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Noonan, M and Scott, DM (2020) Effects of body size on estimation of mammalian area requirements. Conservation Biology. ISSN 1523-1739
cobi.13495.pdf - Accepted Version
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Abstract
Accurately quantifying species’ area requirements is a prerequisite for effective area‐based conservation. This typically involves collecting tracking data on species of interest and then conducting home‐range analyses. Problematically, autocorrelation in tracking data can result in space needs being severely underestimated. Based on previous work, we hypothesized the magnitude of underestimation varies with body mass, a relationship that could have serious conservation implications. To evaluate this hypothesis for terrestrial mammals, we estimated home‐range areas with GPS locations from 757 individuals across 61 globally distributed mammalian species with body masses ranging from 0.4 to 4,000 kg. We then applied block cross‐validation to quantify bias in empirical home‐range estimates. Area requirements of mammals <10 kg were underestimated by a mean ∼15%, and species weighing ∼100 kg were underestimated by ∼50% on average. Thus, we found area estimation was subject to autocorrelation‐induced bias that was worse for large species. Combined with the fact that extinction risk increases as body mass increases, the allometric scaling of bias we observed suggests the most threatened species are also likely to be those with the least accurate home‐range estimates. As a correction, we tested whether data thinning or autocorrelation‐informed home‐range estimation minimized the scaling effect of autocorrelation on area estimates. Data thinning required ankk ∼93% data loss to achieve statistical independence with 95% confidence and was therefore not a viable solution. In contrast, autocorrelation‐informed home‐range estimation resulted in consistently accurate estimates irrespective of mass. When relating body mass to home range size, we detected that correcting for autocorrelation resulted in a scaling exponent significantly >1, meaning the scaling of the relationship changed substantially at the upper end of the mass spectrum.
Item Type: | Article |
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Additional Information: | This article is protected by copyright. All rights reserved This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. |
Uncontrolled Keywords: | allometry; animal movement; area‐based conservation; autocorrelation; home range; kernel density estimation; reserve design; scaling; alometría; autocorrelación; conservación basada en áreas; diseño de reserva; distribución local; escalamiento; estimación de densidad del núcleo; movimiento de mamíferos. |
Subjects: | Q Science > QL Zoology S Agriculture > SF Animal culture |
Divisions: | Faculty of Natural Sciences > School of Life Sciences |
Depositing User: | Symplectic |
Date Deposited: | 16 Jun 2020 14:14 |
Last Modified: | 02 Jul 2020 10:56 |
URI: | https://eprints.keele.ac.uk/id/eprint/8057 |