Colorado State University, Fort Collins, CO, USA.
Clemson University, Clemson, SC, USA.
Ecol Lett. 2021 Oct;24(10):2238-2255. doi: 10.1111/ele.13845. Epub 2021 Jul 26.
Novel pathogen introduction can have drastic consequences for naive host populations, and outcomes can be difficult to predict. Evolutionary rescue (ER) provides a foundation for understanding whether hosts are driven to extinction or survive via adaptation. Currently, patterns of host population dynamics alongside evidence of adaptation are used to infer ER. However, the gap between established ER theory and complexity inherent in natural systems makes interpreting empirical patterns difficult because they can be confounded with ecological drivers of survival under current theory. To bridge this gap, we expand ER theory to include biological selective agents, such as pathogens. We find birth processes to be more important than previously theorised in determining ER potential. We employ a novel framework evaluating ER potential within natural systems and gain ability to identify system characteristics that make ER possible. Identifying these characteristics allows a shift from retrospective observation to a predictive mindset, and our findings suggest that ER occurrence may be more limited than previously thought. We use the plague system of Yersinia pestis infecting Cynomys ludovicianus (black-tailed prairie dogs) and Spermophilus beecheyi (California ground squirrels) as a case study.
新病原体的引入可能会对天真的宿主种群产生巨大影响,其结果也难以预测。进化拯救(evolutionary rescue,ER)为理解宿主是通过适应而走向灭绝还是得以幸存提供了理论基础。目前,人们通过研究宿主种群动态的模式以及适应的证据来推断 ER 的情况。然而,既定的 ER 理论与自然系统所固有的复杂性之间存在差距,这使得解释经验模式变得困难,因为它们可能与当前理论下生存的生态驱动因素相混淆。为了弥合这一差距,我们将 ER 理论扩展到包括病原体等生物选择剂。我们发现,与之前的理论相比,出生过程在确定 ER 潜力方面更为重要。我们采用了一种新的框架来评估自然系统中的 ER 潜力,并获得了识别使 ER 成为可能的系统特征的能力。确定这些特征可以使我们从回顾性观察转变为前瞻性思维,我们的研究结果表明,ER 的发生可能比之前认为的要受限制。我们以感染黑尾草原犬鼠(Cynomys ludovicianus)和加利福尼亚地松鼠(Spermophilus beecheyi)的鼠疫耶尔森氏菌(Yersinia pestis)系统为例进行了研究。
