Linking environmental salinity to respiratory phenotypes and metabolic rate in fishes: a data mining and modelling approach.

T. Harter, C. Damsgaard, M. Regan
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引用次数: 3

Abstract

The gill is the primary site of ionoregulation and gas exchange in adult teleost fishes. However, those characteristics that benefit diffusive gas exchange (large, thin gills) may also enhance the passive equilibration of ions and water that threaten osmotic homeostasis. Our literature review revealed that gill surface area and thickness were similar in freshwater (FW) and seawater (SW) species; however, the diffusive oxygen (O2) conductance (Gd) of the gill was lower in FW species. While a lower Gd may reduce ion losses, it also limits O2 uptake capacity and possibly aerobic performance in situations of high O2 demand (e.g. exercise) or low O2 availability (e.g. environmental hypoxia). We also found that FW fishes had significantly higher haemoglobin (Hb)-O2 binding affinities than SW species, which will increase the O2 diffusion gradient across the gills. Therefore, we hypothesized that the higher Hb-O2 affinity of FW fishes compensates, in part, for their lower Gd. Using a combined literature review and modelling approach, our results show that a higher Hb-O2 affinity in FW fishes increases the flux of O2 across their low-Gd gills. In addition, FW and SW teleosts can achieve similar maximal rates of O2 consumption (ṀO2,max) and hypoxia tolerance (Pcrit) through different combinations of Hb-O2 affinity and Gd. Our combined data identified novel patterns in gill and Hb characteristics between FW and SW fishes and our modelling approach provides mechanistic insight into the relationship between aerobic performance and species distribution ranges, generating novel hypotheses at the intersection of cardiorespiratory and ionoregulatory fish physiology.
将环境盐度与鱼类的呼吸表型和代谢率联系起来:数据挖掘和建模方法。
鳃是成年硬骨鱼离子调节和气体交换的主要部位。然而,那些有利于扩散气体交换的特征(大而薄的鳃)也可能增强威胁渗透稳态的离子和水的被动平衡。我们的文献综述表明,淡水(FW)和海水(SW)物种的鳃表面积和厚度相似;但FW鱼鳃的扩散氧(O2)电导(Gd)较低。虽然较低的Gd可能会减少离子损失,但它也会限制氧气摄取能力,并可能在高氧气需求(例如运动)或低氧气可用性(例如环境缺氧)的情况下限制有氧表现。我们还发现,FW鱼的血红蛋白(Hb)-O2结合亲和力明显高于SW鱼,这将增加O2在鳃上的扩散梯度。因此,我们假设FW鱼较高的Hb-O2亲和力在一定程度上补偿了它们较低的Gd。结合文献回顾和建模方法,我们的研究结果表明,FW鱼较高的Hb-O2亲和力增加了其低gd鳃的O2通量。此外,FW和SW硬骨鱼通过不同的Hb-O2亲和力和Gd组合可以获得相似的最大耗氧量(ṀO2,max)和缺氧耐受性(Pcrit)。我们的综合数据确定了FW和SW鱼类之间鳃和Hb特征的新模式,我们的建模方法为有氧性能与物种分布范围之间的关系提供了机制见解,在心肺和离子调节鱼类生理学的交叉点产生了新的假设。
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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