2014
DOI: 10.1242/jeb.091827
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Eco-mechanics of lamellar autotomy in larval damselflies

Abstract: In larval damselflies, the self-amputation (autotomy) of the caudal lamellae permits escape from predatory larval dragonflies. Lamellar joint size declines among populations with increasing risk of dragonfly predation, but the breaking force required for autotomy and the biomechanical factors that influence breaking force are unknown. If autotomy enhances survival in larval damselflies, then predation by larval dragonflies should select for joints that require less force to break. We test this adaptive hypothe… Show more

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Cited by 9 publications
(5 citation statements)
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“…However, when the response was weak, larvae that (almost) never swam away had a higher probability of autotomy. Assuming a conscious component in lamellae autotomy in damselfly larvae (Gleason et al, 2014), this indicates that bold larvae compensated for their increased risk-taking behaviour in the presence of a predator with a higher probability of autotomy, consistent with a scenario of trait compensation (DeWitt et al, 1999). This is partly in accordance with the study of Kuo et al (2015) where bold lizards autotomised their tail more readily.…”
Section: Determinants Of Lamellae Autotomysupporting
confidence: 78%
See 1 more Smart Citation
“…However, when the response was weak, larvae that (almost) never swam away had a higher probability of autotomy. Assuming a conscious component in lamellae autotomy in damselfly larvae (Gleason et al, 2014), this indicates that bold larvae compensated for their increased risk-taking behaviour in the presence of a predator with a higher probability of autotomy, consistent with a scenario of trait compensation (DeWitt et al, 1999). This is partly in accordance with the study of Kuo et al (2015) where bold lizards autotomised their tail more readily.…”
Section: Determinants Of Lamellae Autotomysupporting
confidence: 78%
“…While autotomy involves a reflex process, the propensity for autotomy is also believed to be under conscious control in several taxa (e.g. Kuo et al, 2015), including damselfly larvae (Gleason, Fudge, & Robinson, 2014). The combination of swimming propensity and response to predator cues determined the probability of autotomy (similar to correlational selection).…”
Section: Determinants Of Lamellae Autotomymentioning
confidence: 99%
“…Thus, this hypothesis can be considered one of morphological and physiological constraints. Previous studies have investigated the amount of force it takes to break an autotomy fracture plane in both vertebrates [lizards (Fox, Perea‐Fox, & Franco, ; Fox, Conder, & Smith, )] and invertebrates [damselflies (Gleason, Fudge, & Robinson, ), starfish (Marrs et al, ), crabs (Prestholdt et al, )]. However, these studies often fail to identify the amount of time it takes an organism to generate the same amount of force and assume that the amount of force required to perform autotomy positively correlates with the latency to autotomize.…”
Section: Economic Theory Of Autotomy: Predicting When An Individual Smentioning
confidence: 99%
“…Selection may even act on diverging strategies within the same structure or trait. For example, studies in damselfly larvae indicate a link between lamellar joint allometry and environmental predation risk, where smaller, weaker joints are correlated with increasing predation risk (Gleason, Fudge & Robinson, 2014 ), presumably reflecting past and ongoing selection to facilitate autotomy or breakage by direct predation, whereas larger, stronger joints enhance swimming in low‐predation risk environments (Bose & Robinson, 2013 ). Injury‐related phenomena that have evolved repeatedly across animals, such as autotomy and changes in regenerative ability, provide particularly powerful frameworks for disentangling the many factors that shape the evolution of injury responses.…”
Section: Effects Of Injury Across Levels Of Biological Organizationmentioning
confidence: 99%