Hypergravity Impact on Fertility of Apis mellifera carnica Queens – Case Study

IF 1.3 4区 工程技术 Q2 ENGINEERING, AEROSPACE
Dagmara Stasiowska, Michał Kolasa
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Abstract

The launch is considered the most stressful rocket flight stage due to the hypergravity occurrences. The possibility of using honey bees (Apis mellifera) as the extraterrestrial pollinator depends on their ability to reproduce correctly after experiencing hypergravity. The described study aims to verify the impact of a launching rocket’s acceleration on honey bee queen’s egg-laying behavior. Four artificially inseminated A. mellifera carnica queens were placed in the Human Training Centrifuge and given to the acceleration pattern of the launching Soyuz rocket. Next, the data on the number of food stores, eggs, larvae, and worker and drone pupae were collected from the test and control hives using the modified Liebefeld method. The pilot study results imply that accelerated queen’s egg-laying behavior may change twofold: limiting or maximizing the number of laid eggs, with the control queen egg-laying rate remaining stable for all samples. The number of drone pupae is greater for the test sample colonies, with its earlier appearance in the hive. No impact on overwintering success was observed. Authors indicate limitations of the results and a need to continue the study to verify the occurrence of anomalies potentially related to the examined factor.

Abstract Image

超重力对蜂后繁殖力的影响 - 案例研究
由于会出现超重力现象,发射被认为是压力最大的火箭飞行阶段。利用蜜蜂(Apis mellifera)作为地外授粉者的可能性取决于蜜蜂在经历超重力后正确繁殖的能力。本研究旨在验证发射火箭的加速度对蜂王产卵行为的影响。研究人员将四只人工授精的蜜蜂蜂王置于人类训练离心机中,并让其体验联盟号火箭的发射加速模式。然后,使用改良的利伯菲尔德方法从试验蜂箱和对照蜂箱中收集了有关食物储存量、卵、幼虫、工蜂和无人蜂蛹数量的数据。试验研究结果表明,加速蜂王的产卵行为可能会发生两方面的变化:限制或最大化产卵数量,而对照蜂王的产卵率在所有样本中都保持稳定。试验样本蜂群的无人蛹数量较多,在蜂巢中出现的时间较早。未观察到对越冬成功率的影响。作者指出了研究结果的局限性,并指出有必要继续进行研究,以验证可能与所研究因素有关的异常现象的发生。
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来源期刊
Microgravity Science and Technology
Microgravity Science and Technology 工程技术-工程:宇航
CiteScore
3.50
自引率
44.40%
发文量
96
期刊介绍: Microgravity Science and Technology – An International Journal for Microgravity and Space Exploration Related Research is a is a peer-reviewed scientific journal concerned with all topics, experimental as well as theoretical, related to research carried out under conditions of altered gravity. Microgravity Science and Technology publishes papers dealing with studies performed on and prepared for platforms that provide real microgravity conditions (such as drop towers, parabolic flights, sounding rockets, reentry capsules and orbiting platforms), and on ground-based facilities aiming to simulate microgravity conditions on earth (such as levitrons, clinostats, random positioning machines, bed rest facilities, and micro-scale or neutral buoyancy facilities) or providing artificial gravity conditions (such as centrifuges). Data from preparatory tests, hardware and instrumentation developments, lessons learnt as well as theoretical gravity-related considerations are welcome. Included science disciplines with gravity-related topics are: − materials science − fluid mechanics − process engineering − physics − chemistry − heat and mass transfer − gravitational biology − radiation biology − exobiology and astrobiology − human physiology
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