The Shape of Water: Physiological Adaptations to Habitat Aridity in the Ornate Tree Lizard (Urosaurus ornatus).

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Jhan C Salazar, Donald B Miles
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引用次数: 0

Abstract

Deserts have always amazed researchers due to their high diversity of habitats, where plant and animal species have been able to adapt and diversify, even when these areas impose several constraints on an organism's activity patterns. In particular, deserts support several lizard species adapted to the thermal and water restrictions found in such biomes. Although several studies have attempted to understand how lizard species might respond to water deficits or droughts in deserts, few have addressed how these responses might vary along a latitudinal gradient. This raises the question of whether physiological buffering of the organism or the climatic environment affects water loss in lizards. Here, we used six populations of Urosaurus ornatus to test whether water loss is influenced more by the intrinsic physiology of the lizard or by the climatic niche. We found that water loss is primarily influenced by the climatic niche of the lizard. However, future studies should focus on how microclimatic variables can influence water loss in organisms found across large latitudinal gradients.

水的形状:华丽树蜥(Urosaurus ornatus)对栖息地干旱的生理适应。
沙漠的栖息地多样性一直令研究人员惊叹不已,即使这些地区对生物的活动模式施加了多种限制,植物和动物物种也能够适应并实现多样化。特别是,沙漠中栖息着几种适应这种生物群落中热和水限制的蜥蜴物种。虽然有一些研究试图了解蜥蜴物种如何应对沙漠中的缺水或干旱,但很少有人探讨这种情况在纬度梯度上的变化。这就提出了一个问题:生物体的生理缓冲作用或气候环境是否会影响蜥蜴的失水。在这里,我们利用六种乌龙蜥种群来检验失水是否更多受到蜥蜴内在生理机能或气候环境的影响。我们发现,失水主要受蜥蜴的气候生态位影响。然而,未来的研究应关注小气候变量如何影响大纬度梯度生物的失水。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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