Feeley Kenneth J, Silman Miles R
Department of Biology, Wake Forest University, Winston Salem, NC 27106, USA.
Proc Natl Acad Sci U S A. 2009 Jul 28;106(30):12382-7. doi: 10.1073/pnas.0900698106. Epub 2009 Jul 14.
Estimates of the number, and preferably the identity, of species that will be threatened by land-use change and habitat loss are an invaluable tool for setting conservation priorities. Here, we use collections data and ecoregion maps to generate spatially explicit distributions for more than 40,000 vascular plant species from the Amazon basin (representing more than 80% of the estimated Amazonian plant diversity). Using the distribution maps, we then estimate the rates of habitat loss and associated extinction probabilities due to land-use changes as modeled under 2 disturbance scenarios. We predict that by 2050, human land-use practices will have reduced the habitat available to Amazonian plant species by approximately 12-24%, resulting in 5-9% of species becoming "committed to extinction," significantly fewer than other recent estimates. Contrary to previous studies, we find that the primary determinant of habitat loss and extinction risk is not the size of a species' range, but rather its location. The resulting extinction risk estimates are a valuable conservation tool because they indicate not only the total percentage of Amazonian plant species threatened with extinction but also the degree to which individual species and habitats will be affected by current and future land-use changes.
对受土地利用变化和栖息地丧失威胁的物种数量(最好能确定其身份)进行估计,是确定保护优先事项的一项宝贵工具。在此,我们利用标本数据和生态区地图,为来自亚马逊盆地的4万多种维管植物生成空间明确的分布情况(占估计的亚马逊植物多样性的80%以上)。然后,利用这些分布图,我们估算了在两种干扰情景下模拟的土地利用变化导致的栖息地丧失率及相关灭绝概率。我们预测,到2050年,人类土地利用活动将使亚马逊植物物种的可用栖息地减少约12% - 24%,导致5% - 9%的物种“注定灭绝”,这一数字明显低于近期的其他估计。与之前的研究相反,我们发现栖息地丧失和灭绝风险的主要决定因素不是物种分布范围的大小,而是其所处位置。由此得出的灭绝风险估计值是一项宝贵的保护工具,因为它们不仅表明了面临灭绝威胁的亚马逊植物物种的总百分比,还显示了单个物种和栖息地将受到当前及未来土地利用变化影响的程度。