期刊
JOURNAL OF PEST SCIENCE
卷 95, 期 3, 页码 1233-1244出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s10340-021-01461-5
关键词
Cold tolerance; Cryoprotectant; Energy reserve; Hybridisation; Rapid evolution
类别
资金
- National Natural Science Foundation of China [32172494, 31972340]
In this study, we investigated the genetic basis underlying the rapid cold tolerance adaptation in Ophraella communa, a biological control agent of the invasive plant Ambrosia artemisiifolia. We found that high-latitude insects expressed potential genes related to cryoprotectants such as trehalose and proline, which could facilitate their adaptation to cold environments.
Low winter temperatures severely stress newly arriving insect species. Adaptive evolutionary changes in cold tolerance can facilitate their establishment in new environments. Ambrosia artemisiifolia, a noxious invasive plant, occurs throughout China. Ophraella communa, a biological control agent of A. artemisiifolia, mainly occurs in southern China. However, in 2012, it established populations in Beijing (39.98 degrees N, 115.97 degrees E) following introduction from Laibin (23.62 degrees N, 109.37 degrees E), implying cold adaptation. The mechanisms underlying its rapid evolution of cold tolerance remain unknown. We investigated the levels of cryoprotectants and energy reserves in adult O. communa from two latitudes. In high-latitude insects, we found high trehalose, proline, glycerol, total sugar, and lipid levels; five potential genes (Tret1a, Tret1b, Tret1-2, P5CS, and GST), responsible for regulating cold tolerance and involved in trehalose transport, proline biosynthesis, and glutathione S-transferase activation, were highly expressed. These hybridisation changes could facilitate cold temperature adaptation. We demonstrate the genetic basis underlying rapid adaptation of cold tolerance in O. communa, explaining its extension to higher latitudes. Thus, specialist herbivores can follow host plants by adapting to new temperature environments via rapid genetic evolution.
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