Optimizing control programmes by integrating data from fine-scale space use by introduced predators
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- 作者:Mariano R. Recio ; Richard F. Maloney ; Renaud Mathieu ; Emilio Virgós…
- 关键词:Introduced mammalian predators ; Fine ; scale ; Space use ; Control programmes ; Trapping ; Feral cats
- 刊名:Biological Invasions
- 出版年:2017
- 出版时间:January 2017
- 年:2017
- 卷:19
- 期:1
- 页码:209-221
- 全文大小:
- 刊物类别:Biomedical and Life Sciences
- 刊物主题:Ecology; Freshwater & Marine Ecology; Plant Sciences; Developmental Biology;
- 出版者:Springer International Publishing
- ISSN:1573-1464
- 卷排序:19
文摘
The control of introduced mammalian predators (IMP) through trapping campaigns relies on operator experience to deploy traps in sites with an expected high probability of IMP presence, where the maximum number of captures is anticipated. We tested the limitations of available information on fine-scale spatial use by feral cats modelled from remote data collection methods (small-resolution satellite imagery and GPS-telemetry) in an intensive control campaign conducted over 8 years in an ecologically sensitive area of New Zealand. We calculated dichotomous optimal/sub-optimal areas for cats and found that operators placed traps in or close to optimal areas. Over a continuous range of probabilities of cat use, trap sites were not principally placed in hot spots of cat use. Logistic regression revealed that the probability of cat use was significantly associated with the probability of capture. However, regressing catch-effort against the probability of cat use showed no association between sites of high probability of cat use and higher capture rates. The incorporation in the models of bait, trap type, and habitat suitability for rabbits, as variables of operator’s choice showed that rabbit suitability, and the combination of baits/traps were significant. Results suggest that trapping feral cats is a complex process that likely relies on variables of space, time, and individual cognition. However, control programmes could improve trap deployment by identifying sites of high probability of cat use to maximize capture probability, while traps in sub-optimal areas could be removed (cost reduction), reallocated to optimal areas, or used to “fence” core conservation areas.