Differences in growth within and across the reproductive forms of northern crayfish (Faxonius virilis)

Complex life histories are frequently associated with biological trade-offs, as the use of one trait can decrease the performance of a second trait due to the need to balance competing demands to maximize fitness. Here, we examine growth patterns in invasive adult male northern crayfish (Faxonius virilis) that are indicative of a potential trade-off between energy allocation for body size versus chelae size growth. Northern crayfish undergo cyclic dimorphism, a process characterized by seasonal morphological changes associated with reproductive status. We measured carapace length and chelae length before and after molting and compared these growth increments between the four morphological transitions of the northern crayfish. Consistent with our predictions, reproductive crayfish molting to the non-reproductive form and non-reproductive crayfish molting within the non-reproductive form experienced a larger carapace length growth increment. Reproductive crayfish molting within the reproductive form and non-reproductive crayfish molting to the reproductive form, on the other hand, experienced a larger growth increment in chelae length. The results of this study support that cyclic dimorphism evolved as a strategy for optimizing energy allocation for body and chelae size growth during discrete periods of reproduction in crayfish with complex life histories.

Automated summary

Complex life histories often involve trade-offs between different traits. This study examines the growth patterns of invasive male northern crayfish and finds evidence of a trade-off between body and chelae size growth. The crayfish undergo cyclic dimorphism, with different growth increments observed during different morphological transitions. The results support the idea that cyclic dimorphism is an adaptive strategy for optimizing energy allocation during reproduction in crayfish with complex life histories.