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| Mexican cavefish [Credit: Damian Moran] |
A research team at Lund University has conducted measurements on a vertebrate and for the first time calculated the actual cost of well-developed vision in these animals. The researchers studied the Mexican cavefish, a fish that lost its visual system through regression. This fish is clearly different to the surface-dwelling variant, known as a morph, of the same species. The surface-dwelling morph has large eyes, but also far greater access to food, which the cave-dwelling morph lacks. The cavefish lives in a very dark, nutrient-poor environment and has no use for eyes.
"Our measurements in the Mexican cavefish show that the visual system requires between 5% and 15% of the animal's total energy budget, depending on the age of the fish. This is a tremendously high cost! Over evolution, this morph lost both eyes and visual cortex, without a doubt because of the unsustainable energy cost of maintaining a sensory system that no longer had any significance," says Damian Moran, one of the researchers behind the study.
"Animals with large and well-developed eyes, necessary for their survival, pay a high price for them. As all animals have a strictly limited energy budget, a major investment in the visual system only occurs at a cost to other organ systems," says Eric Warrant, researcher in Functional Zoology at Lund University.
The researchers were surprised that the visual system of Mexican cavefish required such a large proportion of the fishes' total energy budget; the cost was much higher than expected.
The new findings also lead to a better understanding of selective pressure in evolution, i.e. what causes the same species to develop in different ways depending on their environment.
Source: Lund University [September 11, 2015]