大黄蜂雌蜂生殖状况对CO2麻醉反应的影响

IF 1.4 4区 农林科学 Q2 ENTOMOLOGY Journal of Apicultural Research Pub Date : 2023-08-15 DOI:10.1080/00218839.2023.2242125
Rya Seltzer, A. Domer, L. Bodner, S. Bouchebti, Maya Malka, E. Amsalem, E. Levin
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引用次数: 0

摘要

摘要许多生物体在其生命周期中经历着极端的生理和行为变化,这些变化决定了它们对不同刺激的反应。大黄蜂(Bombus sp.)表现出一个年度生命周期,在这个周期中,原始雌蜂出现、分散、交配,并经历几个月的冬季滞育,然后在春季建立新的群落。二氧化碳麻醉诱导了从交配到繁殖的直接转变,因此滞育可以绕过。对二氧化碳麻醉反应的机制尚不清楚。在这里,我们使用处于不同生殖状态(处女、交配和滞育后)的土鳖来研究二氧化碳麻醉对卵巢发育、体重、蛋白质摄取和代谢率的影响。我们发现,交配抑制了CO2麻醉对女性的影响,其中处女女性对卵巢激活和蛋白质周转的影响最强。我们发现交配在滞育期之前抑制了二氧化碳麻醉的影响,这表明这种影响是二氧化碳麻醉的上游。
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The effect of bumble bee gynes’ reproductive status on the response to CO2 narcosis
Abstract Many organisms undergo extreme physiological and behavioral changes that dictate their responses to different stimuli during their life cycle. Bumble bees (Bombus sp.) display an annual life cycle, in which the virgin gynes emerge, disperse, mate, and undergo several months of winter diapause before establishing new colonies in the spring. CO2 narcosis induces a direct transition from mating to reproduction, thus diapause can be bypassed. The mechanism underlying the response to CO2 narcosis remains unclear. Here, we used Bombus terrestris gynes in different reproductive statuses (virgin, mated, and post-diapause) to examine the effect of CO2 narcosis on ovarian development, body mass, protein uptake, and metabolic rate. We found that the impact of CO2 narcosis on gynes was inhibited by mating, with virgin gynes showing the strongest effect of CO2 narcosis on ovary activation and protein turnover. We show that mating inhibits the effect of CO2 narcosis prior to the diapause period, suggesting that this effect is upstream to that of CO2 narcosis.
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来源期刊
CiteScore
4.80
自引率
10.50%
发文量
111
审稿时长
6-12 weeks
期刊介绍: The Journal of Apicultural Research is a refereed scientific journal dedicated to bringing the best research on bees. The Journal of Apicultural Research publishes original research articles, original theoretical papers, notes, comments and authoritative reviews on scientific aspects of the biology, ecology, natural history, conservation and culture of all types of bee (superfamily Apoidea).
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