AI Article Synopsis
- Two types of gigantism in fish are identified: Brobdingnagian, where all fish in a population are larger than normal, and Goliathan, where only specific individuals are larger.
- While Brobdingnagian gigantism is explained by ecological and evolutionary principles, the reasons for Goliathan gigantism are less clear.
- A new hypothesis suggests that Goliathan gigantism arises from individual fish reducing their oxygen needs through cooler temperatures or larger prey, which may lead to a mix of sizes in the population.
Article Abstract
Two forms of gigantism are differentiated in fish, Brobdingnagian and Goliathan gigantism, the former applying to populations whose individuals are all larger than is typical for the taxon, the latter to single individuals within a population. While Brobdingnagian gigantism is largely explained by various ecological and evolutionary rules, Goliathan gigantism is not. A mechanistic hypothesis is proposed which explains Goliathan gigantism in terms of the reduction of oxygen requirements of individual fish via moving to cooler temperatures and/or acquiring larger, more energy-dense prey, which enable them to get bigger, and, in the process, sometimes generate bimodal size distributions that may qualify as gradual forms between Goliathan and Brobdingnagian gigantism. This mechanism, which relies on the manner in which their gill surface area grows, is more likely to operate in fish that can get big in the first place than in fish that remain small.
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| http://dx.doi.org/10.1111/jfb.15694 | DOI Listing |
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