Mandic Milica, Todgham Anne E, Richards Jeffrey G
Department of Zoology, University of British Columbia, Vancouver, British Columbia, Canada V6T 1Z4.
Proc Biol Sci. 2009 Feb 22;276(1657):735-44. doi: 10.1098/rspb.2008.1235.
The ability of an organism to acquire O(2) from its environment is key to survival and can play an important role in dictating a species' ecological distribution. This study is the first, to our knowledge, to show a tight, phylogenetically independent correlation between hypoxia tolerance, traits involved in dictating O(2) extraction capacity and the distribution of a group of closely related fish species, sculpins from the family Cottidae, along the nearshore marine environment. Sculpins with higher hypoxia tolerance, measured as low critical O(2) tensions (P(crit)), inhabit the O2 variable intertidal zones, while species with lower hypoxia tolerance inhabit the more O(2) stable subtidal zone or freshwater. Hypoxia tolerance is phylogenetically independently associated with an enhanced O(2) extraction capacity, with three principal components accounting for 75 per cent of the variation in P(crit): routine O(2) consumption rate; mass-specific gill surface area; and whole blood haemoglobin (Hb)- O(2)-binding affinity (P(50)). Variation in whole blood Hb-O(2)P(50) is strongly correlated with the intrinsic O(2)-binding properties of the purified Hb while the differences in the concentration of the allosteric Hb modulators, ATP and GTP, provide a Hb system with substantial plasticity for survival in a highly O(2) variable environment.
生物体从其环境中获取氧气的能力是生存的关键,并且在决定物种的生态分布方面可能发挥重要作用。据我们所知,本研究首次表明,在耐缺氧能力、决定氧气摄取能力的性状与一组近缘鱼类(杜父鱼科杜父鱼)在近岸海洋环境中的分布之间,存在紧密的、系统发育独立的相关性。耐缺氧能力较强的杜父鱼(以低临界氧张力(P(crit))衡量)栖息在氧气多变的潮间带,而耐缺氧能力较低的物种则栖息在氧气更稳定的潮下带或淡水区域。耐缺氧能力在系统发育上与增强的氧气摄取能力独立相关,三个主要成分占P(crit)变化的75%:常规氧气消耗率;单位质量鳃表面积;以及全血血红蛋白(Hb)与氧气的结合亲和力(P(50))。全血Hb - O(2)P(50)的变化与纯化Hb的内在氧气结合特性密切相关,而异构Hb调节剂ATP和GTP浓度的差异为Hb系统在高度可变的氧气环境中生存提供了显著的可塑性。