Transgenerational exposure to deoxygenation and warming disrupts mate detection in Gammarus locusta

IF 2.5 3区 环境科学与生态学 Q2 BEHAVIORAL SCIENCES Behavioral Ecology Pub Date : 2023-12-22 DOI:10.1093/beheco/arad102
Beatriz P Pereira, Simon Neff, Francisco O. Borges, E. Otjacques, Guilherme Barreto, Maddalena Ranucci, Mélanie Court, R. Rosa, T. Repolho, J. Paula
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Abstract

Ocean deoxygenation and warming have been shown to pose a growing threat to the health of marine organisms and ecosystems. Yet, the potential for acclimation and adaptation remains poorly understood. The aim of this study was to evaluate the effects of transgenerational exposure to reduced oxygen availability and elevated seawater temperature on the chemosensory-dependent mating mechanisms of male amphipods Gammarus locusta. Three subsequent generations were exposed to four experimental treatments for 30 days: 1) present-day scenario, 2) warming; 3) deoxygenation; and 4) warming + deoxygenation. After exposure, the number of individuals that reached adulthood was gauged, and adult males from F0 and F1 were subjected to behavioral trials to assess their capacity of long-distance female cue detection through quantification of response time, the first direction of movement, activity rate, and proportion of time spent in female scent cues. Ocean warming induced mortality, and reduced oxygen availability had adverse effects on each of the investigated behavioral traits, which were amplified when combined with elevated temperature. Still, when compared with F0, the F1 generation demonstrated more adaptability (i.e., higher activity rate and preference for female odors) to the combination of the two stressors, suggesting positive carry-over effects. Nevertheless, full recovery to control levels was not observed. Altogether, this study indicates that future scenarios of ocean deoxygenation and warming have the potential to disrupt chemosensory-dependent mate detection in amphipods, but also suggests possible behavioral adaptations. We call for greater research efforts on long-term impacts of ocean change on the behavioral and physiological processes of benthic coastal communities.
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跨代暴露于脱氧和气候变暖会破坏蝗虫的配偶探测能力
海洋脱氧和变暖已被证明对海洋生物和生态系统的健康构成日益严重的威胁。然而,人们对海洋生物的适应潜力仍然知之甚少。本研究的目的是评估跨代暴露于氧气供应减少和海水温度升高对雄性片脚类动物(Gammarus locusta)依赖化学感觉的交配机制的影响。三个后代暴露于四种实验处理中,为期 30 天:1)现今情景;2)升温;3)脱氧;4)升温+脱氧。暴露后,测定成年个体的数量,并对F0和F1的成年雄性个体进行行为试验,通过量化反应时间、第一运动方向、活动率和雌性气味线索所占时间比例,评估其远距离雌性线索探测能力。海洋变暖导致死亡,氧气供应量的减少对每种调查行为特征都产生了不利影响,当温度升高时,这种影响被放大。不过,与F0相比,F1代对这两种应激因素的组合表现出更强的适应性(即更高的活动率和对雌性气味的偏好),这表明其具有积极的延续效应。然而,并没有观察到完全恢复到控制水平的情况。总之,这项研究表明,未来海洋脱氧和变暖有可能破坏片脚类依赖化学感觉的配偶探测,但也提出了可能的行为适应。我们呼吁加强研究海洋变化对沿海底栖生物群落行为和生理过程的长期影响。
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来源期刊
Behavioral Ecology
Behavioral Ecology 环境科学-动物学
CiteScore
5.20
自引率
8.30%
发文量
93
审稿时长
3.0 months
期刊介绍: Studies on the whole range of behaving organisms, including plants, invertebrates, vertebrates, and humans, are included. Behavioral Ecology construes the field in its broadest sense to include 1) the use of ecological and evolutionary processes to explain the occurrence and adaptive significance of behavior patterns; 2) the use of behavioral processes to predict ecological patterns, and 3) empirical, comparative analyses relating behavior to the environment in which it occurs.
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