Your search keyword '"conservation gap"' showing total 28 results

1. Mapping conservation priorities for wild yak (Bos mutus) habitats on the Tibetan Plateau, China

Author

Zhao, Hang, Wang, Nai'ang, Cheng, Hongyi, Wang, Yipeng, Liu, Xiao, Qiao, Bin, and Zhao, Liqiang

Published

2024

2. Predicting range shifts of the Chinese monal (Lophophorus lhuysii) under climate change: Implications for long-term conservation

Author

Xu, Yu, Wang, Bin, Zhong, Xue, Yang, Biao, Zhang, Jindong, Zhao, Cheng, He, Xingcheng, Li, Jianguo, Ran, Jianghong, and Zhou, Caiquan

Published

2020

3. First assessment of pteridophytes’ composition and conservation status in Myanmar

Author

Khine, Phyo Kay and Schneider, Harald

Published

2020

4. Distribution and Conservation of Ephedra rhytidosperma

Author

Chao Tan, David Kay Ferguson, and Yong Yang

Subjects

conservation gap, distribution patterns, Ephedra rhytidosperma, in situ, MaxEnt, Ecology, QH540-549.5

Abstract

ABSTRACT With global warming and increasingly intensified human activities, numerous species are on the verge of extinction, ca. 28% of living species are threatened globally, although conservation of endangered species has received worldwide attention. It remains unclear if threatened species have been appropriately conserved or not. Ephedra rhytidosperma is an endangered species and included in the List of National Key Protected Wild Plants in China (released in September 2021). This shrubby species is endemic to the Helan Mountains in northwestern China where it dominates the lowland vegetation. We have conducted an integrative investigation on the conservation of the species. We used the MaxEnt model to predict the potential geographic distribution of E. rhytidosperma under past, current, and future climatic scenarios based on distributional occurrences and environmental data and investigated the conservation status and its effectiveness. The results show that E. rhytidosperma is mainly distributed in lowland Helan Mountains, while the range in the past and future show different patterns. The range has shrunk significantly and migrated westwards since the Last Interglacial, whereas the projected area in the future displays a fluctuating pattern and easterly migration. The precipitation (Bio14), the temperature (Bio9), and degree of slope (Slope) are the dominant factors influencing its current and future ranges. We also found that E. rhytidosperma populations at different altitudes showed different adaptations to the environment. Our assessment of the conservation status of the hotspots revealed that only 15.1% occur in nature reserves, implying that a large conservation gap remains. In addition, there has been less attention paid to ex situ conservation. As a result, we propose conducting an integrative conservation approach including both in situ and ex situ management to save E. rhytidosperma. Our study lays a solid foundation for the development of targeted conservation strategies for E. rhytidosperma.

Published

2025

5. Habitat analysis and conservation priorities for the endangered spotted linsang in China

Author

Xijin Hu, Chencheng Zhang, Zufei Shu, Yingming Zhang, Buhang Li, and Chengjin Chu

Subjects

Spotted linsang, Activity pattern, MaxEnt, Conservation gap, Priority conservation area, Ecology, QH540-549.5

Abstract

Small carnivores play vital roles in ecosystems, but their elusive nature makes data collection challenging. Infrared camera technology provides an effective solution to this issue. The spotted linsang (Prionodon pardicolor), an endangered member of the Prionodontidae family, is primarily found in southwestern China and Southeast Asia. Its population has declined significantly in recent years due to habitat loss and hunting. In this study, we analyzed the activity patterns and habitat preferences of the spotted linsang using infrared camera data collected from the Chebaling National Nature Reserve in China. We employed MaxEnt 3.4.4 to model the species distribution, incorporating bioclimatic, topographic, vegetation, and human footprint data. We then overlaid the binary distribution map with nature reserve boundaries to identify conservation gaps and priority protection areas. Our camera-trap results indicate that the spotted linsang is nocturnal, with peak activity occurring in autumn. It predominantly inhabits evergreen broad-leaved forests and evergreen-deciduous broad-leaved mixed forests at elevations below 1000 m. The MaxEnt model results show that suitable habitats are mainly located in southwestern China, accounting for approximately 15.7 % of the country's total land area. The six key factors influencing its distribution are the annual temperature range, annual precipitation, precipitation of the driest month, mean diurnal range, normalized difference vegetation index, and vegetation type. Significant conservation gaps were found, with over 85 % of potential habitats in 12 main provinces located outside protected areas. Priority conservation areas include the Hengduan Mountains, the border regions of Guangxi and Guangdong, and northeastern Fujian Province. These findings enhance our understanding of the spotted linsang’s activity patterns and provide a basis for future conservation efforts.

Published

2024

6. Aquatic protected area system in the Qinghai-Tibet Plateau: establishment, challenges and prospects.

Author

Haoran Li, Lu Tan, Xianfu Li, Qinghua Cai, Crins, Bill, and Moridi, Ali

Subjects

PROTECTED areas, WETLAND conservation, ENVIRONMENTAL protection, ENVIRONMENTAL security, WETLANDS, AQUATIC organisms

Abstract

Conservation of wetlands on the Qinghai-Tibet Plateau is vital to the ecological security of China and even all of Asia. In this study, we investigated the aquatic protected area system established by the Chinese government in the Qinghai-Tibet Plateau. In general, 9 categories of aquatic protected areas have been established in this area, linked to the International Union for Conservation of Nature classification system of protected areas. The diverse main protection objectives of different protected areas have played a key role in wetland conservation. However, the protection of wetland environments and aquatic organisms has been insufficient in some atypical protected areas and local protected areas. We further constructed a list of important aquatic organisms in the Qinghai-Tibet Plateau and analyzed the protected status of those important species through gap analysis. A total of 156 important aquatic species were identified, with 8 gap species and 18 inadequately protected species. It is encouraging that none of the national key protected species are gap species, but there are 4 gap species that are threatened species on "China's red list". In addition, we found that 17 important species are designated as Data Deficient or Not Evaluated on "China's red list", including 8 national key protected species. Finally, we propose the prospects for solving the existing problems of aquatic protected area systems: integrating aquatic protected areas, enhancing the status of community-based conservation, and increasing investment in important aquatic organism research. [ABSTRACT FROM AUTHOR]

Published

2024

7. 滇产单子叶植物的多样性格局与保护.

Author

文妍莉 and 李嵘

Abstract

Copyright of Bulletin of Botanical Research is the property of Bulletin of Botanical Research Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

8. Current and future effectiveness of protected areas for the conservation of endemic owls from the Atlantic Forest.

Author

Penagos López, Angie Paola, Jiménez García, Daniel, and Carlos, Caio Jose

Subjects

PROTECTED areas, BIOGEOGRAPHY, BIOLOGICAL extinction, BIODIVERSITY, OWLS, ECOLOGICAL niche

Abstract

Protected areas are essential conservation tools for mitigating the rapid decline of biodiversity. However, climate change represents one of the main challenges to their long‐term effectiveness, as it induces rapid changes in the geographical distribution of many species. We used ecological niche modelling to predict the impacts of climate change on the distribution of five endemic owls in the Atlantic Forest and evaluated the effectiveness of the protected areas network for their conservation. The results indicate that the protected areas network is currently effective in terms of representativeness for most species; however, there will be a decline for all species in the coming decades because of climate change. We found that the ecoregions in the northern part of the Atlantic Forest will experience a higher loss of species, whereas those ecoregions in the southern part will be important stable climatic refuges in the future. Therefore, we emphasize the need to complement the network of protected areas to increase their representativeness in the distribution of species that will be affected by climate change, reducing species loss and increasing connectivity between suitable areas. We hope the results presented herein will serve as a basis for decision‐makers to re‐evaluate and improve current conservation policies and decisions in order to address the challenges posed by climate change and secure the survival of these species. [ABSTRACT FROM AUTHOR]

Published

2024

9. Bridging the gap between the scale of protected areas and the conservation target of Kunming-Montreal Global Biodiversity Framework in Anhui Province

Author

Jing Li, Yiyan Sun, Li Wang, and Yuan Wang

Subjects

Protected areas, Conservation gap, Marxan model, Ecology, QH540-549.5

Abstract

Kunming-Montreal Global Biodiversity Framework sets specific targets for future protected area (PA) scale. To bridge the gap between the scale of PA and conservation targets in Anhui Province, we identified priority conservation areas under different scenarios based on systematic conservation planning theory with biodiversity and key ecosystem services as conservation objects and HAI as conservation costs, and then identified conservation gap areas based on GAP analysis, and finally set specific PA construction targets for each city. The results of the study show that due to the small scale of established PA in Anhui Province, effective conservation of important areas for biodiversity and key ecosystem services cannot be achieved. Identifying priority conservation areas based on systematic conservation planning theory can effectively enhance conservation benefits of biodiversity and key ecosystem services. Therefore, we propose to use the conservation gap area as the potential construction area of PA and expand PA network which accounts for 23.08% of the total area of Anhui Province. Our work provides spatially explicit potential construction areas of PA to bridge the gap between the scale of PA and the conservation target of Kunming-Montreal Global Biodiversity Framework in Anhui Province, and provides a reference for cities to set construction targets for PA.

Published

2023

10. Migration Pattern, Habitat Use, and Conservation Status of the Eastern Common Crane (Grus grus lilfordi) from Eastern Mongolia.

Author

Erdenechimeg, Baasansuren, Purev-Ochir, Gankhuyag, Gungaa, Amarkhuu, Terbish, Oyunchimeg, Zhao, Yajie, and Guo, Yumin

Subjects

*CRANES (Birds), *BIRD migration, *WINTER, *SPRING, *AUTUMN, *PROTECTED areas, *HABITATS

Abstract

Simple Summary: Studies on the migration patterns, habitat use, and conservation of the Eastern common crane Grus grus lilfordi in East Asia are insufficient. Most of the summering, breeding, wintering, and stopover sites are located outside the current protected areas boundary, so it is necessary to pay attention to these areas for the future protection of this subspecies. Studies on the subspecies Eastern common crane Grus grus lilfordi are still scarce, especially in Southeastern Siberia, the far east of Russia, Eastern Mongolia, and Northeastern China. This study explores the migration pattern, habitat use, and conservation status of the Eastern common crane. Using GPS/GSM tracking data, 36 complete migrations of 11 individuals were obtained from 2017 to 2021. The cranes migrated an average of 1581.5 km (±476.5 SD) in autumn and 1446.5 (±742.8 SD) in spring between their breeding site in Eastern Mongolia and the following wintering sites: the Xar Moron River, Chifeng; the Bohai Bay; the Yellow River Delta; Tangshan, Hebei; and Tianjin. During the autumn and spring migrations, the cranes used three critical stopover sites. The subspecies spent 60.3% of their time in rangeland, 18.1% in cropland, and 14.2% in water. The tracking data determined that, of the areas used by cranes, 97–98% of the summering sites were in Russia, 96% of the breeding sites were in Mongolia, and over 70% of the stopover sites and 90% of the wintering sites in China lay outside the current protected area boundaries. Consequently, establishing and expanding protected areas in summering, breeding, stopover, and wintering sites should be a central component of future conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2023

11. Assessment of Suitable Habitats, Fragmentation Analysis, and Ecological Corridor Identification for Sichuan Golden Snub-Nosed Monkey (Rhinopithecus roxellana) in Sichuan Province, Southwest China.

Author

Dai Y, Zhu Y, Xia W, Zou S, Wang F, and Li D

Subjects

Animals, China, Population Density, Ecosystem, Conservation of Natural Resources, Colobinae physiology

Abstract

The Sichuan golden snub-nosed monkey (Rhinopithecus roxellana) was found to possess significant scientific and conservation value but faced multiple threats including habitat fragmentation and loss, human disturbance, illegal hunting, and the impacts of climate change on their habitat. To enhance habitat protection for this species, our study utilized field survey data and distribution records from protected areas to systematically evaluate spatial heterogeneity in suitable habitat distribution and habitat quality in Sichuan Province. Integration of 3S technology and ecological modeling allowed for a comprehensive assessment. We found that: (1) The potential habitat area for the species in Sichuan Province covered 78,470.47 km², with suitable and marginally suitable habitats occupying 28,301.36 and 50,169.11 km² respectively. Suitable habitats were predominantly found at elevations of 1600-3200 m, in areas with low population density and minimal human disturbance. (2) Suitable habitats within protected areas accounted for 42.7% of the total suitable habitat area, while marginally suitable habitats within protected areas comprised 24.8% of the total marginally suitable habitat area. (3) Vegetation types most utilized by the species, ranked from highest to lowest preference, were deciduous broadleaf forests, evergreen coniferous forests, evergreen broadleaf forests, mixed coniferous-deciduous forests, and shrublands. Evergreen coniferous forests exhibited the largest patch area and lowest fragmentation, whereas deciduous broadleaf forests showed higher fragmentation within protected areas. (4) Four potential ecological corridors were identified, connecting the Wujiao, Xuebaoding, and Baodinggou nature reserves. Strengthening the protection of suitable habitats and potential ecological corridors would enhance landscape connectivity, facilitating the effective utilization of suitable habitats by the Sichuan golden snub-nosed monkey. Our findings provided a scientific basis for future conservation and management efforts for the Sichuan golden snub-nosed monkey., (© 2024 Wiley Periodicals LLC.)

Published

2025

12. Using Tracking Data to Identify Gaps in Knowledge and Conservation of the Critically Endangered Siberian Crane (Leucogeranus leucogeranus).

Author

Yi, Kunpeng, Zhang, Junjian, Batbayar, Nyambayar, Higuchi, Hiroyoshi, Natsagdorj, Tseveenmyadag, and Bysykatova, Inga P.

Subjects

*CRANES (Birds), *ENDANGERED species, *PROTECTED areas, *DEMOGRAPHIC change, *ARTIFICIAL satellite tracking

Abstract

The critically endangered Siberian crane (Leucogeranus leucogeranus) is the world's third most endangered species of crane. Despite the enhanced conservation actions in recent years, there are pieces of evidence that suggest that its population is continuously decreasing. To gain insights into the possible causes of the population decline, we tracked nine Siberian cranes in Russia and Mongolia using GPS transmitters. We obtained migration episodes based on over 0.31 million subsequent locations from 3283 bird days between June 1995 and December 2021. Siberian cranes migrated an average of 5604 ± 362 km in spring from wintering to breeding areas and a mean of 5265 ± 454 km from breeding to wintering areas. We identified 35 staging sites along the migration corridor, including 17 critical staging sites at which birds staged for >14 days and 18 stopover sites that supported individuals for more than two days within a ca. 200 km-wide migratory corridor. Of the areas used by the tagged cranes, 77% of the breeding areas in Russia, 55% of the staging areas, 99% of the non-breeding summering area in Mongolia, and 50% of the wintering areas in Poyang Lake in China lay outside the current protected area network. Although we should be prudent about interpreting the conservation gaps of the entire population from only a few tracked birds, these results strongly suggest that the current protection network for this numerically rare species is inadequate, requiring urgent review. [ABSTRACT FROM AUTHOR]

Published

2022

13. Setting Conservation Priorities for Marine Sharks in China and the Association of Southeast Asian Nations (ASEAN) Seas: What Are the Benefits of a 30% Conservation Target?

Author

Jianguo Du, Like Ding, Shangke Su, Wenjia Hu, Yuyu Wang, Kar-Hoe Loh, Shengyun Yang, Mingru Chen, Kakaskasen Andreas Roeroe, Se Songploy, Zhenghua Liu, and Bin Chen

Subjects

conservation gap, elasmobranch, marine sharks, species distribution model, systematic conservation planning, MPA network, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Sharks play an important role in marine ecosystems as top predators and have been increasingly accepted in recent years as a group for priority conservation worldwide. However, as one of the regions with the highest marine shark species richness, there is still a limited understanding of shark diversity patterns and conservation needs in China and the Association of Southeast Asian Nations (ASEAN) seas. In this study, we applied an ensemble species distribution model of five algorithms to investigate the diversity distribution patterns of 149 shark species in China and the ASEAN seas for the first time. A systematic conservation planning approach involving diversity, scarcity, and biogeographical distinctiveness was used to identify and compare conservation priority settings. Our results showed that bathymetry and dissolved oxygen were the most important variables contributing to shark distribution. The distribution pattern of shark species richness peaked on the continental shelves at 22–26°N, and a hotspot of shark diversity was identified around the Taiwan Strait. The spatial distribution of shark species in the nine orders and the 72 threatened shark species varied considerably. The existing marine protected area network only protects 2.1% of the ocean, 32.9% of the shark species, and 43.1% of the threatened species, highlighting a substantial conservation gap. Among the conservation priorities identified, the high conservation target scenario (30%) protects only 10%–15% more species than the low conservation target scenario (10%). However, under the high conservation target scenario, the conservation range of species tripled. Our results show that low conservation targets were only suitable for addressing the number of protected species, and that high targets would bring about improved outcomes for the number of protected species and the protected range of threatened species. Furthermore, planned priorities with a large clump pattern had slightly higher conservation achievements than those with small clumps. The results of this study will contribute to the development of a priority area network for sharks and provide a scientific basis for shark conservation and management in the China and ASEAN seas.

Published

2022

14. Shifted to the South, Shifted to the North, but No Expansion: Potential Suitable Habitat Distribution Shift and Conservation Gap of the Critically Endangered Baer's Pochard (Aythya baeri).

Author

Wu, Lan, Wang, Yuyu, Mo, Xunqiang, Wei, Qian, Ma, Chaohong, Wang, Hao, Townshend, Terry, Jia, Yifei, Hu, Wenjia, and Lei, Guangchun

Subjects

*HABITATS, *ENDANGERED species listing, *CLIMATE change, *SCIENCE in literature, *SCIENTIFIC literature, *WINTER, *BIODIVERSITY conservation, *ENDANGERED species

Abstract

There are many challenges in biodiversity conservation, especially for migratory waterbirds because their survival depends on the availability of a suite of interconnected sites at different stages of their annual cycle. Due to habitat loss and degradation, the population of Baer's Pochard (Aythya baeri), a migratory diving-duck, has declined to an extent that it has been listed as a critically endangered species by the IUCN Red List. To better understand the habitat requirements of this threatened waterbird for its effective conservation, we conducted seven years of field surveys within its historical distribution range in the East Asian–Australasian Flyway including China and neighbouring countries, covering 563 observation sites at 185 locations. Twelve new locations were identified as habitats for this species. By combining our surveys with literature and citizen science birding records, 171 Baer's Pochard's presence sites have classified as migratory stopovers, wintering grounds and breeding and potential breeding habitats. We then used Maxent model to estimate the potential distribution range and updated and refined the current IUCN distribution map. Finally, we identified the key conservation gaps by overlaying the distribution with a recent remotely acquired global landcover map. Our results show that: (1) The southernmost breeding site is about 1400 km south of its current IUCN breeding range; (2) the northern most wintering site is 800 km north of the IUCN wintering range; (3) Six newly discovered sites in Hebei, Henan, Shandong, Jiangxi and Hubei provinces, China are confirmed to be used all year round; (4) Most sites (81.8%) are not located in protected areas (PAs), and the majority of the suitable habitats (90%) are not protected by the current PA network. Our findings reveal that great changes have taken place in the distribution of Baer's Pochard and that there are many distribution overlaps throughout its annual migration circle (e.g., many historical stopover sites become breeding habitats). Moreover, the key habitats have retreated into eastern Asia, and most of the habitats overlap with urban developed areas and are outside of current PA network. Our study suggests that the existing PA network may be less effective for the conservation of this critically endangered species under predicted global climate change, and other effective area-based conservation measures should be part of the conservation strategy. More importantly, as the distribution of Baer's Pochard covers at least 15 countries, closely coordinated cross-border cooperation would be critical for its future survival. [ABSTRACT FROM AUTHOR]

Published

2022

15. Insights into plant biodiversity conservation in large river valleys in China: A spatial analysis of species and phylogenetic diversity.

Author

Yang, Xudong, Qin, Fei, Xue, Tiantian, Xia, Changying, Gadagkar, Sudhindra R., and Yu, Shengxiang

Subjects

*RIVER conservation, *VALLEYS, *PLANT conservation, *PLANT diversity, *BIODIVERSITY conservation, *SPECIES diversity

Abstract

Large river valleys (LRVs) are heterogeneous in habitat and rich in biodiversity, but they are largely overlooked in policies that prioritize conservation. Here, we aimed to identify plant diversity hotspots along LRVs based on species richness and spatial phylogenetics, evaluate current conservation effectiveness, determine gaps in the conservation networks, and offer suggestions for prioritizing conservation. We divided the study region into 50 km × 50 km grid cells and determined the distribution patterns of seed plants by studying 124,927 occurrence points belonging to 14,481 species, using different algorithms. We generated phylogenies for the plants using the "V. PhyloMaker" R package, determined spatial phylogenetics, and conducted correlation analyses between different distribution patterns and spatial phylogenetics. We evaluated the effectiveness of current conservation practices and discovered gaps of hotspots within the conservation networks. In the process, we identified 36 grid cells as hotspots (covering 10% of the total area) that contained 83.4% of the species. Fifty‐eight percent of the hotspot area falls under the protection of national nature reserves (NNRs) and 83% falls under national and provincial nature reserves (NRs), with 42% of the area identified as conservation gaps of NNRs and 17% of the area as gaps of NRs. The hotspots contained high proportions of endemic and threatened species, as did conservation gaps. Therefore, it is necessary to optimize the layout of current conservation networks, establish micro‐nature reserves, conduct targeted conservation priority planning focused on specific plant groups, and promote conservation awareness. Our results show that the conservation of three hotspots in Southwest China, in particular, is likely to positively affect the protection of biodiversity in the LRVs, especially with the participation of the neighboring countries, India, Myanmar, and Laos. [ABSTRACT FROM AUTHOR]

Published

2022

16. Distribution and conservation of threatened gymnosperms in China

Author

Dan Xie, Xin-Quan Liu, Ya-Xing Chen, Dan Jiao, Jia-Xin Lou, Xiu-Fei Qiu, Wei-Hua Xu, Zhi-Heng Wang, Jin-Hua Ran, and Xiao-Quan Wang

Subjects

Gymnosperm, Species richness, Distribution pattern, Nature reserve, Conservation gap, Ecology, QH540-549.5

Abstract

China is one of the diversity centers of gymnosperms. Nearly one-fifth (195 species) of gymnosperms are located in China, but 69 species are threatened. To date, the conservation status of gymnosperms, especially threatened gymnosperms in China, remains largely unknown, which seriously restricts the comprehensive protection of gymnosperms. Understanding the distribution pattern of species richness and exploring the relationships between species richness and environmental factors are key steps for their protection. In this study, we first constructed a database for the 69 threatened species of gymnosperms with 13 270 distribution records. It is found that 31 of the grid cells (50 × 50 km) cover all threatened gymnosperm species in China, and the grid cells of threatened gymnosperms are mainly distributed in the southern area of the Yellow River, with a distribution center in the Western Sichuan Plateau. Then, we evaluated the conservation status of threatened gymnosperms, and the results indicate that 9 (13%) threatened gymnosperms are distributed outside of nature reserves. Therefore, there are still conservation gaps in the protection of threatened gymnosperms in China. We should give more attention to unprotected threatened gymnosperms and conduct taxonomic studies on the species without detailed distribution records. Finally, conservation priority areas and priority conservation levels of threatened gymnosperms in China were proposed. The Western Sichuan Plateau is the most important conservation priority area of threatened gymnosperms. This study will shed light on plant protection and forest management in China.

Published

2021

17. Identifying climate refugia for wild yaks (Bos mutus) on the Tibetan Plateau.

Author

Zhao, Hang, Cheng, Hongyi, Wang, Nai'ang, Bai, Liqiong, Chen, Xiaowen, Liu, Xiao, and Qiao, Bin

Subjects

*GREENHOUSE gases, *LAST Glacial Maximum, *YAK, *GLOBAL warming, *EFFECT of human beings on climate change, *MOUNTAIN ecology

Abstract

Climate change is threatening fragile alpine ecosystems and their resident ungulates, particularly the wild yak (Bos mutus) that inhabits alpine areas between the tree line and glaciers on the Tibetan Plateau. Although wild yaks tend to shift habitats in response to changes in climatic factors, the precise impacts of climate change on their habitat distribution and climate refugia remain unclear. Based on over 1000 occurrence records, the maximum entropy (MaxEnt) algorithm was applied to simulate habitat ranges in the last glacial maximum (LGM), Mid-Holocene, current stage, and three greenhouse gas emission scenarios in 2070. Three habitat patches were identified as climate refugia for wild yaks that have persisted from the LGM to the present and are projected to persist until 2070. These stable areas account for approximately 64% of the current wild yak habitat extent and are sufficiently large to support viable populations. The long-term persistence of these climate refugia areas is primarily attributed to the unique alpine environmental features of the Tibetan Plateau, where relatively stable arid or semi-arid climates are maintained, and a wide range of forage resource supplies are available. However, habitat loss by 2070 caused by insufficient protection is predicted to lead to severe fragmentation in the southeastern and northwestern Kunlun, Hengduan, central-western Qilian, and southern Tanggula–northern Himalaya Mountains. Habitat disturbance has also been caused by increasing anthropogenic effects in the southern Tanggula and northern Himalaya Mountains. We suggest that sufficient protection, transboundary cooperation, and community involvement are required to improve wild yak conservation efforts. Our combined modeling method (MaxEnt–Zonation–Linkage Mapper–FRAGSTAT) can be utilized to identify priority areas and linkages between habitat patches while assessing the conservation efficiency of protected areas and analyzing the coupled relationship between climate change and anthropogenic impacts on the habitat distribution of endangered species. [Display omitted] • Approximately 51% of current habitats are located outside protected areas (PAs). • Three climate refugia were identified from the last glacial maximum to 2070. • Infrastructure and pasture fences threaten climate refugia and their linkages. • Habitats outside PAs will face severe habitat loss by 2070. • Cross-border and community engagement and efficient PAs are needed for wild yak. [ABSTRACT FROM AUTHOR]

Published

2024

18. Research trends on bats in China: A twenty-first century review.

Author

Feijó, Anderson, Wang, Yanqun, Sun, Jian, Li, Feihong, Wen, Zhixin, Ge, Deyan, Xia, Lin, and Yang, Qisen

Subjects

*SCIENTIFIC community, *TWENTY-first century, *BATS, *HORSESHOE bats, *MYOTIS, *ECONOMIC development

Abstract

In this century, China has sustained unparalleled economic development, leading to exponentially growing investments in scientific research. Yet, the demand for research-funding is large and tracing the current knowledge is a key step to define priority research topics. In this same span, studies on bats in China have uncovered an overlooked diversity and revealed novelties in bats' evolutionary history and life-history aspects. All this 21st-century knowledge, however, is scattered and a large part is concealed from most of the international scientific community in Mandarin-language articles. Here, we summarize the post-millennium (2000–2017) research on bats in China and point out trends and future directions based on neglected topics, groups, and regions. In addition, we provide an up-to-date list of bat species in China. We retrieved 594 publications related to bats in China, nearly half were written in Mandarin. At least 147 bat species are present in China, which places it among the most bat-rich countries in the world. There was a significant positive trend on the number of publications, from 12.5 annual average in 2000–2005 to 46.5 in recent years, reflecting the Chinese economic-scientific development in this century. We found marked taxonomic and spatial biases. Half of the studies in this century focused on Rhinolophus , Myotis , and Hipposideros , and the southern and eastern provinces were the most studied. Systematic/taxonomy and Ecology were the predominant topics post-millennium, whereas only 10 articles have clear conservation-driven goals. Our review shows that the majority of studies were focused on the least concern, cave-dweller species, and on bat-rich provinces. Future projects should address the effects of human-modified landscapes on bat community to define proper conservation actions. We discuss some priority actions and projects that will help to enhance bat protection in China. [ABSTRACT FROM AUTHOR]

Published

2019

19. Predicting suitable habitat of the Chinese monal (Lophophorus lhuysii) using ecological niche modeling in the Qionglai Mountains, China

Author

Bin Wang, Yu Xu, and Jianghong Ran

Subjects

Conservation gap, Habitat fragmentation, Local disturbances, Nature reserve, MaxEnt, Medicine, Biology (General), QH301-705.5

Abstract

Understanding the distribution and the extent of suitable habitats is crucial for wildlife conservation and management. Knowledge is limited regarding the natural habitats of the Chinese monal (Lophophorus lhuysii), which is a vulnerable Galliform species endemic to the high-montane areas of southwest China and a good candidate for being an umbrella species in the Qionglai Mountains. Using ecological niche modeling, we predicted current potential suitable habitats for the Chinese monal in the Qionglai Mountains with 64 presence points collected between 2005 and 2015. Suitable habitats of the Chinese monal were associated with about 31 mm precipitation of the driest quarter, about 15 °C of maximum temperature of the warmest month, and far from the nearest human residential locations (>5,000 m). The predicted suitable habitats of the Chinese monal covered an area of 2,490 km2, approximately 9.48% of the Qionglai Mountains, and was highly fragmented. 54.78% of the suitable habitats were under the protection of existing nature reserves and two conservation gaps were found. Based on these results, we provide four suggestions for the conservation management of the Chinese monal: (1) ad hoc surveys targeting potential suitable habitats to determine species occurrence, (2) more ecological studies regarding its dispersal capacity, (3) establishment of more corridors and green bridges across roads for facilitating species movement or dispersal, and (4) minimization of local disturbances.

Published

2017

20. Distribution and conservation of threatened gymnosperms in China

Author

Weihua Xu, Dan Jiao, Jin-Hua Ran, Zhi-Heng Wang, Ya-Xing Chen, Xiu-Fei Qiu, Dan Xie, Jia-Xin Lou, Xin-Quan Liu, and Xiao-Quan Wang

Subjects

Nature reserve, Gymnosperm, biology, Ecology, business.industry, Forest management, Distribution (economics), biology.organism_classification, Geography, Threatened species, Conservation status, Species richness, China, business, Ecology, Evolution, Behavior and Systematics, Distribution pattern, QH540-549.5, Nature and Landscape Conservation, Conservation gap

Abstract

China is one of the diversity centers of gymnosperms. Nearly one-fifth (195 species) of gymnosperms are located in China, but 69 species are threatened. To date, the conservation status of gymnosperms, especially threatened gymnosperms in China, remains largely unknown, which seriously restricts the comprehensive protection of gymnosperms. Understanding the distribution pattern of species richness and exploring the relationships between species richness and environmental factors are key steps for their protection. In this study, we first constructed a database for the 69 threatened species of gymnosperms with 13 270 distribution records. It is found that 31 of the grid cells (50 × 50 km) cover all threatened gymnosperm species in China, and the grid cells of threatened gymnosperms are mainly distributed in the southern area of the Yellow River, with a distribution center in the Western Sichuan Plateau. Then, we evaluated the conservation status of threatened gymnosperms, and the results indicate that 9 (13%) threatened gymnosperms are distributed outside of nature reserves. Therefore, there are still conservation gaps in the protection of threatened gymnosperms in China. We should give more attention to unprotected threatened gymnosperms and conduct taxonomic studies on the species without detailed distribution records. Finally, conservation priority areas and priority conservation levels of threatened gymnosperms in China were proposed. The Western Sichuan Plateau is the most important conservation priority area of threatened gymnosperms. This study will shed light on plant protection and forest management in China.

Published

2021

21. Assessing the effectiveness of China's protected areas to conserve current and future amphibian diversity.

Author

Chen, Youhua, Zhang, Jian, Jiang, Jianping, Nielsen, Scott E., He, Fangliang, and Robertson, Mark

Subjects

*AMPHIBIAN diversity, *PROTECTED areas, *WILDLIFE conservation, *SPECIES distribution, *AMPHIBIAN phylogeny

Abstract

Aim Protected areas are an important tool for conserving species. In this study, we assessed the effectiveness of protected areas to conserve amphibian biodiversity in response to future changes in climate and land use. Location China. Methods Range maps and occurrence records of amphibian species in China were analysed separately using ensemble species distribution modelling across three spatial scales to assess scale dependency. Climate velocity and corresponding residence time in protected areas and species' ranges were calculated, together with a number of other effectiveness indices. Results Predicted declines in amphibian richness, endemism, phylogenetic diversity, phylogenetic endemism and suitable habitat were lower in protected than in unprotected areas, complementary-priority sites or richness hotspots. However, less-disturbed amphibian habitat, calculated from current and future projected land use data, in both protected and unprotected areas were consistently lost over time although this reduction was lower in protected areas. Although residence time of precipitation was longer in protected areas and within species' ranges in protected areas, resident time of temperature was significantly shorter in both. These results were consistent regardless of data sources and spatial scales. Main conclusions China's current protected areas are predicted to maintain future amphibian distribution and diversity, but are insufficient in preventing the losses of suitable climate and areas of less-disturbed habitat. The top 10% of future conservation gaps for amphibians were identified in China based on performance of effectiveness indices. The two largest gaps prioritized for future protected areas include the southern parts of Tibet and the Hengduan Mountains. [ABSTRACT FROM AUTHOR]

Published

2017

22. First assessment of pteridophytes’ composition and conservation status in Myanmar

Author

Harald Schneider and Phyo Kay Khine

Subjects

0106 biological sciences, Data deficient, Ecology, Agroforestry, 010604 marine biology & hydrobiology, Conservation priorities, Biodiversity, Vegetation, Diversity and conservation indices, 010603 evolutionary biology, 01 natural sciences, Threatened species, Geography, Sampling intensity, lcsh:QH540-549.5, IUCN Red List, Conservation status, Species richness, lcsh:Ecology, Protected area, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Conservation gap

Abstract

The ongoing biodiversity crisis enforces the need of practical conservation plans based on robust estimates of the threats to local from regional biodiversity. Unfortunately, this protocol has been difficult to apply especially to species rich, but poorly explored nations such as Myanmar. Therefore, efforts to obtain the local assessments are urgently needed before having local vegetation reduced to small remnants. The current study aimed at the first evaluation of pteridophyte conservation status using the global occurrence data and assessment of the conservation gaps and priority regions. Diversity and priority indices such as species richness, compositions and conservation status for IUCN criterion B of 603 species were observed to define the regions and hotspots of Myanmar. Forty-five species of which were assigned to DD category having less than three occurrences. Indices were demonstrated in regional level of states and regions in Myanmar and local levels of 0.5-degree gridded cells. Species richness was highest in Kachin (389 species), followed by Shan (181 spp.), and Chin (127 spp.). The highest turnover was recorded of Ayeyarwady (0.91), Rakhine (0.91), and Magway (0.90). Seventeen percent of evaluated species was assigned into threatened categories. The value of pixels varied from 1 to 153 for species richness, 0.89 to 0.96 for species turnover rate and 1 to 31 for number of threatened species. The overlap between existing protected area and hotspots was 100% and 67% for above 95th and 90th percentile respectively. Attempts to raise the awareness of pteridophytes’ threat level and conservation priority regions have emerged for Myanmar. The conservation gaps and priority regions highlighted from this study are robust having an insight into the different diversity and conservation indices. However, ground data checking and extensive evaluation is recommended for Data Deficient species as most of these species are likely to be evaluated as threatened species. First evaluation of conservation status for pteridophyte contributes substantially to the conservation planning in Myanmar.

Published

2020

23. Predicting range shifts of the Chinese monal (Lophophorus lhuysii) under climate change: Implications for long-term conservation

Author

Cheng Zhao, Jianguo Li, Caiquan Zhou, Bin Wang, Xingcheng He, Jindong Zhang, Xue Zhong, Yu Xu, Jianghong Ran, and Biao Yang

Subjects

0106 biological sciences, Range (biology), Population, Biodiversity, Range reduction, Climate change, Monal, 010603 evolutionary biology, 01 natural sciences, Range shift, lcsh:QH540-549.5, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Chinese monal, education.field_of_study, Ecology, biology, 010604 marine biology & hydrobiology, Global warming, biology.organism_classification, Geography, Assisted colonization, Biological dispersal, Habitat fragmentation, lcsh:Ecology, Conservation gap

Abstract

Abtract Climate change drives remarkable shifts in species’ geographical distribution range, representing one of the greatest threats to biodiversity worldwide. Alpine ecosystems haves been experiencing a faster climate warming rate than the global average, but knowledge regarding range shifts of alpine species under climate change is limited. Taking the Chinese monal (Lophophorus lhuysii), a vulnerable Galliform species inhabiting high elevations, as a representative, this study gathered available presence records of the Chinese monal and predicted its distribution range at present and in the 2050s and 2080s under different climate scenarios using MaxEnt models. The results revealed that the current distribution range of the Chinese monal is quite limited (19,371.51 km2) and will shift toward both higher elevation and higher latitude under future climate change. The range was predicted to decrease extensively and become more fragmented under RCP 4.5 and 8.5, and its habitat quality will degenerate under all scenarios. Over 50% of the current distribution range is outside of existing nature reserves and the conservation gaps will also shift gradually. To cope with the threats of climate change, we propose some suggestions for long-term conservation of the Chinese monal, including an expansion and adjustment of the nature reserve network to fill current and future gaps in protection, the establishment of corridors to facilitate population dispersal and colonization, a call for more attention to marginal populations distributed at lower elevations, and the development of captive populations for assisted colonization and reintroduction in future.

Published

2020

24. The role of protected areas in tropical tree conservation post-2020: A case study using threatened Dipterocarpaceae.

Author

Luo, Wenji, Strijk, Joeri S., Barstow, Megan, and Wee, Alison K.S.

Subjects

*DIPTEROCARPACEAE, *PROTECTED areas, *ENDANGERED species, *NATURE reserves, *SPECIES diversity

Abstract

Protected areas (PAs) are key tools to prevent extinction and preserve ecosystem functions. As countries reiterated their commitment to expand the reach of PAs by up to 30 % by 2030, stronger purpose and pertinence in the establishment of PAs is needed to ensure effective conservation. In this study, we used Dipterocarpaceae as a proxy for threatened and ecologically important trees to determine the role of PAs in tree conservation and the potential shortfalls at a global scale. We quantified the overlap between the geo-referenced occurrence data of 433 Dipterocarpaceae species and the distribution of global PAs, followed by a conservation gap analysis on Borneo, the center of diversity of the family. We found that while Southeast Asia is the hotspot for species diversity and threat to Dipterocarpaceae, a high proportion of threatened species were found at the range edges of Dipterocarpaceae. Half of all the countries with Dipterocarpaceae met the Aichi Target 11 of designating at least 17 % of their land area as PAs, and most had <10 % of their total number of PAs being relevant to Dipterocarpaceae conservation. Our conservation gap analysis demonstrated that only 5.02 % of the total area of habitat (AOH) of endemic and Critically Endangered dipterocarps was formally protected, while 18.6 % of the total AOH was included in the Heart of Borneo complex. Our data highlights the need for a more effective global conservation gap analysis for threatened trees that could inform area-based conservation post-2020. • Southeast Asia not only is the center of diversity for Dipterocarpaceae, but also a hotspot of threat. • Malaysia, Brunei and Thailand had a disproportionately high number of PAs relevant to Dipterocarpaceae conservation. • "Strict Nature Reserve" and "National Park" are key refuge for threatened Dipterocarpaceae species. • Similar Conservation Gap Analysis can be replicated more widely across other threatened tree families. [ABSTRACT FROM AUTHOR]

Published

2022

25. Habitat evaluation of wild Amur tiger (Panthera tigris altaica) and conservation priority setting in north-eastern China

Author

Xiaofeng, Luan, Yi, Qu, Diqiang, Li, Shirong, Liu, Xiulei, Wang, Bo, Wu, and Chunquan, Zhu

Subjects

*ENDANGERED species, *SIBERIAN tiger, *FRAGMENTED landscapes, *BIOLOGICAL extinction, *REMOTE sensing, *GEOGRAPHIC information systems, RISK factors

Abstract

The Amur Tiger (Panthera tigris altaica) is one of the world’s most endangered species. Recently, habitat fragmentation, food scarcity and human hunting have drastically reduced the population size and distribution areas of Amur tigers in the wild, leaving them on the verge of extinction. Presently, they are only found in the north-eastern part of China. In this study, we developed a reference framework using methods and technologies of analytic hierarchy process (AHP), remote sensing (RS), geographic information system (GIS), GAP analysis and Natural Break (Jenks) classification to evaluate the habitat and to set the conservation priorities for Amur tigers in eastern areas of Heilongjiang and Jilin Provinces of northeast China. We proposed a Habitat Suitability Index (HSI) incorporating 7 factors covering natural conditions and human disturbance. Based on the HSI values, the suitability was classified into five levels from the most to not suitable. Finally, according to results of GAP analysis, we identified six conservation priorities and designed a conservation landscape incorporating four new nature reserves, enlarging two existing ones, and creating four linkages for Amur tigers in northeast China. The case study showed that the core habitats (the most suitable and highly suitable habitats) identified for Amur tigers covered 35,547 km2, accounting for approximately 26.71% of the total study area (1,33,093 km2). However, existing nature reserves protected only (7124 km2 or) 20.04% of the identified core habitats. Thus, enlargement of current reserves is necessary and urgent for the tiger’s conservation and restoration. Moreover, the establishment of wildlife corridors linking core habitats will provide an efficient reserve network for tiger conservation to maintain the evolutionary potential of Amur tigers facing environmental changes. [Copyright &y& Elsevier]

Published

2011

26. Conservation status of Primulaceae, a plant family with high endemism, in China.

Author

Bai, Yun-Hao, Zhang, Si-Yi, Guo, Yanpei, and Tang, Zhiyao

Subjects

*LAST Glacial Maximum, *ORNAMENTAL plants, *PRIMULACEAE, *SEASONAL temperature variations, *NATURE reserves, *SPECIES diversity

Abstract

Primroses, approximately 1000 species from the family Primulaceae, are mostly distributed in subalpine to alpine areas and attract attention due to their high ornamental value. However, they have been increasingly threatened by human activities and climate change in recent decades. China harbours 535 primrose species from 12 genera, most of which are endemic. In this study, we established a distribution database of the primroses in China, then explored the geographic pattern of the richness of primrose species in relation to environmental factors and evaluated their conservation status. The results showed that the primrose richness was highest in the mountainous areas from the eastern Himalayas to the Hengduan Mountains, with habitat heterogeneity (explaining 37.6% of the variance) and temperature seasonality (26.0% of the variance) together explaining this pattern. Furthermore, the richness of endemic and threatened primroses had been strongly affected by the long-term climate change since the Last Glacial Maximum. On average, national nature reserves (NNRs) covered 29.5% of the distribution areas of primroses. However, there were still 97 less-protected species, each of which had a distribution area <2000 km2 covered by NNRs. By analysing this group, we proposed that nature reserves need to be established in several conservation gaps mainly located in Southwest China to protect the primrose species in China. [ABSTRACT FROM AUTHOR]

Published

2020

27. Enhancing protected areas for biodiversity and ecosystem services in the Qinghai–Tibet Plateau.

Author

Li, Shicheng, Zhang, Heng, Zhou, Xuewu, Yu, Haibin, and Li, Wangjun

Abstract

• Ecosystem service maintenance is increasingly counted in delimiting protected areas. • A revised framework was used to delimit priority areas for biodiversity & ES. • Tibetan Plateau's nature reserve has big gap for biodiversity & water retention. • Only ~15% of priority areas are covered by nature reserves in the Tibetan Plateau. Incorporating ecosystem services (ES) conservation into the goals of protected areas (PA) is being acknowledged. Identifying conservation gaps in existing PAs and delineating priority regions for conserving biodiversity and ES in the Qinghai–Tibet Plateau (QTP) are critical for sustainable development. In this study, we identified conservation gaps for biodiversity and ES in existing nature reserves (NRs), the primary category of PA in the QTP. Using the representativeness–vulnerability framework, we then identified the priority regions for conservation of biodiversity and ES. The results show that the QTP's existing NRs have notable conservation gaps for biodiversity, water and soil retention, sandstorm prevention, and carbon sequestration services. For biodiversity, water and soil retention, and carbon sequestration, the priority regions are mainly located in southeastern Tibet, while those for sandstorm prevention are mainly distributed in the regions surrounding Qinghai Lake and south of the Changtang Plateau. The priority regions for both biodiversity and ES are mainly distributed in the southeastern QTP. Only ~15% of the priority regions are covered by existing NRs. A new type of PA for conserving ES is recommended. Human activities would be permitted in this new PA type so long as they do not compromise the provision of critical ES. [ABSTRACT FROM AUTHOR]

Published

2020

28. [Spatial patterns of biodiversity and hotspots in Chongqing Pengxi River Wetland Nature Reserve, China].

Author

Wang F, Yuan XZ, Xiong S, Huang YZ, Liu H, and Pan YZ

Subjects

Biodiversity, China, Conservation of Natural Resources, Ecosystem, Rivers, Wetlands

Abstract

The analysis of biodiversity spatial patterns and the detection of hotspots are effective ways for conservation planning and scientific management of biodiversity. Based on field investigation, historical data and literature information, we constructed the comprehensive index of biodiversity by considering habitat quality, species diversity and landscape diversity within Chongqing Pengxi River Wetland Nature Reserve. Combined with spatial autocorrelation analysis, we analyzed spatial distribution pattern and the degree of spatial autocorrelation of biodiversity in the nature reserve, identified biodiversity hotspots, and discussed the protection effectiveness of existing nature reserve for the hotspots. The results showed that the spatial pattern of biodiversity in the nature reserve tended to decrease with the increases of distance from the river and riparian zone. Areas with high value of biodiversity index were mainly concentrated in Pengxi River, Puli River, Baijiaxi Stream and alongshore areas. There was significant positive correlation in the spatial distribution of biodiversity. The spatial autocorrelation of local areas was mainly characterized by high-high aggregation and low-low aggregation. The area of biodiversity hotspots was 457 hm 2 , accounting for 11.1% of the total nature reserve. The core area of current nature reserve covered 51% of the hotspots and 50% of the secondary hotspots. The structure and functional zone distribution of nature reserve should be further optimized and adjusted. We suggested that other hotspots should become part of the core area, including the Longwangtang area of Puli River, Xiaoyakou, Dengjiawan, Dongziyan, Longwangtang, Jiuwuju, Huatouju, Xinpuzi and Longjia yard of Baijiaxi Stream. The cold spots should be removed from the core area, to improve the function zoning of nature reserve. Our results could provide quantitative basic references for the boundary optimization and control zoning of nature reserve, and the reasonable promotion of the adjustment of "three zones to two zones", and could have guiding significance for improving effectiveness of species conservation and formulating scientific protection strategies.

Published

2020