Researchers find a new marine invertebrate species in the Weddell Sea, in the Antarctica

The news species <i>Doto carinova</i> was captured at 277 metres under the Weddell sea (image: Manuel Ballesteros, UB-IRBio)
The news species Doto carinova was captured at 277 metres under the Weddell sea (image: Manuel Ballesteros, UB-IRBio)
Research
(25/07/2016)

The cold waters in Weddell, in the Antarctic ocean, are the scenario of the findings of a new marine invertebrate species -the nudibranchs Doto carinova- described in an article published in the journal PLOS ONE  by the experts Conxita Àvila, Juan Moles, Manuel Ballesteros, from the Department of Evolutionary Biology, Ecology and Environmental Sciences and the Biodiversity Research Institute of the University of Barcelona (IRBio), together with Heike Wägele (Zoological Research Museum Alexander Koenig) and Gabriele Uhl (University of Greifswald) in Germany.

The news species <i>Doto carinova</i> was captured at 277 metres under the Weddell sea (image: Manuel Ballesteros, UB-IRBio)
The news species Doto carinova was captured at 277 metres under the Weddell sea (image: Manuel Ballesteros, UB-IRBio)
Research
25/07/2016

The cold waters in Weddell, in the Antarctic ocean, are the scenario of the findings of a new marine invertebrate species -the nudibranchs Doto carinova- described in an article published in the journal PLOS ONE  by the experts Conxita Àvila, Juan Moles, Manuel Ballesteros, from the Department of Evolutionary Biology, Ecology and Environmental Sciences and the Biodiversity Research Institute of the University of Barcelona (IRBio), together with Heike Wägele (Zoological Research Museum Alexander Koenig) and Gabriele Uhl (University of Greifswald) in Germany.

 

The end of polar loneliness for Doto Antarctica

 

Nudibranchs from the Doto genre are found around the oceans and are gastropod molluscs that feed from hydroids and cnidarian. In Antarctic latitudes, the only identified species until now was Doto antarctica, which was found for the first time in the Ross Sea and described in 1907 by the British diplomat and malacologist Charles Norton E. Eliot.

 

The new species D. carinova, captured at 277 metres under the Weddell sea, enriches the biologic heritage of the white continent and increases the number of invertebrates discovered by the experts of the projects Ecoquim, Actiquim and Distantcom, led by Professor Conxita Àvila (Faculty of Biology-IRBio) to study chemical ecology, philogeography and trophic ecology in invertebrate marine communities in the Antarctica.

 

According to Juan Moles, first author of the new article, “the new species Doto carinova differs from D. Antarctica for its external morphological characters: colouring, number and shape of the cerata, shape of the rhinophoral sheath, etc. But other internal traits are also different, such as the salivary glands or several reproductive organs”.

 

“These Antarctic nudibranchs show a similar laying -also described as a scoop in the Doto genre- but with some differences. Regarding the marine habitat, although it shares a similar habitat with the benthic beds, D. carinova is placed on gorgonians (Primnoisis antarctica) and D. antarctica on hydroid colonies, where they make their laying” says Moles.

 

Rebuilding a 3D Antarctic species

 

During their researches, experts also found new species of Doto antarctica -so far the only nudibranch of this genre in the Antarctica- in the Weddell Sea and Bouvet Island, which confirms the circumpolar distribution of the species. They also found that the two associated cnidarian species (Oswaldella sp. and Antarctosyphus sp.) from which they probably feed.

 

To improve the taxonomy criteria that identify the species, experts applied a set of techniques (histology, micro-computed tomography and 3D reconstruction) in the study of the organs and system of the species. Results show the existence of giant cells added to the central nervous system. “We propose these cells correspond to giant neurons with some neurosecretion function. This is a unique finding and everything points to that all species from the genre could have these “giant neurons”, in a higher or lower degree, although it is necessary to continue studying this issue” says Juan Moles.

 

There has also been described the reproductive system with lots of organs having taxonomy interest -especially the blister, prostate, penis, and bursa copulatrix - that helped establishing an evolutionary tendency of the genre globally. Particularly, in the Doto genre, experts say there is a gradual decrease of the bursa copulatrix, and a connection of the seminal receptacle with the proximal part of the nidamental or female glands.

 

An extreme habitat to find new bioactive molecules

 

The Antarctic continent has lots of specific habitats that are hard to study. Great part of the research project by the team led by Conxita Àvila is focused on the identification of molecules that take part in the relation between these organisms, and to evaluate their drug use. “We try to find out which chemical defences these invertebrates use in order to repel predators, to make a place or be clean and avoid other organisms in their surface”, said Conxita Àvila. “These chemical products can have a biological activity potentially useful as drugs”.

 

“There has only been a natural product described from a Doto species in the Atlantic Ocean -continued Àvila- but it is believed that the glands placed in dorsal sides or cerata are the ones in charge of accumulating dissuasive substances when facing predation. In the case of Antarctic species, there is still not enough information about these aspects of chemical ecology”.

 

For now, the evolutionary scene of the Dotiae family is full of phylogenetic enigmas to be solved. Although it is considered to be a family belonging to Dendronotida, it is necessary to define the synapomorphic characters - that is, shared by two or more taxons- that group Dotiae with the rest of neighbouring families. For the experts, it is necessary to get and sequence enough representatives from these taxons and analyse them with philogenomic techniques to solve evolutionary enigmas that these marine invertebrates hide.