Optimal escape theory predicts escape behaviors beyond flight initiation distance:risk assessment and escape by striped plateau lizards Sceloporus virgatus  被引量:2

Optimal escape theory predicts escape behaviors beyond flight initiation distance:risk assessment and escape by striped plateau lizards Sceloporus virgatus

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作  者:William E. COOPER Jr. 

机构地区:[1]Department of Biology,Indiana University Purdue University Fort Wayne

出  处:《Current Zoology》2009年第2期123-131,共9页动物学报(英文版)

基  金:supported by a Pippert Science Research Scholar award

摘  要:Escape theory predicts that flight initiation distance (FID = distance between predator and prey when escape begins) is longer when risk is greater and shorter when escape is more costly. A few tests suggest that escape theory applies to distance fled. Escape models have not addressed stochastic variables, such as probability of fleeing and of entering refuge, but their economic logic might be applicable. Experiments on several risk factors in the lizard Sceloporus virgatus confirmed all predictions for the above escape variables. FID was greater when approach was faster and more direct, for lizards on ground than on trees, for lizards rarely exposed to humans, for the second of two approaches, and when the predator turned toward lizards rather than away. Lizards fled further during rapid and second consecutive approaches. They were more likely to flee when approached directly, when a predator turned toward them, and during second approaches. They were more likely to enter refuge when approached rapidly. A novel finding is that perch height in trees was unrelated to FID because lizards escaped by moving out of sight, then moving up or down unpredictably. These findings add to a growing body of evidence supporting predictions of escape theory for FID and distance fled. They show that two probabilistic aspects of escape are predictable based on relative predation risk levels. Because individuals differ in boldness, the assessed optimal FID and threshold risks for fleeing and entering refuge are exceeded for an increasing proportion of individuals as risk increases

关 键 词:Approach distance Distance fled Flight initiation distance Predation risk Refuge entry SQUAMATA 

分 类 号:Q958[生物学—动物学]

 

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