营养装饰:城市环境中的猫与鼠的互动
Trophic garnishes: cat-rat interactions in an urban environment.
作者信息
Glass Gregory E, Gardner-Santana Lynne C, Holt Robert D, Chen Jessica, Shields Timothy M, Roy Manojit, Schachterle Stephen, Klein Sabra L
机构信息
The W Harry Feinstone Department of Molecular Microbiology & Immunology, The Johns Hopkins Bloomberg School of Public Health, Baltimore, MD, USA.
出版信息
PLoS One. 2009 Jun 3;4(6):e5794. doi: 10.1371/journal.pone.0005794.
BACKGROUND
Community interactions can produce complex dynamics with counterintuitive responses. Synanthropic community members are of increasing practical interest for their effects on biodiversity and public health. Most studies incorporating introduced species have been performed on islands where they may pose a risk to the native fauna. Few have examined their interactions in urban environments where they represent the majority of species. We characterized house cat (Felis catus) predation on wild Norway rats (Rattus norvegicus), and its population effects in an urban area as a model system. Three aspects of predation likely to influence population dynamics were examined; the stratum of the prey population killed by predators, the intensity of the predation, and the size of the predator population.
METHODOLOGY/PRINCIPAL FINDINGS: Predation pressure was estimated from the sizes of the rat and cat populations, and the characteristics of rats killed in 20 alleys. Short and long term responses of rat population to perturbations were examined by removal trapping. Perturbations removed an average of 56% of the rats/alley but had no negative long-term impact on the size of the rat population (49.6+/-12.5 rats/alley and 123.8+/-42.2 rats/alley over two years). The sizes of the cat population during two years (3.5 animals/alley and 2.7 animals/alley) also were unaffected by rat population perturbations. Predation by cats occurred in 9/20 alleys. Predated rats were predominantly juveniles and significantly smaller (144.6 g+/-17.8 g) than the trapped rats (385.0 g+/-135.6 g). Cats rarely preyed on the larger, older portion of the rat population.
CONCLUSIONS/SIGNIFICANCE: The rat population appears resilient to perturbation from even substantial population reduction using targeted removal. In this area there is a relatively low population density of cats and they only occasionally prey on the rat population. This occasional predation primarily removes the juvenile proportion of the rat population. The top predator in this urban ecosystem appears to have little impact on the size of the prey population, and similarly, reduction in rat populations doesn't impact the size of the cat population. However, the selected targeting of small rats may locally influence the size structure of the population which may have consequences for patterns of pathogen transmission.
背景
群落相互作用可产生具有反直觉反应的复杂动态。伴人动物群落成员因其对生物多样性和公共卫生的影响而受到越来越多的实际关注。大多数纳入外来物种的研究是在岛屿上进行的,在那里它们可能对本地动物构成威胁。很少有研究考察它们在城市环境中的相互作用,而在城市环境中它们占物种的大多数。我们以城市地区为模型系统,描述了家猫(Felis catus)对野生褐家鼠(Rattus norvegicus)的捕食及其种群效应。研究了捕食的三个可能影响种群动态的方面;被捕食者杀死的猎物种群层次、捕食强度和捕食者种群规模。
方法/主要发现:根据大鼠和猫的种群规模以及在20条小巷中被杀死的大鼠的特征来估计捕食压力。通过清除诱捕来研究大鼠种群对干扰的短期和长期反应。干扰平均清除了每条小巷56%的大鼠,但对大鼠种群规模没有长期负面影响(两年内分别为49.6±12.5只大鼠/小巷和123.8±42.2只大鼠/小巷)。两年内猫的种群规模(3.5只动物/小巷和2.7只动物/小巷)也不受大鼠种群干扰的影响。9/20条小巷中有猫捕食行为。被捕食的大鼠主要是幼鼠,且明显比被诱捕的大鼠小(144.6克±17.8克)(被诱捕的大鼠为385.0克±135.6克)。猫很少捕食大鼠种群中体型较大、年龄较大的部分。
结论/意义:即使通过有针对性的清除使大鼠种群大幅减少,大鼠种群似乎仍能抵御这种干扰。在该地区,猫密度相对较低,它们只是偶尔捕食大鼠种群。这种偶尔的捕食主要清除了大鼠种群中的幼年部分。这个城市生态系统中的顶级捕食者似乎对猎物种群规模影响很小,同样,大鼠种群的减少也不会影响猫种群规模。然而,对小老鼠的选择性捕杀可能会在局部影响种群的规模结构,这可能会对病原体传播模式产生影响。
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