Dormancy and the influence of photoperiod and temperature on sexual maturity in Nicrophorus nepalensis (Coleoptera: Silphidae)

Abstract Carrion beetles (Nicrophorus spp.) use small vertebrate carcasses for food and reproduction. Their ecology and behaviors are highly affected by the availability of carcasses and the surrounding environmental conditions. Our results revealed that in subtropical Fushan, northern Taiwan, N. nepalensis was mainly active in spring (February to May), and could also be found in autumn (October and November); but there was no capture record in summer (June to September) and winter (December and January). A laboratory temperature tolerance study indicated that N. nepalensis adults become inactive at temperatures above 26°C, and had the highest mortality when the temperature was raised from 27°C to 28°C. Furthermore, N. nepalensis became sexually mature at 20°C, depending on the photoperiod: the longer the day, the lower the percentage of sexually mature 2‐week‐old females after emergence. In another experiment, N. nepalensis virgins were paired under three possible conditions at Fushan. At 15°C and 20°C, if carcasses were presented to the pairs within 3 days after emergence, all laid eggs in the second week after emergence. If carcasses were presented 1 week after emergence, most began to reproduce at 20°C with 12.5 h of daylight. However, at 15°C with 11 h of daylight, the carrion beetles hibernated first, and reproduced in the ninth week after emergence. At 25°C with 14 h of daylight, carrion beetles did not bury the mouse carcasses, the females did not lay eggs, and the adult lifespan was only one‐third of that at 20°C. This study revealed that both photoperiod and temperature influence the time needed to reach the sexual maturity of N. nepalensis; and also implied that the narrow temperature tolerance range and dormancy behavior of carrion beetles are highly regulated by those environmental factors.     

Alternative tactics and individual reproductive success in natural associations of the burying beetle, Nicrophorus vespilloides

Alternative reproductive tactics can be maintained through differentevolutionary avenues. They can be genetically or stochasticallydetermined, in which case they must yield equal fitness, ortheir use can be conditional, in which case the fitness payoffof alternatives may differ. We attempted to assess the reproductivesuccess of alternative reproductive tactics employed by wildmale and female burying beetles in natural associations on carcassesplaced in the field. A beetle's reproductive tactic was definedby its potential involvement in care of larvae, and parentagewas assessed using oligolocus DNA fingerprinting of offspringand potential parents. Both in males and in females, alternativetactics yielded significantly different reproductive benefits:subordinate females (brood parasites) and males (satellite males)had considerably lower reproductive success than dominant oruncontested individuals. Joint breeding was too infrequent forstatistical inferences, generating intermediate offspring numbers.About 15% of offspring were sired by males not present on thecarcass, suggesting that mating away from reproductive resourcescan produce reproductive benefits to males. Our results, inconcert with the observation that beetles using one tactic canbe manipulated into employing the alternative, support the notionthat Nicrophorus vespilloides uses alternatives conditionally,opportunistically employing lower-benefit tactics when moreprofitable tactics are not available, or as additional "on-the-side"tactics to bolster reproductive success.     

Adaptive consequences and heritable basis of asynchronous hatching in Nicrophorus vespilloides

Asynchronous hatching is an important component of animal reproductive strategies, yet it has been studied almost exclusively in altricial birds. In this study, we provide evidence on the adaptive consequences and the heritable basis of asynchronous hatching in an insect, the burying beetle Nicrophorus vespilloides . Parents of this species breed on carcasses of small vertebrates and provide food in the form of predigested carrion for their offspring. We found that the size of the carcass used for breeding had a significant effect on hatching skew towards the earlier part of the hatching period, suggesting that female parents adjust hatching skew facultatively to the amount of resources available for breeding. Using a full sibling breeding design, we also found that parent family had a significant effect on both hatching skew and hatching spread, suggesting that there is a heritable basis to asynchronous hatching. Finally, we found that hatching spread affected offspring survivorship, providing evidence that asynchronous hatching patterns have adaptive consequences in N. vespilloides . Our study provides valuable new insights into the evolution and ecological significance of asynchronous hatching by providing evidence on the adaptive consequences and the heritable basis of asynchronous hatching in a non-avian species.