Climate Change Biology Research Group, State Key Laboratory for Biology of Plant Diseases and Insect Pests, Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing 100193, China.
J Insect Physiol. 2012 Nov;58(11):1456-62. doi: 10.1016/j.jinsphys.2012.08.012. Epub 2012 Aug 29.
Dropping off is considered an anti-predator behavior for aphids since previous studies have shown that it reduces the risk of predation. However, little attention is paid to dropping behavior triggered by other external stresses such as daytime high temperatures which are predicted to become more frequent in the context of climate warming. Here we defined a new parameter, drop-off temperature (DOT), to describe the critical temperature at which an aphid drops off its host plant when the ambient temperature increases gradually and slowly. Detailed studies were conducted to reveal effects of short-term acclimation (temperature, exposure time at high-temperature and starvation) on DOT of an aphid species, Sitobion avenae. Our objectives were to test if the aphids dropped off host plant to avoid high temperatures and how short-term acclimation affected the aphids' dropping behavior in response to heat stress. We suggest that dropping is a behavioral thermoregulation to avoid heat stress, since aphids started to move before they dropped off and the dropped aphids were still able to control their muscles prior to knockdown. The adults starved for 12 h had higher DOT values than those that were unstarved or starved for 6 h, and there was a trade-off between behavioral thermoregulation and energy acquisition. Higher temperatures and longer exposure times at high temperatures significantly lowered the aphids' DOT, suggested that the aphids avoid heat stress by dropping when exposed to high temperatures. Climate warming may therefore increase the aphids' dropping probabilities and consequently affect the aphids' individual development and population growth.
脱落被认为是蚜虫的一种抗捕食行为,因为先前的研究表明,它降低了被捕食的风险。然而,对于其他外部压力(如白天高温)触发的脱落行为,人们关注较少,预计在气候变暖的背景下,这种行为会变得更加频繁。在这里,我们定义了一个新的参数,即脱落温度(DOT),来描述蚜虫在环境温度逐渐缓慢升高时从宿主植物上脱落的临界温度。我们详细研究了短期驯化(温度、高温暴露时间和饥饿)对蚜虫物种燕麦蚜的 DOT 的影响。我们的目的是测试蚜虫是否为了避免高温而从宿主植物上脱落,以及短期驯化如何影响蚜虫对热应激的脱落行为。我们认为,脱落是一种行为性体温调节,以避免高温胁迫,因为蚜虫在脱落之前就开始移动,并且在击倒之前,脱落的蚜虫仍然能够控制它们的肌肉。饥饿 12 小时的成虫的 DOT 值高于未饥饿或饥饿 6 小时的成虫,行为性体温调节和能量获取之间存在权衡。较高的温度和较长的高温暴露时间显著降低了蚜虫的 DOT,表明蚜虫在暴露于高温时通过脱落来避免热应激。因此,气候变暖可能会增加蚜虫脱落的可能性,从而影响蚜虫的个体发育和种群增长。
