一种高山两栖动物的两个种群在未来气候条件下的人口反应截然不同

Amanda M. Kissel , Wendy J. Palen , Michael J. Adams , Justin Garwood
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引用次数: 0

摘要

对于具有复杂生命史的物种来说,气候变化会对适应当地气候的种群中不同生命阶段产生截然不同的影响,并可能导致与一般气候变化预测相反的反应。利用对北美山地两栖动物卡斯卡德蛙(Rana cascadae)进行的两项为期 14 年的人口研究数据,我们量化了当前气候如何影响幼体和成体阶段的年存活率,并模拟了当前(1980-2006 年)和未来(2080 年代)每个种群的随机种群增长率(λs)。对幼虫而言,种群生存的气候驱动因素相似(即降水量减少导致池塘干涸和死亡),但对陆生阶段则不同,冬季长度和夏季降水量的减少产生了相反的影响。到 2080 年代,我们预测一个种群的数量将急剧下降(λs = 0.90),而另一个种群在没有其他压力因素(如疾病导致的死亡率)的情况下将几乎保持稳定(λs = 0.99)。我们的案例研究证明了一个与许多气候包络预测相反的结果,即特定阶段对当地气候和水文的反应导致较北种群的灭绝风险较高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Contrasting demographic responses under future climate for two populations of a montane amphibian

For species with complex life histories, climate change can have contrasting effects for different life stages within locally adapted populations and may result in responses counter to general climate change predictions. Using data from two, 14-year demographic studies for a North American montane amphibian, Cascades frog (Rana cascadae), we quantified how aspects of current climate influenced annual survival of larvae and adult stages and modeled the stochastic population growth rate (λs) of each population for current (1980–2006) and future periods (2080s). Climate drivers of survival for the populations were similar for larvae (i.e., decreases in precipitation lead to pond drying and mortality), but diverged for terrestrial stages where decreases in winter length and summer precipitation had opposite effects. By the 2080s, we predict one population will be in sharp decline (λs = 0.90), while the other population will remain nearly stable (λs = 0.99) in the absence of other stressors, such as mortality due to disease. Our case study demonstrates a result counter to many climate envelope predictions in that stage-specific responses to local climate and hydrology result in a higher extinction risk for the more northern population.

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