Abstract

Abstract

How to align leg segments between the four groups of arthropods (insects, crustaceans, myriapods, and chelicerates) has tantalized researchers for over a century. By comparing the loss-of-function phenotypes of leg patterning genes in diverged arthropod taxa, including a crustacean, insects, and arachnids, arthropod legs can be aligned in a one-to-one fashion. By comparing the expression of pannier and aurucan, the proximal leg segments can be aligned. A model is proposed wherein insects and myriapods incorporated the proximal leg region into the body wall, which moved an ancestral exite (for example, a gill) on the proximal leg into the body wall, where it invaginated independently in each lineage to form tracheae. For chelicerates with seven leg segments, it appears that one proximal leg segment was incorporated into the body wall. According to this model, the chelicerate exopod and the crustacean exopod emerge from different leg segments, and are therefore proposed to have arisen independently. A framework for how to align arthropod appendages now opens up a powerful system for studying the origins of novel structures, the plasticity of developmental fields across vast phylogenetic distances, and the convergent evolution of shared ancestral developmental fields.

Competing Interest Statement

The authors have declared no competing interest.