Thermal constraints and gender-related differences in the activity patterns of the monomorphic rodent Clyomys laticeps

IF 1.5 3区生物学 Q2 ZOOLOGY

Journal of Mammalogy Pub Date : 2024-09-17 DOI:10.1093/jmammal/gyae099

Ingrid Paixão, Claire Ferrando, Natália Leiner

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Abstract

The daily activity pattern of animals can be classified as diurnal, nocturnal, crepuscular, and cathemeral reflecting strategic decisions to maximize mating and foraging while reducing predation risks and thermal constraints. Among monomorphic mammals, competition for resources and gender-related differences in physiology and reproductive strategies may translate into different activity patterns of males and females. Therefore, to understand the daily activity pattern both aboveground and belowground of the semifossorial rodent Clyomys laticeps, we tested the following hypotheses: (1) males and females differ in their diel activity patterns; (2) males are active for longer periods than females due to a promiscuous mating system and female site fidelity; and (3) higher maximum temperatures restrain C. laticeps activity. The study was carried out in the Serra de Caldas Novas State Park (Goiás, Brazil) in the Cerrado biome. The activity of C. laticeps was recorded using the telemetry technique over 5 days and nights (twice in each season, rainy and dry, between 2019 and 2021). Clyomys laticeps activity was bimodal, with 2 peaks around dawn and dusk, resembling a crepuscular pattern. Temporal segregation in male and female activity patterns was restricted to the dry season, when female activity was more diurnal than males who were mainly nocturnal. Intersexual competition for resources or male-avoidance behavior by females during the dry food scarcity season could contribute to this pattern, although it may also be explained by gender-related differences in thermal tolerances. Overall, males were active for longer periods than females, probably as a strategy to increase mating opportunities among the former and site fidelity in the latter. Finally, temperature imposed major constraints on C. laticeps activities who preferred milder temperatures and avoided being active in temperatures above their thermoneutral zone.

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单形啮齿动物 Clyomys laticeps 活动模式中的热限制和性别差异

动物的日常活动模式可分为昼行性、夜行性、昼伏夜出性和昼行性，这反映了动物在减少捕食风险和热限制的同时最大限度地进行交配和觅食的战略决策。在单形哺乳动物中，对资源的竞争以及与性别有关的生理和繁殖策略的差异可能会转化为雌雄不同的活动模式。因此，为了了解半浮游啮齿类动物Clyomys laticeps在地上和地下的日常活动模式，我们测试了以下假设：（1）雄性和雌性在昼夜活动模式上存在差异；（2）由于杂交交配系统和雌性对地点的忠诚度，雄性比雌性活动的时间更长；（3）较高的最高温度会抑制C.这项研究在塞拉多生物群落的 Serra de Caldas Novas 州立公园（巴西戈亚斯州）进行。使用遥测技术记录了 C. laticeps 在 5 个昼夜（2019 年至 2021 年间，雨季和旱季各两次）的活动。Clyomys laticeps的活动呈双峰分布，在黎明和黄昏前后出现两个高峰，类似于昼伏夜出的模式。雌雄活动模式的时间分隔仅限于旱季，此时雌性活动多于雄性，而雄性主要在夜间活动。在食物匮乏的旱季，雌性对资源的争夺或雌性对雄性的回避行为可能是造成这种模式的原因，但也可能是与性别有关的热耐受性差异造成的。总体而言，雄性比雌性活跃的时间更长，这可能是为了增加前者的交配机会和后者对地点的忠诚度。最后，温度对拉蒂斯蛙的活动造成了很大的限制，拉蒂斯蛙更喜欢温和的温度，并避免在温度超过它们的中温区时活动。

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