Physiological responses to acute hypoxia in the liver of largemouth bass by alteration of mitochondrial function and Ca2+ exchange

•Hypoxia triggered ROS production by regulating ETC activity.•Hypoxia changed mitochondrial morphology by mitochondrial fusion, fission and biosynthesis.•Hypoxia regulated nutrient utilization by inducing autophagy and modulating TCA cycle.•Hypoxia disrupted Ca2+ homeostasis and activated ER quality control.