农业集约化梯度下农田猛禽觅食栖息地的环境依赖性选择

IF 6 1区 农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY Agriculture, Ecosystems & Environment Pub Date : 2022-03-01 DOI:10.1016/j.agee.2021.107782
Giacomo Assandri , Jacopo G. Cecere , Maurizio Sarà , Carlo Catoni , Federico De Pascalis , Jennifer Morinay , Alessandro Berlusconi , Sara Cioccarelli , Alessandro Mercogliano , Aliona Pazhera , Anna Terras , Simona Imperio , Michelangelo Morganti , Diego Rubolini
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引用次数: 11

摘要

农业生态系统中农业集约化的梯度可能决定了依赖这些人造栖息地的捕食者资源可得性的不平衡。反过来,这些资源可用性的变化可能影响捕食者的栖息地选择模式,导致环境依赖的栖息地选择。利用分布在农业集约化梯度上的10个种群的76只gps追踪的育雏个体,研究了景观组成和配置梯度对小红隼(Falco naumanni)栖息地选择的影响。考虑了种群和个体两个生态聚集水平和栖息地可利用性的两个空间尺度(种群环境和个体栖息地范围)进行了分析。总体而言,在两个空间尺度上,非灌溉农田和半自然草地都是最受青睐的栖息地。在群体尺度上,小红隼对草地的偏好高于对非灌溉作物的偏好,而在个体范围内则相反。相反,在两个空间尺度上,耕地都被积极选择,且强度相当。在群落规模上对草地的强烈选择突出了这种半自然栖息地对该物种的重要性。在本土尺度上,对草地的偏好较弱可能与繁殖季节后期植被的物候和结构有关。因此,选择模式的空间尺度差异可能源于整个繁殖季节资源可用性的时空变化。两种最常用生境的选择强度在个体间差异显著。在群落空间尺度上,个体对草地的选择强度随着周围景观组成多样性的降低而增加,表明农业生态系统异质性至少在一定程度上缓冲了半自然生境的丧失。在家园范围内,较高的耕地可用性降低了个体对该栖息地的偏好强度,表明可能与密度依赖过程作用于觅食运动有关的负功能响应。我们的研究提供了证据,表明农田物种表现出环境依赖的栖息地选择模式,以响应农业集约化形成的景观梯度以及内在特征和栖息地可用性。我们的研究结果强调了在栖息地选择研究中解决个体和种群水平变异以及考虑多个空间尺度的重要性,从而为物种的管理和保护提供信息。
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Context-dependent foraging habitat selection in a farmland raptor along an agricultural intensification gradient

Gradients of agricultural intensification in agroecosystems may determine uneven resource availability for predators relying on these man-made habitats. In turn, these variations in resource availability may affect predators’ habitat selection patterns, resulting in context-dependent habitat selection. We assessed the effects of gradients of landscape composition and configuration on habitat selection of a colonial farmland bird of prey, the lesser kestrel (Falco naumanni), relying on 76 GPS-tracked nestling-rearing individuals from 10 populations scattered along an agricultural intensification gradient. Analyses were conducted considering two ecological levels of aggregation (the population and the individual) and two spatial scales of habitat availability (the colony surroundings and the individual home-range). Overall, non-irrigated croplands and semi-natural grasslands were the most preferred habitats at both spatial scales. At the colony scale, lesser kestrels showed a preference for grassland compared to non-irrigated crops, whereas the opposite was the case within individual home-ranges. Conversely, croplands were positively selected with comparable intensity at both spatial scales. Strong selection for grassland at the colony scale highlights the importance of this semi-natural habitat for the species. The weaker preference for grassland at the home-range scale is likely due to the phenology and structure of the vegetation in the late breeding season. Spatial scale differences in selection patterns may thus derive from spatio-temporal changes in resource availability through the breeding season. The strength of selection for the two most used habitats varied markedly among individuals. At the spatial scale of the colony, individual selection strength for grasslands increased with decreasing compositional diversity of the surrounding landscape, suggesting that agroecosystem heterogeneity may at least partly buffer the loss of semi-natural habitats. At the within home-range scale, higher cropland availability reduced the strength of individual preference for this habitat, suggesting a negative functional response possibly related to density-dependent processes acting on foraging movements. Our study provides evidence that farmland species show context-dependent habitat selection patterns in response to landscape gradients shaped by agricultural intensification as well as by intrinsic characteristics and habitat availability. Our findings highlight the importance of addressing both individual and population-level variability and considering multiple spatial scales in studies of habitat selection to inform species’ management and conservation.

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来源期刊
Agriculture, Ecosystems & Environment
Agriculture, Ecosystems & Environment 环境科学-环境科学
CiteScore
11.70
自引率
9.10%
发文量
392
审稿时长
26 days
期刊介绍: Agriculture, Ecosystems and Environment publishes scientific articles dealing with the interface between agroecosystems and the natural environment, specifically how agriculture influences the environment and how changes in that environment impact agroecosystems. Preference is given to papers from experimental and observational research at the field, system or landscape level, from studies that enhance our understanding of processes using data-based biophysical modelling, and papers that bridge scientific disciplines and integrate knowledge. All papers should be placed in an international or wide comparative context.
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