RSPB Centre for Conservation Science, The Lodge, Sandy, SG19 2DL, United Kingdom.
Institute of Biodiversity, Animal Health and Comparative Medicine, University of Glasgow, Graham Kerr Building, Glasgow, G12 8QQ, United Kingdom.
Ecol Appl. 2017 Oct;27(7):2074-2091. doi: 10.1002/eap.1591. Epub 2017 Aug 29.
Population-level estimates of species' distributions can reveal fundamental ecological processes and facilitate conservation. However, these may be difficult to obtain for mobile species, especially colonial central-place foragers (CCPFs; e.g., bats, corvids, social insects), because it is often impractical to determine the provenance of individuals observed beyond breeding sites. Moreover, some CCPFs, especially in the marine realm (e.g., pinnipeds, turtles, and seabirds) are difficult to observe because they range tens to ten thousands of kilometers from their colonies. It is hypothesized that the distribution of CCPFs depends largely on habitat availability and intraspecific competition. Modeling these effects may therefore allow distributions to be estimated from samples of individual spatial usage. Such data can be obtained for an increasing number of species using tracking technology. However, techniques for estimating population-level distributions using the telemetry data are poorly developed. This is of concern because many marine CCPFs, such as seabirds, are threatened by anthropogenic activities. Here, we aim to estimate the distribution at sea of four seabird species, foraging from approximately 5,500 breeding sites in Britain and Ireland. To do so, we GPS-tracked a sample of 230 European Shags Phalacrocorax aristotelis, 464 Black-legged Kittiwakes Rissa tridactyla, 178 Common Murres Uria aalge, and 281 Razorbills Alca torda from 13, 20, 12, and 14 colonies, respectively. Using Poisson point process habitat use models, we show that distribution at sea is dependent on (1) density-dependent competition among sympatric conspecifics (all species) and parapatric conspecifics (Kittiwakes and Murres); (2) habitat accessibility and coastal geometry, such that birds travel further from colonies with limited access to the sea; and (3) regional habitat availability. Using these models, we predict space use by birds from unobserved colonies and thereby map the distribution at sea of each species at both the colony and regional level. Space use by all four species' British breeding populations is concentrated in the coastal waters of Scotland, highlighting the need for robust conservation measures in this area. The techniques we present are applicable to any CCPF.
对物种分布的群体估计可以揭示基本的生态过程,并有助于保护。然而,对于移动物种来说,这些可能很难获得,特别是对于殖民地中心觅食者(CCPF;例如蝙蝠、乌鸦、社会性昆虫),因为通常不可能确定在繁殖地之外观察到的个体的起源。此外,一些 CCPF,特别是在海洋领域(例如鳍足类动物、海龟和海鸟),由于它们的活动范围从其殖民地数千公里到数万公里,因此难以观察。据推测,CCPF 的分布在很大程度上取决于栖息地的可用性和种内竞争。因此,对这些影响进行建模可能允许从个体空间使用的样本中估计分布。利用跟踪技术,越来越多的物种可以获得这种数据。然而,利用遥测数据估计群体分布的技术还不够发达。这令人担忧,因为许多海洋 CCPF,如海鸟,受到人为活动的威胁。在这里,我们的目标是估计在英国和爱尔兰大约 5500 个繁殖地觅食的四种海鸟在海上的分布。为此,我们对来自 13、20、12 和 14 个繁殖地的 230 只欧洲冠海雀、464 只黑腿三趾鸥、178 只普通海鸠和 281 只刀嘴海雀进行了 GPS 跟踪。使用泊松点过程生境使用模型,我们表明,海上分布取决于(1)同种竞争(所有物种)和近缘种竞争(黑腿三趾鸥和普通海鸠)之间的密度依赖竞争;(2)生境可达性和海岸几何形状,即鸟类从进入海洋受限的繁殖地旅行更远;(3)区域生境的可用性。利用这些模型,我们预测了未观察到的繁殖地鸟类的空间利用情况,从而绘制了每个物种在殖民地和区域水平上的海上分布。所有四种鸟类的英国繁殖种群的空间利用都集中在苏格兰的沿海水域,这突出了该地区需要采取强有力的保护措施。我们提出的技术适用于任何 CCPF。
