Open AccessThe energetic cost of vision and the evolution of eyeless Mexican cavefish
Author(s) -
Damian Moran,
Rowan Softley,
Eric J. Warrant
Publication year - 2015
Publication title -
science advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.928
H-Index - 146
ISSN - 2375-2548
DOI - 10.1126/sciadv.1500363
Subject(s) - biology , fish <actinopterygii> , optic tectum , cave , adaptive evolution , brain tissue , energy metabolism , phenotype , neuroscience , evolutionary biology , zoology , ecology , anatomy , fishery , central nervous system , genetics , gene , endocrinology
One hypothesis for the reduction of vision in cave animals, such as the eyeless Mexican cavefish, is the high energetic cost of neural tissue and low food availability in subterranean habitats. However, data on relative brain and eye mass in this species or on any measure of the energetic cost of neural tissue are not available, making it difficult to evaluate the "expensive tissue hypothesis." We show that the eyes and optic tectum represent significant metabolic costs in the eyed phenotype. The cost of vision was calculated to be 15% of resting metabolism for a 1-g fish, decreasing to 5% in an 8.5-g fish as relative eye and brain size declined during growth. Our results demonstrate that the loss of the visual system in the cave phenotype substantially lowered the amount of energy expended on expensive neural tissue during diversification into subterranean rivers, in particular for juvenile fish
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