Establishing character correspondence for sensory organ traits in flies: sensory organ development provides insight for reconstructing character evolution.

In Diptera and in other insects sensory organ patterns play an important role in the construction of phylogenies based on morphological characters. In this paper I explore the developmental basis for sensory organ pattern transformations between and within species. Knowledge of the properties of sensory organ development provides a foundation to judge the correspondence relationships between sensory organs. This is used to explore what components of notum bristle patterns are equivalent across the Schizophora. By investigating patterning processes in leg development, and their conservation across holometabolous insects, I show ways of relating specialised leg vestiture between species. Sensory organ patterns on the legs are diversified under homeotic gene control, potentially adding patterns of homeotic variation between legs to the list of informative traits for phylogenetic analysis. Correspondence relationships between wing and haltere sensory organ fields are resolved by exploring homeotic gene action in detail.