Genome size as a determinant of growth and life-history traits in crustaceans

Genome size varies tremendously both within and among taxa, and strong correlations between genome size and various physiological and ecological attributes suggest that genome size is a key trait of organisms, yet the causalities remains vague. In the present study, we tested how genome size is related to key physiological and ecological properties in five large orders of crustaceans: Decapoda, Cladocera, Amphipoda, Calanoida, and Cyclopoida. These span a wide range in sizes, habitats and life-history traits. To some extent, genome size reflected phylogenetic footprints but, generally, a very wide range in genome size was found within all orders. Genome size was positively correlated with body size in Amphipoda, Cladocera, and Copepoda, but not for Decapoda in general. This could indicate that the evolution of body size occurs mainly by changing cell size for the three first orders, whereas it is more attributed to cell numbers for Decapoda. Cladocera, with direct development and a high growth rate, have minute genomes compared to copepods that possess a more complex life history, whereas, within Decapoda and Amphipoda, developmental complexity is not related to genome size. The present study suggests that, within the crustaceans, selection for a wide variety of life-history strategies has led to widely different genome sizes.  © 2009 The Linnean Society of London, Biological Journal of the Linnean Society , 2009, 98 , 393–399.