接触犬科动物和猫科动物的尿液会诱发实验大鼠的防御行为，但接触食草动物的尿液则不会。

Exposure to urine of canids and felids, but not of herbivores, induces defensive behavior in laboratory rats.

作者信息

Fendt Markus

机构信息

Tierphysiologie, Zoologisches Institut, Fakultät für Biologie, Universität Tübingen, Auf der Morgenstelle 28, 72076, Tübingen, Germany.

出版信息

J Chem Ecol. 2006 Dec;32(12):2617-27. doi: 10.1007/s10886-006-9186-9.

DOI:10.1007/s10886-006-9186-9

PMID:17131189

Abstract

Predator odors induce defensive behavior in many prey species. For various reasons, studies carried out up to now have been unable to establish whether predator odor recognition is innate or not. Mostly, only particular odors or wild-living (i.e., experienced) test animals have been used in these studies, restricting the conclusiveness of the observations. In the present study, the behavioral effects of exposure to different predator odors on predator odor-naive laboratory male rats were compared with the effects of different nonpredator odors and of a no-odor control stimulus. Results show that exposure to urine of canids and felids, but not of herbivores or conspecifics, induce defensive behaviors. Taken together, the study provides support for the hypothesis that there is an innate recognition of predator odors in laboratory rats.

摘要

捕食者的气味会在许多猎物物种中引发防御行为。由于各种原因，迄今为止进行的研究未能确定捕食者气味识别是否是天生的。在这些研究中，大多只使用了特定的气味或野生（即有经验的）实验动物，这限制了观察结果的结论性。在本研究中，将暴露于不同捕食者气味对从未接触过捕食者气味的实验室雄性大鼠的行为影响，与不同非捕食者气味和无气味对照刺激的影响进行了比较。结果表明，暴露于犬科动物和猫科动物的尿液中会引发防御行为，而暴露于食草动物或同种动物的尿液中则不会。综上所述，该研究为实验室大鼠对捕食者气味存在天生识别这一假设提供了支持。

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接触犬科动物和猫科动物的尿液会诱发实验大鼠的防御行为，但接触食草动物的尿液则不会。

Exposure to urine of canids and felids, but not of herbivores, induces defensive behavior in laboratory rats.

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