Mesothermic fishes face high fuel demands and overheating risk in warming oceans
Summary
Body size and temperature set metabolic rates and the pace of life, yet our understanding of the energetics of large fishes is uncertain, especially of warm-bodied mesotherms, which can heavily influence marine food webs. We developed an approach to estimate metabolic heat production in fishes, revealing how routine energy expenditure scales with size and temperature from 1-milligram larvae up to 3-tonne megaplanktivorous sharks. We found that mesotherms use approximately four times more e
Content
# Mesothermic fishes face high fuel demands and overheating risk in warming oceans
*Published: 2026 Apr 16*
Body size and temperature set metabolic rates and the pace of life, yet our
understanding of the energetics of large fishes is uncertain, especially of
warm-bodied mesotherms, which can heavily influence marine food webs. We
developed an approach to estimate metabolic heat production in fishes, revealing
how routine energy expenditure scales with size and temperature from 1-milligram
larvae up to 3-tonne megaplanktivorous sharks. We found that mesotherms use
approximately four times more energy than ectotherms use and identified a
scaling mismatch in which rates of heat production increase faster than heat
loss as body size increases, with larger fish becoming increasingly warm bodied.
This scaling imbalance creates an overheating predicament for large mesotherms,
helping to explain their cooler biogeographies. Contemporary mesotherms face
high fuel demands and overheating risks, which is a concern given their
disproportionate demise during prior climate shifts.
DOI: 10.1126/science.adt2981