AI Article Synopsis
- Different species of scarab beetles play important roles in ecosystems by aiding in organic matter cycling and pollination but can also be harmful pests.
- The study focused on breeding and rearing three scarab beetle species in controlled conditions to analyze their egg development, examining factors like incubation duration and egg weight.
- Key findings revealed a link between egg weight and incubation time, unique egg development traits, and the negative impact of handling on egg viability, which can inform better pest management and conservation strategies.
Article Abstract
Different species of scarab beetles (Scarabaeidae, Dynastinae) perform key functional roles in both natural and agricultural systems, such as the cycling of organic matter and pollination, while also being known as destructive pests both as immatures and adults. Therefore, the identification of biological parameters is crucial for defining strategies for their conservation and efficient pest management. In a forest fragment within the Brazilian Atlantic Forest biodiversity hotspot, we field-captured adult individuals of , , and then reared and bred them under controlled temperature and humidity conditions. On a daily basis, we individually weighted eggs of all three species, from oviposition until hatching, and monitored egg development parameters (i.e., incubation duration, viability, and egg weight increase). Our findings provide novel empirical evidence showing (i) a positive correlation between egg weight and incubation duration, (ii) idiosyncratic characteristics on egg development, and (iii) a negative (involuntary) effect of manipulation on egg development and viability. Thus, the successful breeding and rearing of spp. is correlated with egg integrity and the targeted species. Our analyses present a quantitative understanding of the egg phase and can assist in refining strategies for ovicidal activity and pest management of spp. in agriculture systems. Moreover, they can provide a basis for new studies related to captivity breeding, pollinator management, and developmental biology for biodiversity conservation.
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| http://dx.doi.org/10.1017/S0007485322000384 | DOI Listing |
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