Abstract
Studies on the evolution of parental care have focused primarily on the costs and benefits of parental care and the life-history attributes that favour it. However, once care evolves, offspring in some taxa appear to become increasingly dependent on their parents. Although offspring dependency is a central theme in family life, the evolutionary dynamics leading to it are not fully understood. Beetles of the genus Nicrophorus are well known for their elaborate biparental care, including provisioning of their young. By manipulating the occurrence of pre- or post-hatching care, we show that the offspring of three burying beetle species, N. orbicollis, N. pustulatus, and N. vespilloides, show striking variation in their reliance on parental care. Our results demonstrate that this variation within one genus arises through a differential dependency of larvae on parental feeding, but not on pre-hatching care. In N. pustulatus, larvae appear to be nutritionally independent of their parents, but in N. orbicollis, larvae do not survive in the absence of parental feeding. We consider evolutionary scenarios by which nutritional dependency may have evolved, highlighting the role of brood size regulation via infanticide in this genus.
Highlights
IntroductionNeonates removed from parental care suffer from high mortality in at least two Salganea species, whereas no parental interaction with offspring is known in the closely related genus Panesthia[16], and the nymphs survive in the absence of parental attendance
Upon manipulating brood size of N. pustulatus, we found that post-hatching care no longer had an effect on larval mass (GLM with Gaussian errors: F1,44 = 1.24, P = 0.27); there was no difference in the mass of larvae receiving full parental care and those receiving pre-hatching care only
Our study revealed that offspring of the three burying beetle species, N. orbicollis, N. pustulatus, and N. vespilloides, differ greatly in their reliance on parental care
Summary
Neonates removed from parental care suffer from high mortality in at least two Salganea species, whereas no parental interaction with offspring is known in the closely related genus Panesthia[16], and the nymphs survive in the absence of parental attendance. This presents one striking example for having distinct patterns of offspring dependency between closely related insects. A recent study reveals some degree of intraspecific variation in dependency on parental care, and shows that offspring can adapt to changes in parental effort by becoming more independent when selected to evolve in the absence of post-hatching care[29].
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