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14 February 2024 Metabolic Water As a Route for Water Acquisition in Vertebrates Inhabiting Dehydrating Environments
Yoshio Takei
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Abstract

Vertebrates have expanded their habitats during evolution, which accompanies diversified routes for water acquisition. Water is acquired by oral intake and subsequent absorption by the intestine in terrestrial and marine animals which are subjected to constant dehydration, whereas most water is gained osmotically across body surfaces in freshwater animals. In addition, a significant amount of water, called metabolic water, is produced within the body by the oxidation of hydrogen in organic substrates. The importance of metabolic water production as a strategy for water acquisition has been well documented in desert animals, but its role has attracted little attention in marine animals which also live in a dehydrating environment. In this article, the author has attempted to reevaluate the role of metabolic water production in body fluid regulation in animals inhabiting desiccating environments. Because of the exceptional ability of their kidney, marine mammals are thought to typically gain water by drinking environmental seawater and excreting excess NaCl in the urine. On the other hand, it is established that marine teleosts drink seawater to enable intestinal water and ion absorption, and the excess NaCl is excreted by branchial ionocytes. In addition to the oral route, we suggest through experiments using eels that water production by lipid metabolism is an additional route for water acquisition when they encounter seawater. It seems that metabolic water production contributes to counteract dehydration before mechanisms for water regulation are reversed from excretion in freshwater to acquisition in seawater.

Yoshio Takei "Metabolic Water As a Route for Water Acquisition in Vertebrates Inhabiting Dehydrating Environments," Zoological Science 41(1), 132-139, (14 February 2024). https://doi.org/10.2108/zs230085
Received: 3 September 2023; Accepted: 15 January 2024; Published: 14 February 2024
KEYWORDS
body fluid regulation
desert mammals
euryhaline teleosts
marine mammals
oxidation water
seawater acclimation
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