Global change and physiological challenges for fish of the Amazon today and in the near future.

Adalberto Luis Val, C. Wood
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引用次数: 2

Abstract

Amazonia is home to 15% (>2700, in 18 orders) of all the freshwater fish species of the world, many endemic to the region, has 65 million years of evolutionary history and accounts for 20% of all freshwater discharge to the oceans. These characteristics make Amazonia a unique region in the world. We review the geological history of the environment, its current biogeochemistry and the evolutionary forces that led to the present endemic fish species that are distributed amongst three very different water types: black waters [acidic, ion-poor, rich in dissolved organic carbon (DOC)], white waters (circumneutral, particle-rich) and clear waters (circumneutral, ion-poor, DOC-poor). The annual flood pulse is the major ecological driver for fish, providing feeding, breeding and migration opportunities, and profoundly affecting O2, CO2 and DOC regimes. Owing to climate change and other anthropogenic pressures such as deforestation, pollution and governmental mismanagement, Amazonia is now in crisis. The environment is becoming hotter and drier, and more intense and frequent flood pulses are now occurring, with greater variation between high and low water levels. Current projections are that Amazon waters of the near future will be even hotter, more acidic, darker (i.e. more DOC, more suspended particles), higher in ions, higher in CO2 and lower in O2, with many synergistic effects. We review current physiological information on Amazon fish, focusing on temperature tolerance and ionoregulatory strategies for dealing with acidic and ion-poor environments. We also discuss the influences of DOC and particles on gill function, the effects of high dissolved CO2 and low dissolved O2, with emphasis on water- versus air-breathing mechanisms, and strategies for pH compensation. We conclude that future elevations in water temperature will be the most critical factor, eliminating many species. Climate change will likely favour predominantly water-breathing species with low routine metabolic rates, low temperature sensitivity of routine metabolic rates, high anaerobic capacity, high hypoxia tolerance and high thermal tolerance.
全球变化和对亚马逊鱼的生理挑战今天和不久的将来。
亚马逊是世界上所有淡水鱼种的15%(>2700,按18目分类)的家园,其中许多是该地区特有的,有6500万年的进化史,占所有流入海洋的淡水的20%。这些特点使亚马逊成为世界上独一无二的地区。我们回顾了环境的地质历史,其当前的生物地球化学以及导致目前特有鱼类物种分布在三种非常不同的水域类型中的进化力量:黑色水域[酸性,缺离子,富含溶解有机碳(DOC)],白色水域(环中性,富含颗粒)和清澈水域(环中性,缺离子,缺DOC)。每年的洪水脉冲是鱼类的主要生态驱动力,提供了觅食、繁殖和迁徙的机会,并深刻影响了O2、CO2和DOC的状态。由于气候变化和其他人为压力,如森林砍伐、污染和政府管理不善,亚马逊现在处于危机之中。环境正变得越来越热,越来越干燥,洪水脉冲越来越强烈和频繁,高水位和低水位之间的变化也越来越大。目前的预测是,不久的将来,亚马逊水域将变得更热、更酸、更暗(即更多的DOC、更多的悬浮颗粒)、离子含量更高、二氧化碳含量更高、氧气含量更低,并有许多协同效应。我们回顾了目前关于亚马逊鱼的生理信息,重点是温度耐受性和处理酸性和缺离子环境的离子调节策略。我们还讨论了DOC和颗粒对鳃功能的影响,高溶解CO2和低溶解O2的影响,重点是水与空气呼吸机制,以及pH补偿策略。我们得出的结论是,未来水温的升高将是最关键的因素,将使许多物种灭绝。气候变化可能主要有利于低常规代谢率、低常规代谢率的温度敏感性、高厌氧能力、高缺氧耐受性和高热耐受性的水呼吸物种。
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