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评估种群内行为和种群统计学的变异性,以了解扩散受限物种对气候变化的适应潜力。

Evaluating within-population variability in behavior and demography for the adaptive potential of a dispersal-limited species to climate change.

作者信息

Muñoz David J, Miller Hesed Kyle, Campbell Grant Evan H, Miller David A W

机构信息

Department of Ecosystem Science and Management Pennsylvania State University University Park PA USA.

Department of Biology University of Maryland College Park MD USA; Present address: Biology Program Department of Natural Sciences & Mathematics Hesston College Hesston KS USA.

出版信息

Ecol Evol. 2016 Nov 17;6(24):8740-8755. doi: 10.1002/ece3.2573. eCollection 2016 Dec.

Abstract

Multiple pathways exist for species to respond to changing climates. However, responses of dispersal-limited species will be more strongly tied to ability to adapt within existing populations as rates of environmental change will likely exceed movement rates. Here, we assess adaptive capacity in , a dispersal-limited woodland salamander. We quantify plasticity in behavior and variation in demography to observed variation in environmental variables over a 5-year period. We found strong evidence that temperature and rainfall influence surface presence, indicating changes in climate are likely to affect seasonal activity patterns. We also found that warmer summer temperatures reduced individual growth rates into the autumn, which is likely to have negative demographic consequences. Reduced growth rates may delay reproductive maturity and lead to reductions in size-specific fecundity, potentially reducing population-level persistence. To better understand within-population variability in responses, we examined differences between two common color morphs. Previous evidence suggests that the color polymorphism may be linked to physiological differences in heat and moisture tolerance. We found only moderate support for morph-specific differences for the relationship between individual growth and temperature. Measuring environmental sensitivity to climatic variability is the first step in predicting species' responses to climate change. Our results suggest phenological shifts and changes in growth rates are likely responses under scenarios where further warming occurs, and we discuss possible adaptive strategies for resulting selective pressures.

摘要

物种应对气候变化存在多种途径。然而,扩散受限物种的反应将更紧密地与现有种群内的适应能力相关联,因为环境变化的速度可能会超过其移动速度。在这里,我们评估了一种扩散受限的林地蝾螈的适应能力。我们量化了行为可塑性以及在5年时间里种群统计学特征随环境变量的变化。我们发现有力证据表明温度和降雨会影响其地表出现情况,这表明气候变化很可能会影响季节性活动模式。我们还发现夏季温度升高会降低个体到秋季时的生长速度,这可能会对种群统计学特征产生负面影响。生长速度降低可能会延迟生殖成熟,并导致特定体型的繁殖力下降,从而可能降低种群水平的持久性。为了更好地理解种群内反应的变异性,我们研究了两种常见体色形态之间的差异。先前的证据表明,颜色多态性可能与耐热性和耐湿性的生理差异有关。我们仅发现个体生长与温度之间的关系存在适度的形态特异性差异。衡量对气候变异性的环境敏感性是预测物种对气候变化反应的第一步。我们的结果表明,在进一步变暖的情况下,物候变化和生长速度变化可能是其反应,并且我们讨论了应对由此产生的选择压力的可能适应策略。

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