue Yang, Shan Ouyang, David T. Zanatta, and Xiaoping Wu

Subjects

0106 biological sciences, Data deficient, Near-threatened species, Ecology, 010604 marine biology & hydrobiology, Biodiversity, Endangered species, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Fishery, Habitat destruction, Geography, Threatened species, IUCN Red List, Conservation status, Nature and Landscape Conservation

Abstract

1. The freshwater mussel (Unionida) fauna of the Yangtze River is among the most diverse on Earth. In recent decades, human activities have caused habitat degradation in the river, and previous studies estimated that up to 80% of the mussel species in the Yangtze River are Threatened or Near Threatened with extinction. However, a comprehensive and systematic evaluation of the conservation status of this fauna has yet to be completed. 2. This study evaluated the conservation status of the 69 recognized freshwater mussel species in the middle and lower reaches of the Yangtze River, using the criteria published by the International Union for Conservation of Nature (IUCN). A new method for prioritizing species for conservation was then developed and applied termed Quantitative Assessment of Species for Conservation Prioritization (QASCP), which prioritizes species according to quantifiable data on their distribution and population status, life history, and recovery importance and potential. 3. IUCN assessments showed that 35 (51%) species in the study region are Threatened or Near Threatened (11 Endangered, 20 Vulnerable, 4 Near Threatened). In addition, 16 species (23%) could not be assessed owing to data deficiency. Key threats to the freshwater mussel biodiversity of the Yangtze River include pollution, habitat loss and fragmentation, loss of access to host fish, and overharvesting of mussels and their host fish. The genera Aculamprotula, Gibbosula, Lamprotula, Pseudodon, Ptychorhynchus, and Solenaia were identified as particularly threatened. 4. Data availability allowed QASCP assessment of 44 species. Only Solenaia carinata, regionally Endangered under IUCN criteria, achieved the highest QASCP rank, i.e. First Priority. The five species assessed as Second Priority were considered either regionally Endangered (one), Vulnerable (three), or Data Deficient (one) under IUCN criteria. The 23 Third Priority species were assessed as regionally Endangered (two), Vulnerable (15), Near Threatened (two), or Least Concern (four).

Published

2020

15. Declining freshwater mussel diversity in the middle and lower reaches of the Xin River Basin: Threat and conservation

Author

Xiongjun Liu, Weikai Wang, Xiaoping Wu, Weiwei Sun, Yanli Wu, Rui-Wen Wu, and Shan Ouyang

Subjects

0106 biological sciences, Beta diversity, Biodiversity, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, quantitative, lcsh:QH540-549.5, Tributary, freshwater mussels, IUCN Red List, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, biodiversity, 0303 health sciences, geography.geographical_feature_category, Ecology, Aquatic ecosystem, conservation, Mussel, Geography, Xin River, Habitat, lcsh:Ecology, Global biodiversity

Abstract

Freshwater mussels provide important functions and services for aquatic ecosystems, but populations of many species have been extirpated. Information on biodiversity plays an important role in the conservation and management of freshwater mussels. The Xin River Basin is a biodiversity hotspot for freshwater mussels in China, with more than 43 species known, but populations of which are decreasing. Here, we quantify the diversity of freshwater mussels in the middle and lower reaches of the Xin River Basin and study the correlation of habitat characteristics and freshwater mussel diversity. Compared to the historical period, the number of species, density, and biomass of freshwater mussels decreased 33%, 83%, and 82% in the current period, respectively. Fifty two percent of recorded species were empty shells, and 14 native freshwater mussels were not found in the study area. Four species are currently listed as vulnerable species using IUCN criteria and their global status. The assemblage structure of freshwater mussels exhibits significant spatial differences, and there was a correlation with substrate and physicochemical parameters. The main tributary of the Xin River with higher freshwater mussel diversity should be established as one large protected area because the nestedness component was the main pattern of beta diversity. These results indicated freshwater mussel diversity was declining rapidly, which can help focus conservation effort for freshwater mussel biodiversity., Freshwater mussels provide important aquatic ecosystem functions and services, but many of their populations are in decline. Here, we systematically quantitative analyze freshwater mussel diversity in the Xinjiang River and explore the correlation of habitat characteristics and freshwater mussel diversity. The results showed that the diversity of freshwater mussels decreased rapidly in the Xinjiang River. Assemblage structure of freshwater mussels exhibits significant spatial differences. The assemblage composition of freshwater mussels was correlated with turbidity, PM, and water temperature. The MT should be established one large protected area because the nestedness component was the main pattern of beta diversity. This study will provide important information for the conservation and management of freshwater mussel biodiversity.

Published

2019

16. Effects of dams and their environmental impacts on the genetic diversity and connectivity of freshwater mussel populations in Poyang Lake Basin, China

Author

Rui-Wen Wu, Shan Ouyang, Li-Min Yang, Xu Chen, Xiaoping Wu, Yu Zhou, and Xiongjun Liu

Subjects

0106 biological sciences, Unionoida, education.field_of_study, Genetic diversity, Habitat fragmentation, biology, Ecology, 010604 marine biology & hydrobiology, fungi, Population, Biodiversity, Aquatic Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Habitat, Biological dispersal, Genetic erosion, education

Abstract

Habitat fragmentation is one of the main threats to biodiversity. Barriers to dispersal caused by anthropogenic habitat alteration may affect phylogeographic patterns in freshwater mussels. Knowledge of the phylogenetic and phylogeographic patterns of unionoids is vital to inform protection of their biodiversity. Here, we assessed influences of dams and their environmental effects on the genetic diversity and population connectivity of a broadly distributed freshwater mussel, Nodularia douglasiae, in Poyang Lake Basin. The results showed high genetic diversity in areas without dams and low genetic diversity in areas with dams. High genetic differentiation and low gene flow were found among the 11 populations. Genetic variation was significantly correlated with dissolved oxygen levels. The observation of low genetic diversity in populations separated by dams indicated that those populations were subjected to genetic erosion and demographic decline because they are disconnected from other populations with higher diversity. High genetic differentiation and low gene flow among the 11 populations could be correlated with anthropogenic habitat alteration. These results indicated that anthropogenic habitat alterations have led to the decline in freshwater mussel diversity. Therefore, we recommend maintaining favourable habitat conditions and connectivity of rivers or lakes, and strengthening study of life histories with host‐test experiments to identify potential host fish species to strengthen the knowledge base underpinning freshwater mussel conservation.

Published

2019

17. Biodiversity pattern of fish assemblages in Poyang Lake Basin: Threat and conservation

Author

Xiaoping Wu, Xiongjun Liu, Shan Ouyang, Yang Xu, Jiajun Qin, and Min Zhou

Subjects

0106 biological sciences, Gamma diversity, Poyang Lake Basin, Beta diversity, Drainage basin, Endangered species, Biodiversity, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, lcsh:QH540-549.5, Ecology, Evolution, Behavior and Systematics, Original Research, biodiversity, 030304 developmental biology, Nature and Landscape Conservation, fish, 0303 health sciences, geography.geographical_feature_category, Ecology, conservation, Geography, Threatened species, Nestedness, beta diversity, lcsh:Ecology, Species richness

Abstract

Poyang Lake Basin is of great importance to maintain regional ecological balance. However, fish biodiversity in this basin has rapidly declined as the result of anthropogenic habitat alteration, such as dam construction, sand mining, and water pollution. Here, we aimed to analyze the temporal and spatial changes in biodiversity patterns of fish in Poyang Lake Basin over the last 37 years. The number of fish species underwent a significant decrease in the current period. In particular, 36.7% of the migration of fish was extirpated. Twenty‐seven fish species have been formally assessed using the Chinese Red List were currently listed as Critically Endangered (9), Endangered (3), Vulnerable (10), and Near Threatened (5). Alpha and gamma diversity revealed that fish diversity had also decreased, and beta diversity showed significant composition dissimilarity in two periods. PCoA showed that the historical fish composition dissimilarity was significantly different from that of the current period. We found a significant effect of the geographical distance on the spatial turnover component for the historical and current periods. In addition, the nestedness component was the main contributor to beta diversity, which indicated one large protected area should be established in Poyang Lake and the Ganjiang River Basin with higher species richness. These results indicated that fish biodiversity declined in the current period likely caused by anthropogenic habitat alteration and other threatened factors. Therefore, we suggest that the habitat reconstruction and biodiversity conservation for fish have become imperative in this basin, and a complete management plan should be carried out., Poyang Lake Basin is of great importance to maintain regional ecological balance. However, fish diversity in this basin has rapidly declined as the result of human activities. Here, we aimed to analyze how temporal and spatial changes impact biodiversity patterns of the fish assemblages in Poyang Lake Basin over the last 37 years. The diversity of fish species underwent a significant decrease. In particular, 36.7% of the migration of fish was extirpated. Twenty‐seven fish species have been formally assessed using the Chinese Red List were currently listed as Critically Endangered (9), Endangered (3), Vulnerable (10), and Near Threatened (5). Alpha and gamma diversity revealed that fish diversity had also decreased, and beta diversity showed a significant trend toward taxonomic homogenization. PCoA showed that the historical fish composition similarity was significantly different from that of the current period. These results indicated that human activities have seriously affected the fish habitat and led to the decline in fish diversity.

Published

2019

18. Microsatellite analysis of genetic diversity and genetic structure of the Chinese freshwater musselSolenaia carinata(Bivalvia: Unionidae)

Author

Shan Ouyang, Chun-Hua Zhou, David T. Zanatta, Xiaoping Wu, Tingting Sun, Hongxiu Ding, Wenjing Yang, and Xiongjun Liu

Subjects

0106 biological sciences, Genetic diversity, education.field_of_study, geography, geography.geographical_feature_category, Ecology, biology, 010604 marine biology & hydrobiology, Population, Mussel, Aquatic Science, Unionidae, Bivalvia, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Population bottleneck, Genetic structure, Tributary, education, Nature and Landscape Conservation

Abstract

The freshwater mussels (Unionidae) in the Yangtze River basin of China are among the most diverse assemblages on Earth. Freshwater mussels provide valuable ecosystem services (e.g. natural water filtration) and economic value (shell, pearls, and food), but are experiencing global declines as a result of pollution, habitat alteration, and overharvest. Despite the diversity and value of freshwater mussels in the Yangtze River basin, relatively little is known about the biology of the many species endemic to the region. Solenaia carinata is an endemic and potentially imperilled freshwater mussel (Bivalvia: Unionidae) in China that is distributed in a single major tributary of the middle Yangtze; the Poyang Lake basin in Jiangxi Province. This study represents the first analyses of the genetic diversity and population genetic structure of S. carinata. Solenaia carinata specimens (n=64) were collected from three sites in large tributary rivers of Poyang Lake. Using 19 polymorphic microsatellite markers, the results showed that S. carinata had a moderate level of genetic diversity (PIC ranged from 0.464 to 0.484), limited evidence of a recent genetic bottleneck, little genetic differentiation (FST ranged from 0.021 to 0.045), high levels of gene flow (Nm ranged from 3.675 to 33.227) and limited genetic structure among the three sampling locations. Given that S. carinata inhabits a highly interconnected system of large rivers and lakes, the results of low differentiation and high gene flow among geographically proximate sampling locations (sites separated by between 8 and 20 km of water) are not surprising. The results indicate that specimens can be used and moved from anywhere across the distribution of S. carinata for the purposes of captive propogation and translocation.

Published

2017

19. Microstructural Control via Copious Nucleation Manipulated by In Situ Formed Nucleants: Large-Sized and Ductile Metallic Glass Composites

Author

Yuan Wu, Hui Wang, Xiongjun Liu, Houwen Chen, Zhaoping Lu, Wenli Song, and Zhenxi Guo

Subjects

010302 applied physics, In situ, Austenite, Materials science, Amorphous metal, Precipitation (chemistry), Mechanical Engineering, Nucleation, 02 engineering and technology, Work hardening, 021001 nanoscience & nanotechnology, 01 natural sciences, Mechanics of Materials, Phase (matter), 0103 physical sciences, Ultimate tensile strength, General Materials Science, Composite material, 0210 nano-technology

Abstract

A novel strategy to control the precipitation behavior of the austenitic phase, and to obtain large-sized, transformation-induced, plasticity-reinforced bulk metallic glass matrix composites, with good tensile properties, is proposed. By inducing heterogeneous nucleation of the transformable reinforcement via potent nucleants formed in situ, the characteristics of the austenitic phase are well manipulated.

Published

2016

20. Flexible Honeycombed Nanoporous/Glassy Hybrid for Efficient Electrocatalytic Hydrogen Generation

Author

Ruoyu Wu, Yuan Wu, Jing Wang, Rui Li, Kang Cheung Chan, Xiongjun Liu, Zhibin Li, Hui Wang, and Zhaoping Lu

Subjects

Tafel equation, Materials science, Amorphous metal, Nanoporous, Mechanical Engineering, 02 engineering and technology, Overpotential, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrocatalyst, 01 natural sciences, 0104 chemical sciences, Catalysis, Chemical engineering, Mechanics of Materials, General Materials Science, 0210 nano-technology, Solid solution, Hydrogen production

Abstract

Hydrogen evolution reaction (HER) in alkaline media urgently requires electrocatalysts concurrently possessing excellent activity, flexible free-standing capability, and low cost. A honeycombed nanoporous/glassy sandwich structure fabricated through dealloying metallic glass (MG) is reported. This free-standing hybrid shows outstanding HER performance with a very small overpotential of 37 mV at 10 mA cm-2 and a low Tafel slope of 30 mV dec-1 in alkaline media, outperforming commercial Pt/C. By alloying 3 at% Pt into the MG precursor, a honeycombed Pt75 Ni25 solid solution nanoporous structure, with fertile active sites and large contact areas for efficient HER, is created on the dealloyed MG surface. Meanwhile, the surface compressive lattice-strain effect is also introduced by substituting the Pt lattice sites with the smaller Ni atoms, which can effectively reduce the hydrogen adsorption energy and thus improve the hydrogen evolution. Moreover, the outstanding stability and flexibility stemming from the ductile MG matrix also make the hybrid suitable for practical electrode application. This work not only offers a reliable strategy to develop cost-effective and flexible multicomponent catalysts with low Pt usage for efficient HER, but also sheds light on understanding the alloying effects of the catalytic process.

Published

2019

21. Phase‐Transformation Ductilization of Brittle High‐Entropy Alloys via Metastability Engineering

Author

Xiongjun Liu, Junyang He, Hui Wang, Yuan Wu, Ke An, Hailong Huang, Wei Wu, and Zhaoping Lu

Subjects

010302 applied physics, Materials science, Mechanical Engineering, High entropy alloys, Refractory metals, 02 engineering and technology, Plasticity, 021001 nanoscience & nanotechnology, 01 natural sciences, Engineering physics, Cracking, Brittleness, Mechanics of Materials, Metastability, Phase (matter), 0103 physical sciences, Forensic engineering, General Materials Science, 0210 nano-technology, Ductility

Abstract

High-entropy alloys (HEAs) in which interesting physical, chemical, and structural properties are being continuously revealed have recently attracted extensive attention. Body-centered cubic (bcc) HEAs, particularly those based on refractory elements are promising for high-temperature application but generally fail by early cracking with limited plasticity at room temperature, which limits their malleability and widespread uses. Here, the "metastability-engineering" strategy is exploited in brittle bcc HEAs via tailoring the stability of the constituent phases, and transformation-induced ductility and work-hardening capability are successfully achieved. This not only sheds new insights on the development of HEAs with excellent combination of strength and ductility, but also has great implications on overcoming the long-standing strength-ductility tradeoff of metallic materials in general.

Published

2017