气候变暖下高山植物局部灭绝风险的驱动因素
Drivers of local extinction risk in alpine plants under warming climate.
作者信息
Nomoto Hanna A, Alexander Jake M
机构信息
Institute of Integrative Biology, ETH Zürich, Universitätstrasse 16, Zürich, 8092, Switzerland.
出版信息
Ecol Lett. 2021 Jun;24(6):1157-1166. doi: 10.1111/ele.13727. Epub 2021 Mar 29.
Abstract
The scarcity of local plant extinctions following recent climate change has been explained by demographic inertia and lags in the displacement of resident species by novel species, generating an 'extinction debt'. We established a transplant experiment to disentangle the contribution of these processes to the local extinction risk of four alpine plants in the Swiss Alps. Projected population growth (λ) derived from integral projection models was reduced by 0.07/°C of warming on average, whereas novel species additionally decreased λ by 0.15 across warming levels. Effects of novel species on predicted extinction time were greatest at warming < 2 °C for two species. Projected population declines under both warming and with novel species were primarily driven by increased mortality. Our results suggest that extinction debt can be explained by a combination of demographic inertia and lags in novel species establishment, with the latter being particularly important for some species under low levels of warming.
摘要
近期气候变化后当地植物灭绝现象稀少,这一情况可通过种群统计学惯性以及新物种取代本地物种的滞后现象(即“灭绝债务”)来解释。我们开展了一项移植实验,以厘清这些过程对瑞士阿尔卑斯山四种高山植物的本地灭绝风险的影响。通过积分投影模型得出的预计种群增长率(λ)平均每升温1°C就降低0.07,而新物种在不同升温水平下还会使λ额外降低0.15。对于两个物种而言,新物种对预测灭绝时间的影响在升温<2°C时最为显著。在升温和有新物种存在的情况下,预计的种群数量下降主要是由死亡率增加所致。我们的研究结果表明,灭绝债务可以通过种群统计学惯性和新物种建立的滞后现象共同解释,对于一些物种来说,后者在低温变暖情况下尤为重要。
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