de Souza Lesley S, Godwin James C, Renshaw Mark A, Larson Eric
Department of Natural Resources and Environment, University of Illinois, Champaign-Urbana, Illinois, United States of America.
Science and Education, The Field Museum of Natural History, Chicago, Illinois, United States of America.
PLoS One. 2016 Oct 24;11(10):e0165273. doi: 10.1371/journal.pone.0165273. eCollection 2016.
Environmental DNA (eDNA) holds great promise for conservation applications like the monitoring of invasive or imperiled species, yet this emerging technique requires ongoing testing in order to determine the contexts over which it is effective. For example, little research to date has evaluated how seasonality of organism behavior or activity may influence detection probability of eDNA. We applied eDNA to survey for two highly imperiled species endemic to the upper Black Warrior River basin in Alabama, US: the Black Warrior Waterdog (Necturus alabamensis) and the Flattened Musk Turtle (Sternotherus depressus). Importantly, these species have contrasting patterns of seasonal activity, with N. alabamensis more active in the cool season (October-April) and S. depressus more active in the warm season (May-September). We surveyed sites historically occupied by these species across cool and warm seasons over two years with replicated eDNA water samples, which were analyzed in the laboratory using species-specific quantitative PCR (qPCR) assays. We then used occupancy estimation with detection probability modeling to evaluate both the effects of landscape attributes on organism presence and season of sampling on detection probability of eDNA. Importantly, we found that season strongly affected eDNA detection probability for both species, with N. alabamensis having higher eDNA detection probabilities during the cool season and S. depressus have higher eDNA detection probabilities during the warm season. These results illustrate the influence of organismal behavior or activity on eDNA detection in the environment and identify an important role for basic natural history in designing eDNA monitoring programs.
环境DNA(eDNA)在保护应用方面极具前景,比如用于监测入侵物种或濒危物种,但这项新兴技术需要持续测试,以确定其有效适用的环境。例如,迄今为止,很少有研究评估生物行为或活动的季节性如何影响eDNA的检测概率。我们应用eDNA对美国阿拉巴马州黑勇士河上游流域特有的两种极度濒危物种进行调查:黑勇士泥狗(Necturus alabamensis)和平背麝香龟(Sternotherus depressus)。重要的是,这些物种具有不同的季节性活动模式,黑勇士泥狗在凉爽季节(10月至次年4月)更为活跃,而平背麝香龟在温暖季节(5月至9月)更为活跃。我们在两年时间里,在凉爽和温暖季节对这些物种曾经栖息的地点进行了调查,采集了重复的eDNA水样,并在实验室中使用物种特异性定量PCR(qPCR)分析方法进行分析。然后,我们利用存在估计和检测概率建模来评估景观属性对生物存在的影响以及采样季节对eDNA检测概率的影响。重要的是,我们发现季节对这两个物种的eDNA检测概率都有强烈影响,黑勇士泥狗在凉爽季节的eDNA检测概率更高,而平背麝香龟在温暖季节的eDNA检测概率更高。这些结果说明了生物行为或活动对环境中eDNA检测的影响,并确定了基础自然史在设计eDNA监测计划中的重要作用。