000034408 001__ 34408
000034408 037__ $$aARTICLE--2019-004
000034408 041__ $$aEnglish
000034408 100__ $$aBasnet, D.
000034408 100__ $$aKandel, P.
000034408 100__ $$aChettri, N.
000034408 100__ $$aYang, Y.
000034408 100__ $$aLodhi, M. S.
000034408 100__ $$aHtun, N. Z.
000034408 100__ $$aUddin, K.
000034408 100__ $$aSharma, E.
000034408 245__ $$aBiodiversity Research Trends and Gaps from the Confluence of Three Global Biodiversity Hotspots in the Far-Eastern Himalaya
000034408 260__ $$c2019
000034408 300__ $$a14
000034408 507__ $$aDeepa Basnet, Pratikshya Kandel, Nakul Chettri, Kabir Uddin, Eklabya Sharma, icimod staff peerreviewed, ESjar, hilife
000034408 520__ $$aThe Far-Eastern Himalaya Landscape (FHL), a shared transboundary landscape between China, India, and Myanmar, is one of the most intact and biologically rich landscapes in the Eastern Himalaya. Yet, the state of biodiversity and its significance are comparatively poorly known to conservationists and policy makers due to low priority in research, inaccessibility, and remoteness. We collated and reviewed 1032 articles relating to biodiversity of the FHL to understand research trends, identify knowledge gaps, and suggest priority research areas for future biodiversity conservation and management in the landscape. Our review showed that the Myanmar part of the landscape is the most studied, followed by the Indian and Chinese parts. The trend of publications in the landscape showed that the earliest publication on biodiversity in the FHL dates back to 1833, while the years from 2001 to 2017 account for almost 80% of the total publications. Most studies focused on species (73.6%), followed by ecosystems (25%) and genetics (1.4%). Mammals were the most studied taxa (22.6%), with a greater focus on charismatic megafauna, followed by arthropods (15.6%), angiosperms (14.8%), insects (13.4%), and birds (10.8%). There were very few publications on lower invertebrates and lower kingdoms, Monera, Protista, Fungi, and Viruses. At the ecosystem level, most studies focused on forests (58.5%) followed by freshwater (32%), agroecosystems (9%), and alpine/tundra ecosystem (0.5%); there were only 14 studies at genetic level. In the FHL, new species have been discovered and rediscovered starting from the early 1930s until 2017. The majority of newly discovered species in the last 18 years are arthropods. The paper reviews past research areas, identifies gaps for future research and intervention, and recommends transboundary collaboration to address these gaps for conservation and sustainable development of the FHL landscape.
000034408 650__ $$aBiodiversity
000034408 650__ $$aConservation
000034408 773__ $$pInternational Journal of Ecology
000034408 773__ $$vOnline First, Jan
000034408 8564_ $$uhttps://doi.org/10.1155/2019/1323419$$yExternal link (open access)
000034408 8560_ $$fjha.anil4@gmail.com
000034408 8564_ $$uhttp://lib.icimod.org/record/34408/files/icimod2019_HiLife.pdf
000034408 980__ $$aICIMODEXT