Behavioural differences in predator aware and predator naïve Wellington tree wētā, Hemideina crassidens.

IF 2.2 Q1 ENTOMOLOGY
Meg Kelly , Priscilla M Wehi , Sheri L Johnson
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引用次数: 1

Abstract

Insects have evolved a wide range of behavioural traits to avoid predation, with anti-predator behaviours emerging as important adaptive responses to the specific strategies employed by predators. These responses may become ineffective, however, when a species is introduced to a novel predator type. When individuals cannot recognise an introduced predator for instance, they may respond in ways that mean they fail to avoid, escape, or neutralize a predator encounter. New Zealand's endemic insect fauna evolved in the absence of terrestrial mammalian predators for millions of years, resulting in the evolution of unique fauna like the large, flightless Orthopteran, the wētā. Here we investigate how experience with introduced mammalian predators might influence anti-predator behaviours by comparing behaviours in a group of Wellington tree wētā (Hemideina crassidens) living in an ecosanctuary, Zealandia, protected from non-native mammalian predators, and a group living in adjacent sites without mammalian predator control. We used behavioural phenotyping assays with both groups to examine rates of activity and defensive aggression shortly after capture, and again after a period of acclimation. We found that wētā living in protected areas were more active shortly after capture than wētā in non-protected habitats where mammalian predators were present. Male wētā living in non-protected areas tended to be less aggressive than any other group. These results suggest that lifetime experience with differing predator arrays may influence the expression of antipredator behaviour in tree wētā. Disentangling innate and experiential drivers of these behavioural responses further will have important implications for insect populations in rapidly changing environments.

捕食者意识和捕食者的行为差异naïve威灵顿树wētā,海棠。
昆虫进化出了广泛的行为特征来避免捕食,反捕食者行为成为对捕食者使用的特定策略的重要适应性反应。然而,当一个物种被引入一种新型捕食者时,这些反应可能会变得无效。例如,当个体无法识别引入的捕食者时,它们的反应可能意味着它们无法避免、逃脱或抵消捕食者的遭遇。数百万年来,新西兰特有的昆虫区系在没有陆生哺乳动物捕食者的情况下进化而来,导致了独特的动物群的进化,如大型、不会飞的直翅目昆虫wātā。在这里,我们通过比较生活在新西兰生态保护区的一组威灵顿树wātā(Hemidina crassidens)和生活在没有哺乳动物捕食者控制的邻近地区的一组行为,来研究引入哺乳动物捕食者的经验如何影响反捕食者行为。我们对两组进行了行为表型分析,以检查捕获后不久以及一段时间的适应后的活动率和防御攻击性。我们发现,生活在保护区的wātā在被捕获后不久比生活在有哺乳动物捕食者的非保护栖息地的wītā更活跃。生活在非保护区的男性wātā往往比任何其他群体都不那么好斗。这些结果表明,不同捕食者阵列的一生经历可能会影响树wātā中反捕食者行为的表达。进一步解开这些行为反应的内在和经验驱动因素,将对快速变化环境中的昆虫种群产生重要影响。
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来源期刊
Current Research in Insect Science
Current Research in Insect Science Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
3.20
自引率
0.00%
发文量
22
审稿时长
36 days
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