World Database of Nematodes

Linked to the Marine Biology Section, UGent

Nemys source details

Hauquier, F.; Leliaert, F.; Rigaux, A.; Derycke, S.; Vanreusel, A. (2017). Distinct genetic differentiation and species diversification within two marine nematodes with different habitat preference in Antarctic sediments. BMC Evolutionary Biology. 17: 120.
279076
10.1186/s12862-017-0968-1 [view]
Hauquier, F.; Leliaert, F.; Rigaux, A.; Derycke, S.; Vanreusel, A.
2017
Distinct genetic differentiation and species diversification within two marine nematodes with different habitat preference in Antarctic sediments
BMC Evolutionary Biology
17: 120
Publication
Available for editors  PDF available [request]
Background: Dispersal ability, population genetic structure and species divergence in marine nematodes are still poorly understood, especially in remote areas such as the Southern Ocean. We investigated genetic differentiation of species and populations of the free-living endobenthic nematode genera Sabatieria and Desmodora using nuclear 18S rDNA, internal transcribed spacer (ITS) rDNA, and mitochondrial cytochrome oxidase I (COI) gene sequences. Specimens were collected at continental shelf depths (200–500 m) near the Antarctic Peninsula, Scotia Arc and eastern side of the Weddell Sea. The two nematode genera co-occurred at all sampled locations, but with different vertical distribution in the sediment. A combination of phylogenetic (GMYC, Bayesian Inference, Maximum Likelihood) and population genetic (AMOVA) analyses were used for species delimitation and assessment of gene flow between sampling locations. Results: Sequence analyses resulted in the delimitation of four divergent species lineages in Sabatieria, two of which could not be discriminated morphologically and most likely constitute cryptic species. Two species were recognised in Desmodora, one of which showed large intraspecific morphological variation. Both genera comprised species that were restricted to one side of the Weddell Sea and species that were widely spread across it. Population genetic structuring was highly significant and more pronounced in the deeper sediment-dwelling Sabatieria species, which are generally less prone to resuspension and passive dispersal in the water column than surface Desmodora species. Conclusions: Our results indicate that gene flow is restricted at large geographic distance in the Southern Ocean, which casts doubt on the efficiency of the Weddell gyre and Antarctic Circumpolar Current in facilitating circum-Antarctic nematode species distributions. We also show that genetic structuring and cryptic speciation can be very different in nematode species isolated from the same geographic area, but with different habitat preferences (surface versus deeper sediment layers).
Nemys cited
RIS (EndNote, Reference Manager, ProCite, RefWorks)
BibTex (BibDesk, LaTeX)
Date
action
by
2017-06-27 14:00:38Z
created
2019-05-07 06:21:09Z
changed
2024-08-28 07:16:12Z
changed

Desmodora de Man, 1889 (additional source)
Sabatieria de Rouville, 1903 (additional source)

This service is powered by LifeWatch Belgium
Learn more»
Web interface and database structure initially created by Tim Deprez; now hosted and maintained by VLIZ
Page generated 2024-10-09 · contact: Tânia Nara Bezerra or info@marinespecies.org