Hayden-Wing Associates, LLC, Natural Resource Consultants, Laramie, Wyoming, United States of America.
PLoS One. 2011 Jan 26;6(1):e14597. doi: 10.1371/journal.pone.0014597.
Conserving animal populations in places where human activity is increasing is an ongoing challenge in many parts of the world. We investigated how human activity interacted with maternal status and individual variation in behavior to affect reliability of spatially-explicit models intended to guide conservation of critical ungulate calving resources. We studied Rocky Mountain elk (Cervus elaphus) that occupy a region where 2900 natural gas wells have been drilled.
METHODOLOGY/PRINCIPAL FINDINGS: We present novel applications of generalized additive modeling to predict maternal status based on movement, and of random-effects resource selection models to provide population and individual-based inference on the effects of maternal status and human activity. We used a 2×2 factorial design (treatment vs. control) that included elk that were either parturient or non-parturient and in areas either with or without industrial development. Generalized additive models predicted maternal status (parturiency) correctly 93% of the time based on movement. Human activity played a larger role than maternal status in shaping resource use; elk showed strong spatiotemporal patterns of selection or avoidance and marked individual variation in developed areas, but no such pattern in undeveloped areas. This difference had direct consequences for landscape-level conservation planning. When relative probability of use was calculated across the study area, there was disparity throughout 72-88% of the landscape in terms of where conservation intervention should be prioritized depending on whether models were based on behavior in developed areas or undeveloped areas. Model validation showed that models based on behavior in developed areas had poor predictive accuracy, whereas the model based on behavior in undeveloped areas had high predictive accuracy.
CONCLUSIONS/SIGNIFICANCE: By directly testing for differences between developed and undeveloped areas, and by modeling resource selection in a random-effects framework that provided individual-based inference, we conclude that: 1) amplified selection or avoidance behavior and individual variation, as responses to increasing human activity, complicate conservation planning in multiple-use landscapes, and 2) resource selection behavior in places where human activity is predictable or less dynamic may provide a more reliable basis from which to prioritize conservation action.
在人类活动不断增加的地区保护动物种群是世界上许多地区面临的持续挑战。我们研究了人类活动如何与母性行为和个体行为变化相互作用,以影响旨在指导关键有蹄类动物产犊资源保护的空间明确模型的可靠性。我们研究了落基山脉麋鹿(Cervus elaphus),它们栖息在一个已经钻探了 2900 口天然气井的地区。
方法/主要发现:我们提出了广义可加模型的新应用,用于根据运动预测母性行为,并提出了随机效应资源选择模型,以提供基于种群和个体的母性行为和人类活动影响的推断。我们使用了 2×2 因子设计(处理与对照),包括处于分娩或非分娩状态的麋鹿,以及有或没有工业发展的区域。广义可加模型根据运动正确预测母性行为(分娩)的准确率为 93%。人类活动对资源利用的影响大于母性行为;在开发区域,麋鹿表现出强烈的时空选择或回避模式以及明显的个体变异,但在未开发区域则没有这种模式。这种差异对景观层面的保护规划有直接影响。当在整个研究区域计算相对使用概率时,根据模型是基于开发区域还是未开发区域的行为,景观中 72-88%的区域在应该优先考虑保护干预的位置上存在差异。模型验证表明,基于开发区域行为的模型预测准确性较差,而基于未开发区域行为的模型预测准确性较高。
结论/意义:通过直接测试开发区域和未开发区域之间的差异,并在提供个体推断的随机效应框架中建模资源选择,我们得出结论:1)随着人类活动的增加,放大的选择或回避行为和个体变异使多用途景观的保护规划变得复杂,2)在人类活动可预测或动态较小的地方,资源选择行为可能为确定保护行动的优先级提供更可靠的基础。
