Developmental Data and Phylogenetic Systematics: Evolution of the Vertebrate Limb

Among the primary contributions of phylogenetic systematicsto the synthesis of developmental biology and evolution arephylogenetic hypotheses. Phylogenetic hypotheses are criticalin interpreting the patterns of evolution of developmental genesand processes, as are morphological data. Using a robust phylogeny,the evolutionary history of individual morphological or developmentalfeatures can be traced and ancestral conditions inferred. Multiplecharacters (e.g., morphological and developmental) can be mappedtogether on the phylogeny, and patterns of character associationcan be quantified and tested for correlation. Using the vertebrate forelimb as an example, I show that bymapping accurate morphological data (homologous skeletal elementsof the vertebrate forelimb) onto a phylogeny, an alternativeinterpretation of Hox gene expression emerges. Teleost fishesand tetrapods may share no homologous skeletal elements in theirforelimbs, and thus similarities and differences in Hox patternsduring limb development must be reinterpreted. Specifically,the presence of the phase III Hox pattern in tetrapods may notbe correlated with digits but rather may simply be the normalexpression pattern of a metapterygium in fishes. This exampleillustrates the rigorous hypotheses that can be developed usingmorphological data and phylogenetic methods. "Creating a general reference system and investigating the relationsthat extend from it to all other possible and necessary systemsin biology is the task of systematics." (Hennig, 1966, p.7)