A vision for incorporating human mobility in the study of human–wildlife interactions

A vision for incorporating human mobility in the study of human–wildlife interactions

As human activities increasingly shape land- and seascapes, understanding human–wildlife interactions is imperative for preserving biodiversity. Habitats are impacted not only by static modifications, such as roads, buildings and other infrastructure, but also by the dynamic movement of people and t...

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Veröffentlicht in:Nature ecology & evolution 2023-09, Vol.7 (9), p.1362-1372
Hauptverfasser: Ellis-Soto, Diego, Oliver, Ruth Y., Brum-Bastos, Vanessa, Demšar, Urška, Jesmer, Brett, Long, Jed A., Cagnacci, Francesca, Ossi, Federico, Queiroz, Nuno, Hindell, Mark, Kays, Roland, Loretto, Matthias-Claudio, Mueller, Thomas, Patchett, Robert, Sims, David W., Tucker, Marlee A., Ropert-Coudert, Yan, Rutz, Christian, Jetz, Walter
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Animals, Wild
Anthropocene
Anthropogenic factors
Biodiversity
Biodiversity and Ecology
Biological and Physical Anthropology
Biomedical and Life Sciences
Conservation of Natural Resources
Demography
Earth, Planet
Ecological studies
Ecology
Ecology, environment
Ecosystem
Environment
Environmental Sciences
Evolutionary Biology
Human Activities
Human influences
Human motion
Infrastructure
Life Sciences
Mobility
Paleontology
Perspective
Symbiosis
Transportation
Wildlife
Zoology
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container_end_page 1372
container_issue 9
container_start_page 1362
container_title Nature ecology & evolution
container_volume 7
creator Ellis-Soto, Diego
Oliver, Ruth Y.
Brum-Bastos, Vanessa
Demšar, Urška
Jesmer, Brett
Long, Jed A.
Cagnacci, Francesca
Ossi, Federico
Queiroz, Nuno
Hindell, Mark
Kays, Roland
Loretto, Matthias-Claudio
Mueller, Thomas
Patchett, Robert
Sims, David W.
Tucker, Marlee A.
Ropert-Coudert, Yan
Rutz, Christian
Jetz, Walter
description As human activities increasingly shape land- and seascapes, understanding human–wildlife interactions is imperative for preserving biodiversity. Habitats are impacted not only by static modifications, such as roads, buildings and other infrastructure, but also by the dynamic movement of people and their vehicles occurring over shorter time scales. Although there is increasing realization that both components of human activity substantially affect wildlife, capturing more dynamic processes in ecological studies has proved challenging. Here we propose a conceptual framework for developing a ‘dynamic human footprint’ that explicitly incorporates human mobility, providing a key link between anthropogenic stressors and ecological impacts across spatiotemporal scales. Specifically, the dynamic human footprint integrates a range of metrics to fully acknowledge the time-varying nature of human activities and to enable scale-appropriate assessments of their impacts on wildlife behaviour, demography and distributions. We review existing terrestrial and marine human-mobility data products and provide a roadmap for how these could be integrated and extended to enable more comprehensive analyses of human impacts on biodiversity in the Anthropocene. Wildlife are affected by human movement and static human infrastructure. In this Perspective, the authors propose a ‘dynamic human footprint’ that incorporates metrics accounting for time-varying human activities.
doi_str_mv 10.1038/s41559-023-02125-6
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identifier ISSN: 2397-334X
ispartof Nature ecology & evolution, 2023-09, Vol.7 (9), p.1362-1372
issn 2397-334X
2397-334X
language eng
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source MEDLINE; Nature; Alma/SFX Local Collection
subjects 631/158
631/601
704/844/685
Animals, Wild
Anthropocene
Anthropogenic factors
Biodiversity
Biodiversity and Ecology
Biological and Physical Anthropology
Biomedical and Life Sciences
Conservation of Natural Resources
Demography
Earth, Planet
Ecological studies
Ecology
Ecology, environment
Ecosystem
Environment
Environmental Sciences
Evolutionary Biology
Human Activities
Human influences
Human motion
Infrastructure
Life Sciences
Mobility
Paleontology
Perspective
Symbiosis
Transportation
Wildlife
Zoology
title A vision for incorporating human mobility in the study of human–wildlife interactions
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