Animal taxa contrast in their scale-dependent responses to land use change in rural Africa

Human-dominated landscapes comprise the bulk of the world's terrestrial surface and Africa is predicted to experience the largest relative increase over the next century. A multi-scale approach is required to identify processes that maintain diversity in these landscapes. Here we identify scale...

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Veröffentlicht in:	PloS one 2018-05, Vol.13 (5), p.e0194336-e0194336
Hauptverfasser:	Foord, Stefan Hendrik, Swanepoel, Lourens Hendrik, Evans, Steven William, Schoeman, Colin Stefan, Erasmus, Barend Frederik N, Schoeman, M Corrie, Keith, Mark, Smith, Alain, Mauda, Evans Vusani, Maree, Naudene, Nembudani, Nkhumeleni, Dippenaar-Schoeman, Anna Sophia, Munyai, Thinandavha Caswell, Taylor, Peter John
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Sprache:	eng
Schlagworte:	Africa Agricultural ecosystems Agriculture Analysis Animal taxonomy Animals Bats Biodiversity Biology Biology and Life Sciences Birds Birds - physiology Chiroptera Conservation of Natural Resources Earth Sciences Ecology and Environmental Sciences Ecosystem Ecosystem biology Environmental changes Formicidae Funding Grasslands Heterogeneity Human Activities Human behavior Humans Hymenoptera Land use Landscape Life sciences Mammals Mammals - physiology Population Dynamics Rhinolophus hipposideros Rodents Rural land use Small mammals Social Sciences Sustainability Tenebrionidae Terrestrial environments Urbanization Vegetation Wildlife management Zoology
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creator	Foord, Stefan Hendrik Swanepoel, Lourens Hendrik Evans, Steven William Schoeman, Colin Stefan Erasmus, Barend Frederik N Schoeman, M Corrie Keith, Mark Smith, Alain Mauda, Evans Vusani Maree, Naudene Nembudani, Nkhumeleni Dippenaar-Schoeman, Anna Sophia Munyai, Thinandavha Caswell Taylor, Peter John
description	Human-dominated landscapes comprise the bulk of the world's terrestrial surface and Africa is predicted to experience the largest relative increase over the next century. A multi-scale approach is required to identify processes that maintain diversity in these landscapes. Here we identify scales at which animal diversity responds by partitioning regional diversity in a rural African agro-ecosystem between one temporal and four spatial scales. Human land use practices are the main driver of diversity in all seven animal assemblages considered, with medium sized mammals and birds most affected. Even the least affected taxa, bats and non-volant small mammals (rodents), responded with increased abundance in settlements and agricultural sites respectively. Regional turnover was important to invertebrate taxa and their response to human land use was intermediate between that of the vertebrate extremes. Local scale (< 300 m) heterogeneity was the next most important level for all taxa, highlighting the importance of fine scale processes for the maintenance of biodiversity. Identifying the triggers of these changes within the context of functional landscapes would provide the context for the long-term sustainability of these rapidly changing landscapes.
doi_str_mv	10.1371/journal.pone.0194336
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A multi-scale approach is required to identify processes that maintain diversity in these landscapes. Here we identify scales at which animal diversity responds by partitioning regional diversity in a rural African agro-ecosystem between one temporal and four spatial scales. Human land use practices are the main driver of diversity in all seven animal assemblages considered, with medium sized mammals and birds most affected. Even the least affected taxa, bats and non-volant small mammals (rodents), responded with increased abundance in settlements and agricultural sites respectively. Regional turnover was important to invertebrate taxa and their response to human land use was intermediate between that of the vertebrate extremes. Local scale (< 300 m) heterogeneity was the next most important level for all taxa, highlighting the importance of fine scale processes for the maintenance of biodiversity. 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subjects	Africa Agricultural ecosystems Agriculture Analysis Animal taxonomy Animals Bats Biodiversity Biology Biology and Life Sciences Birds Birds - physiology Chiroptera Conservation of Natural Resources Earth Sciences Ecology and Environmental Sciences Ecosystem Ecosystem biology Environmental changes Formicidae Funding Grasslands Heterogeneity Human Activities Human behavior Humans Hymenoptera Land use Landscape Life sciences Mammals Mammals - physiology Population Dynamics Rhinolophus hipposideros Rodents Rural land use Small mammals Social Sciences Sustainability Tenebrionidae Terrestrial environments Urbanization Vegetation Wildlife management Zoology
title	Animal taxa contrast in their scale-dependent responses to land use change in rural Africa
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