Title: | Evolutionary Shift of Insect Diapause Strategy in a Warming Climate: An Intra-Population Evidence from Asian Corn Borer |
Author(s): | Wang L; Liu K; Zhao X; Zhang T; Yuan M; He K; |
Address: | "Qiqihar Branch of Heilongjiang Academy of Agricultural Sciences, Qiqihar 161000, China. State Key Laboratory for the Biology of the Plant Diseases and Insect Pests, Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing 100193, China" |
ISSN/ISBN: | 2079-7737 (Print) 2079-7737 (Electronic) 2079-7737 (Linking) |
Abstract: | "Herbivorous insects having variable numbers of generations annually depending on climate and day length conditions are increasingly breeding additional generations driven by elevated temperature under the scenario of global warming, which will increase insect abundance and result in more frequent damage events. Theoretically, this relies on two premises, i.e., either an evolutionary shift to facultative diapause for an insect behaving an obligatory diapause or developmental plasticity to alter voltinism productively for an insect with facultative diapause before shortening photoperiods inducing diapause. Inter-population evidence supporting the premise (theory) comes primarily from a model system with voltinism linked to thermal gradients across latitude. We examined the intra-population evidence in the field (47 degrees 24' N, 123 degrees 68' E) with Ostrinia furnacalis, one of the most destructive pests, on corn in Asia and Pacific islands. The species was univoltine in high latitudinal areas (=46 degrees N). Divergence of the diapause feature (obligatory and facultative) was observed within the field populations from 2016 to 2021. Warmer climates would provoke more facultative diapause individuals to initiate a second generation, which will significantly drive the population to evolve toward facultative diapause (multi-voltinism). Both divergent diapause and temperature must be considered for accurate prediction of phenology and population dynamics in ACB" |
Keywords: | Ostrinia furnacalis climate warming diapause model voltinism; |
Notes: | "PubMed-not-MEDLINEWang, Lianxia Liu, Kaiqiang Zhao, Xiumei Zhang, Tiantao Yuan, Ming He, Kanglai eng Switzerland 2023/06/28 Biology (Basel). 2023 May 24; 12(6):762. doi: 10.3390/biology12060762" |