The Smiley Wiley Worm: Euperipatoides rowelli

Taxonomical Classification

    Taxonomical Classification, Photgraphy Credit: L. Pengo

   Domain: Eukarya

   Kingdom: Animalia

   Phylum: Onychophora

   Class: Not assigned

   Order: Not assigned                              

   Family: Peripatopsidae

   Genus: Euperipatoides

   Species: Euperipatoides rowelli              

 

Domain: Eukarya

            All organisms of this domain are characterized by possessing a true nucleus with DNA bound together to form chromosomes. Inside the cells there are membrane-bound organelles. All organisms except for Bacteria and Archaea are Eukaryotes (Biology-online 2009).

 

Kingdom: Animaliaphylogenetic tree

           All animals are multicellular organisms. These organisms are made up of eukaryotic cells and lack structural cell walls. All animals are heterotrophic, which means they cannot self feed (Biology-online 2008).

 

Phylum: Onychophora

           All members of this phylum are enigmatic, wormlike, and terrestrial invertebrates characterized by extensible walking legs and no external segmentation (Campbell 2008). They also contain a thin flexible outer cuticle. This phylum is distinct, though resembles characteristics of similar phylum including Arthropoda, which include species such as the Deathwatch beetle (Xestobium rufovillosum) and Annelida, which include species such as the Tiger Flatworm (Maritigrella crozieri). This phylum was thought to be the missing link between arthropods and annelids (Erickson et al. 2003, Erickson et al. 2010) but are the sister group to Arthropoda. These phyla consist of their own individual characteristics and synapomorphies creating a separate and distinct phylum for each.

                                                                                                          

                                                                                                            Figure 1. Phylogenetic tree showing the synapomorphies between each phylum.  

                                                                                                            Photography credit: Lauren Stoiber.

 

Class: Not assigned

 

Order: Not assigned

 

Family: Peripatopsidae    

            All members of this family inhabit tropical and temperate regions across the Southern continents. The ideal habitat for the Peripatopsidae is near tropical regions such as North and South America, South East Asia, West and South Africa, Chile and Australia (Tasmania 2012). The Euperipatoides rowelli most commonly resides in Australia. They are in this family because they are ovoviviparous.

                                                                                                      

Genus: Euperipatoides

            This genus includes Euperipatoides kanangrensis, Euperipatoides leuckarti and Euperipatoides rowelli. Characteristic of this genus include a pair of antennae, fourteen to sixteen pairs of legs and are approximately 15mm long.

 

Species: Euperipatoides rowelli

            Euperipatoides rowelli has characteristics that include blue pigmentation, fifteen pairs of legs, curved claws, pair of antennae and glands containing glue like adhesive use for predation (Campbell 2012).

 

Species Name: Euperipatoides rowelli

 

Scientific Explanation of Euperipatoides rowelli:

            This species is part of the Onychophora phylum, meaning “claw bearers” which comes from the tiny claw adaptations on their feet. Euperipatoides rowelli, when broken down, means:

                                                                                                                             phylogenetic tree 2

 Euper- wisely educated

 peripatoides (or peripatus)- wandering

 rowelli- comes from Dr. Dave Rowell, world expert on onychophoran biology (Tasmania 2012).

Common name: Velvet Worm

 

For additional information on how an organism is classified at each taxonomic level click here: Taxonomical Classification

         

 

  To continue your research check out the Habitat page.

                                                                                                                                                                                                                             

                                                                                                                Figure 2. Phylogenetic tree representing the relationship between each phyla.

                                                                                                                Photography Credit: Lauren Stoiber

                                                             

                                                               For further information on references used, follow the link provided.

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