Seasonal and Diel Environmental Conditions Predict Western Pond Turtle (Emys marmorata) Behavior at a Perennial and an Ephemeral Stream in Sequoia National Park, California

IF 0.9 4区 生物学 Q3 ZOOLOGY
Gabrielle E Ruso, Erik Meyer, Adrian J. Das
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引用次数: 1

Abstract

Abstract Managers making decisions may benefit from a well-informed understanding of a species' population size and trends. Given the cryptic nature and habitat characteristics of the western pond turtle (Emys marmorata), however, imperfect detection may be high and population estimates are frequently varied and unreliable. As a case study to investigate this issue, we used temperature dataloggers to examine turtle behavior at 2 long-term monitoring sites with different hydrological characteristics in Sequoia National Park, California, to determine if common stream-survey techniques are consistent with site-specific turtle behavior. Sycamore Creek is an intermittent stream that dries up every summer while the North Fork Kaweah River flows year-round. We found that while turtles spent most of the recorded time in the water (55% in Sycamore Creek and 82% in the North Fork Kaweah River), the timing of traditional surveys only coincided with the turtles' aquatic activity in the North Fork Kaweah River. At Sycamore Creek, turtles were most likely to be in the water at night. In contrast, failure to detect turtles in North Fork Kaweah River is likely owing to the larger size and complexity of the underwater habitat. In both streams, turtles were also more likely to be in the water in the weeks leading up to important changes in hydroperiods. Our findings illustrate the effects that differences in water permanence can have on turtle behavior within the same watershed and how phenotypic plasticity may then affect detection during surveys. Our study highlights the importance of tailoring survey practices to the site-specific behavioral traits of the target species.
季节和昼夜环境条件预测加利福尼亚州红杉国家公园多年生和短流中西池龟(Emys marmorata)的行为
摘要管理者做出决策可能受益于对物种种群规模和趋势的全面了解。然而,考虑到西池龟(Emys marmorata)的神秘性质和栖息地特征,不完美的检测可能很高,而且种群估计经常变化且不可靠。作为调查这一问题的案例研究,我们使用温度数据记录器检查了加利福尼亚州红杉国家公园两个具有不同水文特征的长期监测点的海龟行为,以确定常见的溪流调查技术是否与特定地点的海龟行为一致。Sycamore溪是一条间歇性的溪流,每年夏天都会干涸,而北福克河全年都在流动。我们发现,虽然海龟大部分时间都在水中度过(Sycamore Creek占55%,North Fork Kaweah河占82%),但传统调查的时间只与海龟在North Fork Kaweah河的水生活动相吻合。在Sycamore Creek,海龟最有可能在晚上下水。相比之下,未能在北叉河发现海龟可能是由于水下栖息地的规模和复杂性较大。在这两条溪流中,海龟在水生生物发生重要变化前的几周也更有可能在水中。我们的研究结果说明了水的持久性差异对同一流域内海龟行为的影响,以及表型可塑性如何影响调查期间的检测。我们的研究强调了根据目标物种特定地点的行为特征调整调查实践的重要性。
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来源期刊
CiteScore
1.70
自引率
14.30%
发文量
17
审稿时长
>12 weeks
期刊介绍: Chelonian Conservation and Biology is a biannual peer-reviewed journal of cosmopolitan and broad-based coverage of all aspects of conservation and biology of all chelonians, including freshwater turtles, marine turtles, and tortoises. Manuscripts may cover any aspects of turtle and tortoise research, with a preference for conservation or biology. Manuscripts dealing with conservation biology, systematic relationships, chelonian diversity, geographic distribution, natural history, ecology, reproduction, morphology and natural variation, population status, husbandry, community conservation initiatives, and human exploitation or conservation management issues are of special interest.
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