超大的我:北方蝙蝠冬眠前增肥的假说。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-18 DOI:10.1098/rsbl.2024.0291
Mari A Fjelldal,Niclas R Fritzén,Kati M Suominen,Thomas M Lilley
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引用次数: 0

摘要

在北纬地区,冬眠者在秋季面临着能量困境;当气温和食物供应减少时,冬眠的物种需要积累脂肪以度过冬天。在这一关键的增肥阶段,北方食虫蝙蝠利用冬眠来建立和保存它们的储备。然而,我们对蝙蝠在冬眠前的增肥期利用冬眠的时间变化,以及气温下降、食物供应减少和个体体重增加对冬眠的影响仍然知之甚少。在这里,我们提出了两种一般假设来解释在北方蝙蝠(Eptesicus nilssonii)身上观察到的暂时休眠模式,其中暂时休眠(i)有助于快速增加体重或(ii)保护储存的体重。尽管在我们的数据集中,整个冬眠前期的温度、昆虫丰度和体重的数据是分开的,但这些数据表明,E. nilssonii在开始增加白天和夜间的冬眠时间之前,就已经达到了其越冬体重的大部分。再加上此时的食物供应量较低,这些观察结果表明,冬眠的表现可能是为了保存获得的储备,而不是促进体重增加。我们的研究首次证明了一个概念,即在冬眠前的肥育阶段,蝙蝠的冬眠是由时间驱动的。
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Supersize me: hypotheses on torpor-assisted prehibernation fattening in a boreal bat.
Hibernators face an energetic dilemma in the autumn at northern latitudes; while temperatures and food availability decrease, hibernating species need to build fat deposits to survive the winter. During this critical fattening phase, insectivorous boreal bats use torpor to build and conserve their reserves. However, we still know little about temporal variability in torpor use employed by bats during the prehibernation fattening period and how decreasing temperatures and food availability in combination with increasing individual body mass impact this. Here, we present two general hypotheses for explaining temporal torpor patterns observed in a boreal bat (Eptesicus nilssonii), in which torpor use (i) facilitates rapid mass gain or (ii) conserves stored body mass. Although temporally separated in our dataset, data on temperature, insect abundance and body mass throughout the prehibernation period indicate that E. nilssonii reaches the majority of its overwintering mass before the onset of increasing daytime and night-time torpor use. In combination with low food availability by this point in time, these observations suggest torpor expression may be intended to conserve gained reserves rather than facilitate mass gain. Our study is intended as a first proof of concept for disentangling temporal drivers of torpor in bats during the prehibernation fattening phase.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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