Reconstructing mechanisms of extinctions to guide mammal conservation biogeography

An emerging research program on population and geographic range dynamics of Australia's mammals illustrates an approach to better understand and respond to geographic range collapses of threatened wildlife in general. In 1788, Europeans colonized an Australia with a diverse and largely endemic...

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Veröffentlicht in:	Journal of biogeography 2023-07, Vol.50 (7), p.1199-1212
Hauptverfasser:	Tomlinson, Sean, Lomolino, Mark V., Woinarski, John C. Z., Murphy, Brett P., Reed, Elizabeth, Johnson, Chris N., Legge, Sarah, Helgen, Kristofer M., Brown, Stuart C., Fordham, Damien A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Biogeography Conservation conservation biogeography Endemic species Environmental changes Extinct species extinction geographic range collapse Herbivores Land use Mammals palaeoecology Population decline Predators process‐explicit modelling Spatial discrimination Spatial resolution Species extinction species recovery Wildlife Wildlife conservation
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creator	Tomlinson, Sean Lomolino, Mark V. Woinarski, John C. Z. Murphy, Brett P. Reed, Elizabeth Johnson, Chris N. Legge, Sarah Helgen, Kristofer M. Brown, Stuart C. Fordham, Damien A.
description	An emerging research program on population and geographic range dynamics of Australia's mammals illustrates an approach to better understand and respond to geographic range collapses of threatened wildlife in general. In 1788, Europeans colonized an Australia with a diverse and largely endemic mammal fauna, where many species that are now extinct or threatened were common and widespread. Subsequent population declines, range collapses and extinctions were caused by introduced predators and herbivores, altered land use, modified fire regimes and the synergies between these threats. Declines in population and range size continue for many Australian mammals despite legislative protection and conservation interventions. Here, we propose an approach that integrates museum data and other historical records into process‐explicit macroecological models to better resolve mammal distributions and abundances as they were at European arrival. We then illustrate how this integrative approach can identify the likely synergistic mechanisms causing mammal population declines across these and other landscapes. This emerging research approach, undertaken with fine temporal and spatial resolution, but at large geographic scales, will provide valuable insights into the different pathways to, and drivers of, extinction. Such insights may, in turn, underpin conservation strategies based on a process‐explicit understanding of population decline and range collapse under alternative scenarios of impending climate and environmental change. Given that similar information is available for other regional biotas, the approach we describe here can be adapted to conserve threatened wildlife in other regions across the globe.
doi_str_mv	10.1111/jbi.14616
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Declines in population and range size continue for many Australian mammals despite legislative protection and conservation interventions. Here, we propose an approach that integrates museum data and other historical records into process‐explicit macroecological models to better resolve mammal distributions and abundances as they were at European arrival. We then illustrate how this integrative approach can identify the likely synergistic mechanisms causing mammal population declines across these and other landscapes. This emerging research approach, undertaken with fine temporal and spatial resolution, but at large geographic scales, will provide valuable insights into the different pathways to, and drivers of, extinction. Such insights may, in turn, underpin conservation strategies based on a process‐explicit understanding of population decline and range collapse under alternative scenarios of impending climate and environmental change. 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Subsequent population declines, range collapses and extinctions were caused by introduced predators and herbivores, altered land use, modified fire regimes and the synergies between these threats. Declines in population and range size continue for many Australian mammals despite legislative protection and conservation interventions. Here, we propose an approach that integrates museum data and other historical records into process‐explicit macroecological models to better resolve mammal distributions and abundances as they were at European arrival. We then illustrate how this integrative approach can identify the likely synergistic mechanisms causing mammal population declines across these and other landscapes. This emerging research approach, undertaken with fine temporal and spatial resolution, but at large geographic scales, will provide valuable insights into the different pathways to, and drivers of, extinction. Such insights may, in turn, underpin conservation strategies based on a process‐explicit understanding of population decline and range collapse under alternative scenarios of impending climate and environmental change. 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subjects	Biogeography Conservation conservation biogeography Endemic species Environmental changes Extinct species extinction geographic range collapse Herbivores Land use Mammals palaeoecology Population decline Predators process‐explicit modelling Spatial discrimination Spatial resolution Species extinction species recovery Wildlife Wildlife conservation
title	Reconstructing mechanisms of extinctions to guide mammal conservation biogeography
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