DeCesare Nicholas J, Hebblewhite Mark, Bradley Mark, Hervieux David, Neufeld Lalenia, Musiani Marco
Wildlife Biology Program, Department of Ecosystem and Conservation Science, College of Forestry and Conservation, University of Montana, Missoula, MT, USA.
Parks Canada, Jasper National Park, Box 10, Jasper, Alberta, Canada.
J Anim Ecol. 2014 Mar;83(2):343-52. doi: 10.1111/1365-2656.12144. Epub 2013 Oct 15.
A central assumption underlying the study of habitat selection is that selected habitats confer enhanced fitness. Unfortunately, this assumption is rarely tested, and in some systems, gradients of predation risk may more accurately characterize spatial variation in vital rates than gradients described by habitat selection studies. Here, we separately measured spatial patterns of both resource selection and predation risk and tested their relationships with a key demographic trait, adult female survival, for a threatened ungulate, woodland caribou (Rangifer tarandus caribou Gmelin). We also evaluated whether exposure to gradients in both predation risk and resource selection value was manifested temporally through instantaneous or seasonal effects on survival outcomes. We used Cox proportional hazards spatial survival modelling to assess the relative support for 5 selection- and risk-based definitions of habitat quality, as quantified by woodland caribou adult female survival. These hypotheses included scenarios in which selection ideally mirrored survival, risk entirely drove survival, non-ideal selection correlated with survival but with additive risk effects, an ecological trap with maladaptive selection and a non-spatial effect of annual variation in weather. Indeed, we found positive relationships between the predicted values of a resource selection function (RSF) and survival, yet subsequently incorporating an additional negative effect of predation risk greatly improved models further. This revealed a positive, but non-ideal relationship between selection and survival. Gradients in these covariates were also shown to affect individual survival probability at multiple temporal scales. Exposure to increased predation risk had a relatively instantaneous effect on survival outcomes, whereas variation in habitat suitability predicted by an RSF had both instantaneous and longer-term seasonal effects on survival. Predation risk was an additive source of hazard beyond that detected through selection alone, and woodland caribou selection thus was shown to be non-ideal. Furthermore, by combining spatial adult female survival models with herd-specific estimates of recruitment in matrix population models, we estimated a spatially explicit landscape of population growth predictions for this endangered species.
栖息地选择研究的一个核心假设是,所选栖息地能带来更高的适合度。不幸的是,这一假设很少得到验证,而且在一些系统中,捕食风险梯度可能比栖息地选择研究所描述的梯度更准确地刻画生命率的空间变化。在此,我们分别测量了资源选择和捕食风险的空间格局,并测试了它们与一种受威胁有蹄类动物——林地驯鹿(Rangifer tarandus caribou Gmelin)的一个关键种群特征(成年雌性存活率)之间的关系。我们还评估了在捕食风险和资源选择价值方面暴露于梯度变化是否会通过对生存结果的瞬时或季节性影响在时间上表现出来。我们使用Cox比例风险空间生存模型,以林地驯鹿成年雌性存活率来量化,评估对5种基于选择和风险的栖息地质量定义的相对支持度。这些假设包括以下几种情况:选择理想地反映存活率、风险完全驱动存活率、非理想选择与存活率相关但存在附加风险效应、具有适应不良选择的生态陷阱以及天气年度变化的非空间效应。实际上,我们发现资源选择函数(RSF)的预测值与存活率之间存在正相关关系,但随后纳入捕食风险的额外负面影响极大地进一步改进了模型。这揭示了选择与存活之间存在积极但非理想的关系。这些协变量的梯度变化在多个时间尺度上也显示出会影响个体的生存概率。暴露于增加的捕食风险对生存结果有相对瞬时的影响,而RSF预测的栖息地适宜性变化对生存既有瞬时影响,也有长期的季节性影响。捕食风险是除仅通过选择检测到的风险之外的一个附加风险源,因此表明林地驯鹿的选择是非理想的。此外,通过将空间成年雌性生存模型与矩阵种群模型中特定种群的补充率估计相结合,我们为这个濒危物种估计了一个空间明确的种群增长预测景观。
