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Title
Nomadic ungulate movements under threat: Declining mobility of Mongolian gazelles in the Eastern Steppe of Mongolia
Author(s)
Mendgen, Philipp;Dejid, Nandintsetseg;Olson, Kirk;Buuveibaatar, Bayarbaatar;Calabrese, Justin M.;Chimeddorj, Buyanaa;Dalannast, Munkhnast;Fagan, William F.;Leimgruber, Peter;Müller, Thomas
Published
2023
Publisher
Biological Conservation
Published Version DOI
https://doi.org/10.1016/j.biocon.2023.110271
Pre-Publication DOI
DOI for Open Access preprint or postprint version of article
10.1101/2023.02.05.526430
Abstract
Increasing habitat fragmentation and disturbance threaten long-distance movements of ungulates. While the effects of impermeable barriers on ungulate migrations have been well researched, quantitative evidence for gradual, long-term changes of mobility remains rare. We investigated changes in movement behavior of Mongolian gazelle Procapra gutturosa using GPS tracking data collected from 62 gazelle individuals between 2007 and 2021. We quantified 16-day displacement distances as a metric for long-distance movements before using linear mixed models, generalized additive models and quantile regressions to assess how anthropogenic and environmental factors affected gazelle movement behavior. Long-distance 16-day movements decreased by 36 %, from 142 km in 2007 to 92 km in 2021. Changes in mobility were affected by increasing vehicle numbers in Mongolia, but could not be explained by concurrent changes in other environmental factors like temperature, precipitation or vegetation greenness. Gazelle movement decreased close to roads, and gazelles stayed further away from roads during the snow-free season, when traffic likely is most intense. Conserving landscape permeability is essential for maintaining populations of highly mobile species. Our study provides evidence for a gradual decline in gazelle mobility over fifteen years as a response to increasing anthropogenic impact. The transportation infrastructure permeating the Eastern Steppe does not pose physical barriers, yet our findings suggest that increasing traffic volume may create semipermeable barriers to gazelle movement. As human activity is increasing, interactions between ungulates and vehicle traffic need to be closely monitored to identify and mitigate semipermeable barrier effects before landscape permeability is severely altered.
Keywords
Animal movement; Connectivity; GPS tracking; Semipermeable barriers; Traffic; Ungulate migration
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PUB36245