Filial Cannibalism Leads to Chronic Nest Failure of Eastern Hellbender Salamanders ( Cryptobranchus alleganiensis )

Filial Cannibalism Leads to Chronic Nest Failure of Eastern Hellbender Salamanders ( Cryptobranchus alleganiensis )

AbstractIn species that provide parental care, parents will sometimes cannibalize their own young (i.e., filial cannibalism). Here, we quantified the frequency of whole-clutch filial cannibalism in a species of giant salamander (eastern hellbender; ) that has experienced precipitous population decli...

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Bibliographic Details
Published in:The American naturalist Vol. 202; no. 1; p. 92
Main Authors: Hopkins, William A, Case, Brian F, Groffen, Jordy, Brooks, George C, Bodinof Jachowski, Catherine M, Button, Sky T, Hallagan, John J, O'Brien, Rebecca S M, Kindsvater, Holly K
Format: Journal Article
Language:English
Published: United States 01-07-2023
Subjects:
Animals
Biological Evolution
Cannibalism
Forests
Male
Reproduction
Urodela
Cryptobranchidae
parental care
riparian forest
amphibian conservation
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Summary:AbstractIn species that provide parental care, parents will sometimes cannibalize their own young (i.e., filial cannibalism). Here, we quantified the frequency of whole-clutch filial cannibalism in a species of giant salamander (eastern hellbender; ) that has experienced precipitous population declines with unknown causes. We used underwater artificial nesting shelters deployed across a gradient of upstream forest cover to assess the fates of 182 nests at 10 sites over 8 years. We found strong evidence that nest failure rates increased at sites with low riparian forest cover in the upstream catchment. At several sites, reproductive failure was 100%, mainly due to cannibalism by the caring male. The high incidence of filial cannibalism at degraded sites was not explained by evolutionary hypotheses for filial cannibalism based on poor adult body condition or low reproductive value of small clutches. Instead, larger clutches at degraded sites were most vulnerable to cannibalism. We hypothesize that high frequencies of filial cannibalism of large clutches in areas with low forest cover could be related to changes in water chemistry or siltation that influence parental physiology or that reduce the viability of eggs. Importantly, our results identify chronic nest failure as a possible mechanism contributing to population declines and observed geriatric age structure in this imperiled species.
ISSN:1537-5323
DOI:10.1086/724819