Identifying important connectivity areas for the wide-ranging Asian elephant across conservation landscapes of Northeast India

Identifying important connectivity areas for the wide-ranging Asian elephant across conservation landscapes of Northeast India

Aim Connectivity is increasingly important for landscape‐scale conservation programmes. Yet there are obstacles to developing reliable connectivity maps, including paucity of data on animal use of the non‐habitat matrix. Our aim was to identify important connectivity areas for the endangered Asian e...

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Bibliographic Details
Published in:Diversity & distributions Vol. 27; no. 12; pp. 2510 - 2523
Main Authors: Vasudev, Divya, Goswami, Varun R., Srinivas, Nishanth, La Nam Syiem, Biang, Sarma, Aishanya
Format: Journal Article
Language:English
Published: Oxford Wiley 01-12-2021
John Wiley & Sons, Inc
Subjects:
Animal models
Animals
Anthropogenic factors
Assam
Climate change
Conservation
corridor
crowd‐sourced data
Dispersal
Elephants
Elephas maximus
Endangered species
Environmental protection
Forest conservation
forests
fragmentation
Human influences
Human motion
Human population density
Human populations
Infrastructure
Land cover
Land use
Landscape
Landscape preservation
linear infrastructure
movement models
Plantations
Population density
Questionnaires
randomised shortest path
Remote sensing
RESEARCH ARTICLE
resistance mapping
Vegetation cover
Wildlife conservation
India
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Summary:Aim Connectivity is increasingly important for landscape‐scale conservation programmes. Yet there are obstacles to developing reliable connectivity maps, including paucity of data on animal use of the non‐habitat matrix. Our aim was to identify important connectivity areas for the endangered Asian elephant Elephas maximus across a 21,210 km2 region using empirical data and recently developed animal movement models. Location Northeast India. Methods We interviewed 1,184 respondents, primarily farmers, residing across our study region, to collect crowd‐sourced data on elephant use of the matrix. We generated a classified land use/land cover map and collated remotely sensed data on environmental and anthropogenic covariates. We used logistic regression to estimate the influence of these covariates on resistance, based on elephant detections recorded via interviews. We modelled elephant movement within the randomised shortest path framework, which allows for scenarios ranging from optimal movement with complete information on the landscape to random movement with no information on the landscape. We calculated the passage of elephants through pixels in our study region, a parameter that denotes the expected number of elephant movements through a particular pixel across movement routes. We overlaid linear infrastructure sourced from secondary data, and human–elephant conflict hotspots generated from our interview data, on passage maps. Results Elephants preferred locations with high vegetation cover, close to forests and with low human population density. We mapped important connectivity areas across the study region, including in three important conservation landscapes. Whilst forests facilitated connectivity, the matrix also played an important contributory role to elephant dispersal. Incorporating information on environmental and anthropogenic drivers of elephant movement added value to connectivity predictions. Main conclusions Fine‐scale mapping of connectivity, using empirical data and realistic movement models, such as the approach we use, can provide for informed and more effective landscape‐scale conservation.
ISSN:1366-9516
1472-4642
DOI:10.1111/ddi.13419