Mapping human‒wildlife conflict hotspots in a transboundary landscape, Eastern Himalaya

Mapping human‒wildlife conflict hotspots in a transboundary landscape, Eastern Himalaya

The Kangchenjunga Landscape, an important repository of biodiversity, faces several challenges owing to various drivers of change. Human‒wildlife conflict (HWC) is one of such issue that transcends social, economic, environmental, as well as national and international borders among the three partici...

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Main Authors: Prashanti Sharma, Nakul Chettri, Kabir Uddin, Kesang Wangchuk, Rajesh Joshi, Tandin Tandin, Aseesh Pandey, Kailash Singh Gaira, Khadga Basnet, Sonam Wangdi, Tashi Dorji, Namgay Wangchuk, Vishwas Sudhir Chitale, Yadav Uprety, Eklabya Sharma
Format: Article
Language:English
Published: Elsevier 2020-12-01
Series:Global Ecology and Conservation
Subjects:
Maximum entropy
Geographic information system
Anthropogenic factors
Kangchenjunga landscape
Climate change
human‒wildlife conflict
Online Access:http://www.sciencedirect.com/science/article/pii/S2351989420308258
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spelling doaj-a7b82f709f4a48baa14c685c95153caf2020-12-31T04:42:29ZengElsevierGlobal Ecology and Conservation2351-98942020-12-0124e01284Mapping human‒wildlife conflict hotspots in a transboundary landscape, Eastern HimalayaPrashanti Sharma0Nakul Chettri1Kabir Uddin2Kesang Wangchuk3Rajesh Joshi4Tandin Tandin5Aseesh Pandey6Kailash Singh Gaira7Khadga Basnet8Sonam Wangdi9Tashi Dorji10Namgay Wangchuk11Vishwas Sudhir Chitale12Yadav Uprety13Eklabya Sharma14International Centre for Integrated Mountain Development, Kathmandu, NepalInternational Centre for Integrated Mountain Development, Kathmandu, Nepal; Corresponding author. International Centre for Integrated Mountain Development, GPO Box 3226, Kathmandu, Nepal.International Centre for Integrated Mountain Development, Kathmandu, NepalInternational Centre for Integrated Mountain Development, Kathmandu, NepalG B Pant National Institute of Himalayan Environment (NIHE), Sikkim Regional Centre, Gangtok, IndiaNature Conservation Division, Department of Forests and Park Services, Thimphu, BhutanG B Pant National Institute of Himalayan Environment (NIHE), Sikkim Regional Centre, Gangtok, IndiaG B Pant National Institute of Himalayan Environment (NIHE), Sikkim Regional Centre, Gangtok, IndiaResearch Centre for Applied Science and Technology (RECAST), Tribhuvan University, Kathmandu, NepalNature Conservation Division, Department of Forests and Park Services, Thimphu, BhutanInternational Centre for Integrated Mountain Development, Kathmandu, NepalNature Conservation Division, Department of Forests and Park Services, Thimphu, BhutanInternational Centre for Integrated Mountain Development, Kathmandu, NepalResearch Centre for Applied Science and Technology (RECAST), Tribhuvan University, Kathmandu, NepalInternational Centre for Integrated Mountain Development, Kathmandu, NepalThe Kangchenjunga Landscape, an important repository of biodiversity, faces several challenges owing to various drivers of change. Human‒wildlife conflict (HWC) is one of such issue that transcends social, economic, environmental, as well as national and international borders among the three participating countries – Bhutan, India, and Nepal – making it a complex, transboundary issue. Based on the existing literature, earth observation data, and geographic information system, we used maximum entropy along with relevant environmental predictor variables to model and map HWC hotspots. The results suggested that about 19 per cent of the area within the landscape is at high risk of human‒wildlife conflict, with an anthropogenic factor ‒ distance to roads ‒ as the top predictor. Some protected areas are at higher risk than others. The Himalayan subtropical pine forest ecoregion is a high HWC zone (~63 per cent), followed by the Terai‒Duars savannah and grasslands ecoregion (~43 per cent). They also revealed that the low- and mid-elevation zones are prone to conflict due to greater forest fragmentation; patchy protected areas are disconnected from each other, and not big enough for large mammals like elephants and tigers. Human-wildlife conflict is observed to vary across different elevation and climate region of the landscape and highly correlated with forest fragmentation of the midhills. Hence, a holistic approach at the landscape level is needed for tackling human‒wildlife conflict. Connecting good habitats by restoring fragmented inter and intra-country areas would be an effective measure to mitigate human‒wildlife conflict.http://www.sciencedirect.com/science/article/pii/S2351989420308258Maximum entropyGeographic information systemAnthropogenic factorsKangchenjunga landscapeClimate changehuman‒wildlife conflict
collection DOAJ
language English
format Article
sources DOAJ
author Prashanti Sharma
Nakul Chettri
Kabir Uddin
Kesang Wangchuk
Rajesh Joshi
Tandin Tandin
Aseesh Pandey
Kailash Singh Gaira
Khadga Basnet
Sonam Wangdi
Tashi Dorji
Namgay Wangchuk
Vishwas Sudhir Chitale
Yadav Uprety
Eklabya Sharma
spellingShingle Prashanti Sharma
Nakul Chettri
Kabir Uddin
Kesang Wangchuk
Rajesh Joshi
Tandin Tandin
Aseesh Pandey
Kailash Singh Gaira
Khadga Basnet
Sonam Wangdi
Tashi Dorji
Namgay Wangchuk
Vishwas Sudhir Chitale
Yadav Uprety
Eklabya Sharma
Mapping human‒wildlife conflict hotspots in a transboundary landscape, Eastern Himalaya
Global Ecology and Conservation
Maximum entropy
Geographic information system
Anthropogenic factors
Kangchenjunga landscape
Climate change
human‒wildlife conflict
author_facet Prashanti Sharma
Nakul Chettri
Kabir Uddin
Kesang Wangchuk
Rajesh Joshi
Tandin Tandin
Aseesh Pandey
Kailash Singh Gaira
Khadga Basnet
Sonam Wangdi
Tashi Dorji
Namgay Wangchuk
Vishwas Sudhir Chitale
Yadav Uprety
Eklabya Sharma
author_sort Prashanti Sharma
title Mapping human‒wildlife conflict hotspots in a transboundary landscape, Eastern Himalaya
title_short Mapping human‒wildlife conflict hotspots in a transboundary landscape, Eastern Himalaya
title_full Mapping human‒wildlife conflict hotspots in a transboundary landscape, Eastern Himalaya
title_fullStr Mapping human‒wildlife conflict hotspots in a transboundary landscape, Eastern Himalaya
title_full_unstemmed Mapping human‒wildlife conflict hotspots in a transboundary landscape, Eastern Himalaya
title_sort mapping human‒wildlife conflict hotspots in a transboundary landscape, eastern himalaya
publisher Elsevier
series Global Ecology and Conservation
issn 2351-9894
publishDate 2020-12-01
description The Kangchenjunga Landscape, an important repository of biodiversity, faces several challenges owing to various drivers of change. Human‒wildlife conflict (HWC) is one of such issue that transcends social, economic, environmental, as well as national and international borders among the three participating countries – Bhutan, India, and Nepal – making it a complex, transboundary issue. Based on the existing literature, earth observation data, and geographic information system, we used maximum entropy along with relevant environmental predictor variables to model and map HWC hotspots. The results suggested that about 19 per cent of the area within the landscape is at high risk of human‒wildlife conflict, with an anthropogenic factor ‒ distance to roads ‒ as the top predictor. Some protected areas are at higher risk than others. The Himalayan subtropical pine forest ecoregion is a high HWC zone (~63 per cent), followed by the Terai‒Duars savannah and grasslands ecoregion (~43 per cent). They also revealed that the low- and mid-elevation zones are prone to conflict due to greater forest fragmentation; patchy protected areas are disconnected from each other, and not big enough for large mammals like elephants and tigers. Human-wildlife conflict is observed to vary across different elevation and climate region of the landscape and highly correlated with forest fragmentation of the midhills. Hence, a holistic approach at the landscape level is needed for tackling human‒wildlife conflict. Connecting good habitats by restoring fragmented inter and intra-country areas would be an effective measure to mitigate human‒wildlife conflict.
topic Maximum entropy
Geographic information system
Anthropogenic factors
Kangchenjunga landscape
Climate change
human‒wildlife conflict
url http://www.sciencedirect.com/science/article/pii/S2351989420308258
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