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result(s) for
"Venter, Oscar"
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Tropical forests are home to over half of the world’s vertebrate species
by
Watson, James EM
,
González-del-Pliego, Pamela
,
Venter, Oscar
in
Anthropogenic factors
,
Biodiversity
,
Deforestation
2022
Tropical forests are renowned for their astonishing diversity of life, but the fundamental question of how many species occur in tropical forests remains unanswered. Using geographic range maps and data on species habitat associations, we determined that tropical forests harbor 62% of global terrestrial vertebrate species, more than twice the number found in any other terrestrial biome on Earth. Up to 29% of global vertebrate species are endemic to tropical forests, with more than 20% of these species at risk of extinction. Humid tropical forests (also known as tropical rainforests) and the Neotropics dominate as centers of species diversity, harboring more than 90% and nearly half of all tropical forest vertebrates, respectively. To maintain the biodiversity that underpins the ecosystem functions and services essential for human well-being, we emphasize the critical importance of environmental policies aimed at reducing tropical deforestation and mitigating deleterious anthropogenic pressures on these imperiled ecosystems.
Journal Article
Changes in human footprint drive changes in species extinction risk
by
Possingham, Hugh P.
,
Watson, James E. M.
,
Di Marco, Moreno
in
631/158/670
,
631/158/672
,
631/158/852
2018
Predicting how species respond to human pressure is essential to anticipate their decline and identify appropriate conservation strategies. Both human pressure and extinction risk change over time, but their inter-relationship is rarely considered in extinction risk modelling. Here we measure the relationship between the change in terrestrial human footprint (HFP)—representing cumulative human pressure on the environment—and the change in extinction risk of the world’s terrestrial mammals. We find the values of HFP across space, and its change over time, are significantly correlated to trends in species extinction risk, with higher predictive importance than environmental or life-history variables. The anthropogenic conversion of areas with low pressure values (HFP < 3 out of 50) is the most significant predictor of change in extinction risk, but there are biogeographical variations. Our framework, calibrated on past extinction risk trends, can be used to predict the impact of increasing human pressure on biodiversity.
Species extinction risk is difficult to measure and often lags behind the pace of increasing threats. Here, the authors demonstrate how monitoring changes in cumulative human pressures could be used to rapidly assess potential change in species’ conservation status.
Journal Article
One-third of global protected land is under intense human pressure
by
Fuller, Richard A.
,
Venter, Oscar
,
Maxwell, Sean L.
in
Biodiversity
,
Biodiversity loss
,
Convention on Biological Diversity
2018
Protected areas are increasingly recognized as an essential way to safeguard biodiversity. Although the percentage of land included in the global protected area network has increased from 9 to 15%, Jones et al. found that a third of this area is influenced by intensive human activity. Thus, even landscapes that are protected are experiencing some human pressure, with only the most remote northern regions remaining almost untouched. Science , this issue p. 788 Human pressure is present in a third of the land designated as protected, globally. In an era of massive biodiversity loss, the greatest conservation success story has been the growth of protected land globally. Protected areas are the primary defense against biodiversity loss, but extensive human activity within their boundaries can undermine this. Using the most comprehensive global map of human pressure, we show that 6 million square kilometers (32.8%) of protected land is under intense human pressure. For protected areas designated before the Convention on Biological Diversity was ratified in 1992, 55% have since experienced human pressure increases. These increases were lowest in large, strict protected areas, showing that they are potentially effective, at least in some nations. Transparent reporting on human pressure within protected areas is now critical, as are global targets aimed at efforts required to halt biodiversity loss.
Journal Article
Just ten percent of the global terrestrial protected area network is structurally connected via intact land
by
Venter, Oscar
,
Ward, Michelle
,
Dubois, Grégoire
in
631/158/672
,
704/158/672
,
Anthropogenic factors
2020
Land free of direct anthropogenic disturbance is considered essential for achieving biodiversity conservation outcomes but is rapidly eroding. In response, many nations are increasing their protected area (PA) estates, but little consideration is given to the context of the surrounding landscape. This is despite the fact that structural connectivity between PAs is critical in a changing climate and mandated by international conservation targets. Using a high-resolution assessment of human pressure, we show that while ~40% of the terrestrial planet is intact, only 9.7% of Earth’s terrestrial protected network can be considered structurally connected. On average, 11% of each country or territory’s PA estate can be considered connected. As the global community commits to bolder action on abating biodiversity loss, placement of future PAs will be critical, as will an increased focus on landscape-scale habitat retention and restoration efforts to ensure those important areas set aside for conservation outcomes will remain (or become) connected.
The effectiveness of protected areas depends not only on whether they are intact, but also on whether they are mutually connected. Here the authors examine the structural connectivity of terrestrial protected areas globally, finding that less than 10% of the protected network can be considered connected.
Journal Article
Sixteen years of change in the global terrestrial human footprint and implications for biodiversity conservation
by
Possingham, Hugh P.
,
Laurance, William F.
,
Venter, Oscar
in
631/158/670
,
631/158/672
,
704/172/4081
2016
Human pressures on the environment are changing spatially and temporally, with profound implications for the planet’s biodiversity and human economies. Here we use recently available data on infrastructure, land cover and human access into natural areas to construct a globally standardized measure of the cumulative human footprint on the terrestrial environment at 1 km
2
resolution from 1993 to 2009. We note that while the human population has increased by 23% and the world economy has grown 153%, the human footprint has increased by just 9%. Still, 75% the planet’s land surface is experiencing measurable human pressures. Moreover, pressures are perversely intense, widespread and rapidly intensifying in places with high biodiversity. Encouragingly, we discover decreases in environmental pressures in the wealthiest countries and those with strong control of corruption. Clearly the human footprint on Earth is changing, yet there are still opportunities for conservation gains.
Habitat loss and urbanization are primary components of human impact on the environment. Here, Venter
et al.
use global data on infrastructure, agriculture, and urbanization to show that the human footprint is growing slower than the human population, but footprints are increasing in biodiverse regions.
Journal Article
Bias in protected-area location and its effects on long-term aspirations of biodiversity conventions
by
Possingham, Hugh P.
,
Venter, Oscar
,
Di Marco, Moreno
in
Agricultural land
,
Biodiversity
,
Conservation
2018
To contribute to the aspirations of recent international biodiversity conventions, protected areas (PAs) must be strategically located and not simply established on economically marginal lands as they have in the past. With refined international commitments under the Convention on Biological Diversity to target protected areas in places of \"importance to biodiversity,\" perhaps they may now be. We analyzed location biases in PAs globally over historic (pre-2004) and recent periods. Specifically, we examined whether the location of protected areas are more closely associated with high concentrations of threatened vertebrate species or with areas of low agricultural opportunity costs. We found that both old and new protected areas did not target places with high concentrations of threatened vertebrate species. Instead, they appeared to be established in locations that minimize conflict with agriculturally suitable lands. This entrenchment of past trends has substantial implications for the contributions these protected areas are making to international commitments to conserve biodiversity. If protected-area growth from 2004 to 2014 had strategically targeted unrepresented threatened vertebrates, >30 times more species (3086 or 2553 potential vs. 85 actual new species represented) would have been protected for the same area or the same cost as the actual expansion. With the land available for conservation declining, nations must urgently focus new protection on places that provide for the conservation outcomes outlined in international treaties. Para contribuir con las aspiraciones de las recientes convenciones internacionales por la biodiversidad, las áreas protegidas (APs) deben estar ubicadas estratégicamente y no establecidas simplemente en tierras marginadas económicamente como ha sido en el pasado. Con compromisos internacionales refinados bajo la Convención por la Diversidad Biológica para enfocarse en áreas protegidas en lugares de \"importancia para la biodiversidad\", tal vez las APs ya sean así. Analizamos los sesgos de ubicación de las APs a nivel mundial a través de periodos históricos (antes del 2004) y recientes. En específico, examinamos si la ubicación de las áreas protegidas está asociada más cercanamente con concentraciones altas de especies de vertebrados amenazadas o con áreas de bajo costos de oportunidad agrícola. Encontramos que tanto las áreas protegidas nuevas como las viejas no se enfocaban en lugares con alta concentración de especies de vertebrados amenazadas. En su lugar, parece que están establecidos en localidades que minimizan el conflicto con tierras adecuadas para la agricultura. Este ajuste de las tendencias pasadas tiene implicaciones sustanciales para las contribuciones que estas áreas protegidas están haciendo para los compromisos internacionales para conservar la biodiversidad. Si el crecimiento de las áreas protegidas de 2004 a 2014 se hubiera enfocado estratégicamente en los vertebrados amenazados poco representados, >30 veces más especies (3086 ó 2553 potenciales vs. 85 especies nuevas actuales representadas) habrían sido protegidas por la misma área o al mismo costo que la expansión actual. Con la declinación del suelo disponible para la conservación, los países deben enfocar urgentemente la nueva protección en sitios que proporcionen para los resultados de conservación resaltados en los tratados internacionales.
Journal Article
Targeting Global Protected Area Expansion for Imperiled Biodiversity
by
Joseph, Liana
,
Fuller, Richard A.
,
Watson, James E. M.
in
Animals
,
Biodiversity
,
Biological diversity conservation
2014
Governments have agreed to expand the global protected area network from 13% to 17% of the world's land surface by 2020 (Aichi target 11) and to prevent the further loss of known threatened species (Aichi target 12). These targets are interdependent, as protected areas can stem biodiversity loss when strategically located and effectively managed. However, the global protected area estate is currently biased toward locations that are cheap to protect and away from important areas for biodiversity. Here we use data on the distribution of protected areas and threatened terrestrial birds, mammals, and amphibians to assess current and possible future coverage of these species under the convention. We discover that 17% of the 4,118 threatened vertebrates are not found in a single protected area and that fully 85% are not adequately covered (i.e., to a level consistent with their likely persistence). Using systematic conservation planning, we show that expanding protected areas to reach 17% coverage by protecting the cheapest land, even if ecoregionally representative, would increase the number of threatened vertebrates covered by only 6%. However, the nonlinear relationship between the cost of acquiring land and species coverage means that fivefold more threatened vertebrates could be adequately covered for only 1.5 times the cost of the cheapest solution, if cost efficiency and threatened vertebrates are both incorporated into protected area decision making. These results are robust to known errors in the vertebrate range maps. The Convention on Biological Diversity targets may stimulate major expansion of the global protected area estate. If this expansion is to secure a future for imperiled species, new protected areas must be sited more strategically than is presently the case.
Journal Article
Matrix condition mediates the effects of habitat fragmentation on species extinction risk
by
Johnson, Chris J.
,
Rondinini, Carlo
,
Di Marco, Moreno
in
631/158/1144
,
704/158/670
,
704/158/852
2022
Habitat loss is the leading cause of the global decline in biodiversity, but the influence of human pressure within the matrix surrounding habitat fragments remains poorly understood. Here, we measure the relationship between fragmentation (the degree of fragmentation and the degree of patch isolation), matrix condition (measured as the extent of high human footprint levels), and the change in extinction risk of 4,426 terrestrial mammals. We find that the degree of fragmentation is strongly associated with changes in extinction risk, with higher predictive importance than life-history traits and human pressure variables. Importantly, we discover that fragmentation and the matrix condition are stronger predictors of risk than habitat loss and habitat amount. Moreover, the importance of fragmentation increases with an increasing deterioration of the matrix condition. These findings suggest that restoration of the habitat matrix may be an important conservation action for mitigating the negative effects of fragmentation on biodiversity.
The influence of human pressure within the matrix surrounding habitat fragments remains poorly understood. This study measures the relationship between habitat fragmentation, matrix condition and the change in extinction risk of 4,426 terrestrial mammals, finding that fragmentation and matrix condition are stronger predictors of risk than habitat loss and habitat amount.
Journal Article
Hotspots of human impact on threatened terrestrial vertebrates
by
Possingham, Hugh P.
,
Di Marco, Moreno
,
Venter, Oscar
in
Animals
,
Biodiversity
,
Biology and Life Sciences
2019
Conserving threatened species requires identifying where across their range they are being impacted by threats, yet this remains unresolved across most of Earth. Here, we present a global analysis of cumulative human impacts on threatened species by using a spatial framework that jointly considers the co-occurrence of eight threatening processes and the distribution of 5,457 terrestrial vertebrates. We show that impacts to species are widespread, occurring across 84% of Earth's surface, and identify hotspots of impacted species richness and coolspots of unimpacted species richness. Almost one-quarter of assessed species are impacted across >90% of their distribution, and approximately 7% are impacted across their entire range. These results foreshadow localised extirpations and potential extinctions without conservation action. The spatial framework developed here offers a tool for defining strategies to directly mitigate the threats driving species' declines, providing essential information for future national and global conservation agendas.
Journal Article
Opportunities for big data in conservation and sustainability
2020
Big data reveals new, stark pictures of the state of our environments. It also reveals ‘bright spots’ amongst the broad pattern of decline and—crucially—the key conditions for these cases. Big data analyses could benefit the planet if tightly coupled with ongoing sustainability efforts.
Journal Article