TY - JOUR
T1 - Intense human pressure is widespread across terrestrial vertebrate ranges
AU - O'Bryan, Christopher J.
AU - Allan, James R.
AU - Holden, Matthew
AU - Sanderson, Christopher
AU - Venter, Oscar
AU - Di Marco, Moreno
AU - McDonald-Madden, Eve
AU - Watson, James E.M.
N1 - Publisher Copyright:
© 2019 The Authors
PY - 2020/3
Y1 - 2020/3
N2 - The United Nation's Strategic Plan for Biodiversity 2011-2020 calls for reducing species extinctions, as it is increasingly clear that human activities threaten to drive species to decline. Yet despite considerable scientific evidence pointing to the detrimental effects of interacting threats on biodiversity, many species lack information on their exposure to cumulative human pressures. Using the most comprehensive global dataset on cumulative human footprint, we assess the extent of intense human pressures across 20,529 terrestrial vertebrate species’ geographic ranges. We consider intense human pressure as areas where landscapes start to be significantly modified (a summed Human Footprint value at or above three on the index), which is where land uses such as pastureland appear. This threshold has been correlated with extinction risk for many species. We show that 85% (17,517) of the terrestrial vertebrate species assessed have >half of their range exposed to intense human pressure, with 16% (3328) of the species assessed being entirely exposed to this degree of pressure. Threatened terrestrial vertebrates and species with small ranges are disproportionately exposed to intense human pressure. Our analysis also suggests that there are at least 2478 species considered ‘least concern’ that have considerable portions of their range overlapping with these pressures, which may indicate their risk of decline. These results point to the utility of assessing cumulative human pressure data across species ranges, which may be a useful first step for measuring species vulnerability.
AB - The United Nation's Strategic Plan for Biodiversity 2011-2020 calls for reducing species extinctions, as it is increasingly clear that human activities threaten to drive species to decline. Yet despite considerable scientific evidence pointing to the detrimental effects of interacting threats on biodiversity, many species lack information on their exposure to cumulative human pressures. Using the most comprehensive global dataset on cumulative human footprint, we assess the extent of intense human pressures across 20,529 terrestrial vertebrate species’ geographic ranges. We consider intense human pressure as areas where landscapes start to be significantly modified (a summed Human Footprint value at or above three on the index), which is where land uses such as pastureland appear. This threshold has been correlated with extinction risk for many species. We show that 85% (17,517) of the terrestrial vertebrate species assessed have >half of their range exposed to intense human pressure, with 16% (3328) of the species assessed being entirely exposed to this degree of pressure. Threatened terrestrial vertebrates and species with small ranges are disproportionately exposed to intense human pressure. Our analysis also suggests that there are at least 2478 species considered ‘least concern’ that have considerable portions of their range overlapping with these pressures, which may indicate their risk of decline. These results point to the utility of assessing cumulative human pressure data across species ranges, which may be a useful first step for measuring species vulnerability.
KW - Biodiversity conservation
KW - Extinction risk
KW - Human footprint
KW - Land clearing
KW - Land use change
KW - Overexploitation
KW - Species threats
KW - Urbanization
UR - http://www.scopus.com/inward/record.url?scp=85076700763&partnerID=8YFLogxK
U2 - 10.1016/j.gecco.2019.e00882
DO - 10.1016/j.gecco.2019.e00882
M3 - Article
SN - 2351-9894
VL - 21
JO - Global Ecology and Conservation
JF - Global Ecology and Conservation
M1 - e00882
ER -