Concurrent threats and extinction risk in a long-lived, highly fecund vertebrate with parental care

IF 4.3 2区 环境科学与生态学 Q1 ECOLOGY Ecological Applications Pub Date : 2024-02-01 DOI:10.1002/eap.2946
George C. Brooks, William A. Hopkins, Holly K. Kindsvater
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Abstract

Detecting declines and quantifying extinction risk of long-lived, highly fecund vertebrates, including fishes, reptiles, and amphibians, can be challenging. In addition to the false notion that large clutches always buffer against population declines, the imperiled status of long-lived species can often be masked by extinction debt, wherein adults persist on the landscape for several years after populations cease to be viable. Here we develop a demographic model for the eastern hellbender (Cryptobranchus alleganiensis), an imperiled aquatic salamander with paternal care. We examined the individual and interactive effects of three of the leading threats hypothesized to contribute to the species' demise: habitat loss due to siltation, high rates of nest failure, and excess adult mortality caused by fishing and harvest. We parameterized the model using data on their life history and reproductive ecology to model the fates of individual nests and address multiple sources of density-dependent mortality under both deterministic and stochastic environmental conditions. Our model suggests that high rates of nest failure observed in the field are sufficient to drive hellbender populations toward a geriatric age distribution and eventually to localized extinction but that this process takes decades. Moreover, the combination of limited nest site availability due to siltation, nest failure, and stochastic adult mortality can interact to increase the likelihood and pace of extinction, which was particularly evident under stochastic scenarios. Density dependence in larval survival and recruitment can severely hamper a population's ability to recover from declines. Our model helps to identify tipping points beyond which extinction becomes certain and management interventions become necessary. Our approach can be generalized to understand the interactive effects of various threats to the extinction risk of other long-lived vertebrates. As we face unprecedented rates of environmental change, holistic approaches incorporating multiple concurrent threats and their impacts on different aspects of life history will be necessary to proactively conserve long-lived species.

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一种寿命长、繁殖力强、有父母照顾的脊椎动物同时面临的威胁和灭绝风险
检测包括鱼类、爬行动物和两栖动物在内的长寿命、高繁殖力脊椎动物的数量下降并量化其灭绝风险是一项挑战。除了认为大量繁殖总是能缓冲种群衰退的错误观念之外,长寿物种的濒危状态往往会被灭绝债务所掩盖,即成体在种群不再具有生存能力后仍在景观中存活数年。在这里,我们为东部地狱蝾螈(Cryptobranchus alleganiensis)建立了一个人口模型,这是一种具有父系关怀的濒危水生蝾螈。我们研究了导致该物种灭绝的三个主要威胁的个体效应和交互效应:淤积导致的栖息地丧失、筑巢失败率高以及捕捞和收割导致的成体死亡率过高。我们利用其生活史和繁殖生态学数据对模型进行了参数化,以模拟单个巢穴的命运,并解决在确定性和随机环境条件下密度依赖性死亡率的多种来源。我们的模型表明,在野外观察到的高巢穴失败率足以使地狱蛙种群走向衰老年龄分布,并最终导致局部灭绝,但这一过程需要数十年时间。此外,泥沙淤积、筑巢失败和成体随机死亡导致的巢址可用性受限等因素相互作用,会增加灭绝的可能性和速度,这在随机情景下尤为明显。幼虫存活率和招募的密度依赖性会严重阻碍种群从衰退中恢复的能力。我们的模型有助于识别临界点,超过临界点,灭绝就变得确定无疑,管理干预就变得必要。我们的方法可以推广用于了解各种威胁对其他长寿脊椎动物灭绝风险的交互影响。由于我们面临着前所未有的环境变化速度,因此有必要采取综合方法,将多种并发威胁及其对生命史不同方面的影响纳入其中,以积极主动地保护长寿物种。
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来源期刊
Ecological Applications
Ecological Applications 环境科学-环境科学
CiteScore
9.50
自引率
2.00%
发文量
268
审稿时长
6 months
期刊介绍: The pages of Ecological Applications are open to research and discussion papers that integrate ecological science and concepts with their application and implications. Of special interest are papers that develop the basic scientific principles on which environmental decision-making should rest, and those that discuss the application of ecological concepts to environmental problem solving, policy, and management. Papers that deal explicitly with policy matters are welcome. Interdisciplinary approaches are encouraged, as are short communications on emerging environmental challenges.
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