Onychophora (velvet worms or peripatus) are the only exclusively terrestrial phylum of animals. They are many-legged, soft bodied worms that live in moist habitats in the tropics and the southern hemisphere. They are particularly famous for their distinctive mode of prey capture which involves shooting a slimy glue from modified appendages to entangle prey. They are also noted for their remarkable diversity of reproductive strategies that range from oviparity, through ovoviviparity, to placental viviparity. Onychophora hold a pivotal place in metazoan phylogenetics as the putative sister group to Arthropoda. To rectify the near complete lack of genomic data for the phylum, I have assembled the genome of Epiperipatus broadwayi. This genome is the highest quality onychophoran genome to date and is the only annotated genome for this phylum. It will be integral in understanding the phylogenetics, biogeography, and evolution of reproductive strategies in this unique lineage and will hopefully serve as a genomic toolkit to spur further research into this little-understood group.

Ricinulei (hooded tick spiders), is a small order of arachnids whose affinities are contentious. However, they are frequently recovered at sister-group to Xiphosura, the horseshoe crabs. All 100 or so species are in three genera: Cryptocellus from South America, Pseudocellus from North America, and Ricinoides from Africa. The three molecular phylogenetic studies of this group have revealed conflicting relationships among these genera and suffered from the trade-off between numbers of loci and taxon sampling. With new material from Cuba, Mexico, and the Andes, I am working on the first UCE phylogeny for the group to understand the relationships among the major clades within Ricinulei.
image: Gonzalo Giribet