挖掘可探测性:揭示温度如何影响化石腾博会登录无腿蜥的探测概率

Pub Date : 2024-06-07 DOI:10.3996/jfwm-23-039
Jonathan P. Rose, Sabrena M. Camp, Zarina N. Sheikh, Chelsea B. Johnson, Samuel H. Lei, Giancarlo R. Napolitano, Elliot J Schoenig, Daniel A. Macias, A. C. Jordan, B. Halstead
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引用次数: 0

摘要

物种分布知识对于物种保护至关重要,但对稀有、研究不足的物种进行调查却面临许多挑战。分两个阶段进行的栖息地研究可以迅速利用第一阶段的调查数据来修改第二阶段的研究设计,从而增加从物种早期栖息地研究中获得的知识。Temblor 无腿蜥 Anniella alexanderae 是最近描述的一种化石物种,发现于美国加利福尼亚州西南部的圣华金河谷,目前州和联邦野生动物机构正在对其地位进行审查。作为一种很少在地表活动的化石物种,Temblor无腿蜥可能在一年中的某些时候或在不适宜的条件下(如炎热、干燥的天气)无法被检测到,这表明在确定其分布时考虑假阴性调查的重要性。我们使用了一个多尺度占据模型来区分腾博会登录无腿蜥的探测概率、可探测性和占据率。我们在2022年(n=60)和2023年(n=68)共调查了89个地点,在12个地点发现了无腿腾博会登录蜥蜴,其中包括5个新地点。在冬末春初的调查期间,发现概率与气温呈正相关,而且发现概率一直很高,每年的波动很小。尽管如此,反复调查未发现这种化石蜥蜴的地点,可以增加对其不存在的信心。滕布洛无腿蜥更有可能出现在短时溪流附近和粘土含量不高的地区,但更多的调查有助于发现出现的驱动因素。我们的研究为优化对无腿腾博会登录蜥蜴的调查提供了宝贵的信息,并为该物种未来的生态学研究指明了方向。
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Digging into detectability: uncovering how temperature influences detection probability of the fossorial Temblor legless lizard
Knowledge of species distributions is critical for conservation, but surveying for rare, under-studied species presents many challenges. A two-phase occupancy study can increase knowledge gained from early occupancy studies of a species by quickly using data from the first survey period to revise the study design for a second period. The Temblor legless lizard Anniella alexanderae is a recently described fossorial species found in the southwestern San Joaquin Valley, CA, USA, and its status is currently under review by state and federal wildlife agencies. As a fossorial species that is rarely surface active, Temblor legless lizards might be unavailable for detection at certain times of year or under inhospitable conditions (e.g., hot, dry weather), indicating the importance of accounting for false negative surveys when determining its distribution. We used a multi-scale occupancy model to disentangle detection probability, availability for detection, and occupancy for Temblor legless lizards. Focusing our effort from mid-February to mid-April when temperatures are mild and soil moisture is expected to be higher near the surface, we surveyed a total of 89 sites in 2022 (n=60) and 2023 (n=68), detecting Temblor legless lizards at 12 sites, including 5 new localities. Detection probability was positively related to temperature during our late winter-early spring survey period, and availability for detection was consistently high with minimal fluctuation within each year. Nevertheless, repeated surveys with non-detection can increase confidence this fossorial lizard does not occur at a site. Temblor legless lizards were more likely to occur at sites near ephemeral streams, and in areas without high clay soil content, but more investigation could help to discern drivers of occurrence. Our study provides valuable information for optimizing surveys for Temblor legless lizards and suggests promising directions for future research on this species′ ecology.
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