Testing deep-sea biodiversity paradigms on abyssal nematode genera and Acantholaimus species

Biodiversity patterns in the deep sea have been extensively studied in the last decades. In this study, we investigated whether reputable concepts in deep-sea ecology also explain diversity and distribution patterns of nematode genera and species in the abyss. Among them, three paradigms were tackle...

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Bibliographic Details
Published in:Deep Sea Research Part II: Topical Studies in Oceanography
Main Authors: Lins Pereira, Lidia, da Silva, Maria Cristina, Neres, Patrícia, Esteves, André Morgado, Vanreusel, Ann
Other Authors: Brandt, Angelika, Kaiser, Stefanie, Riehl, Torben
Format: Article in Journal/Newspaper
Language:English
Published: 2018
Subjects:
Biology and Life Sciences
Earth and Environmental Sciences
Acantholaimus
Alpha diversity
Patchiness
Diversity indices
Spatial scale
PARTICLE-SIZE DIVERSITY
VEMA FRACTURE-ZONE
NORTH-ATLANTIC
MARINE NEMATODES
SOUTHERN-OCEAN
ENVIRONMENTAL DRIVERS
BENTHIC BIODIVERSITY
SURFACE PRODUCTIVITY
GENUS ACANTHOLAIMUS
CONTINENTAL-SHELF
Southern Ocean
North Atlantic
Online Access:https://biblio.ugent.be/publication/8560836
http://hdl.handle.net/1854/LU-8560836
https://doi.org/10.1016/j.dsr2.2016.12.005
https://biblio.ugent.be/publication/8560836/file/8609225
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Summary:Biodiversity patterns in the deep sea have been extensively studied in the last decades. In this study, we investigated whether reputable concepts in deep-sea ecology also explain diversity and distribution patterns of nematode genera and species in the abyss. Among them, three paradigms were tackled: (1) the deep sea is a highly diverse environment at a local scale, while on a regional and even larger geographical scale, species and genus turnover is limited; (2) the biodiversity of deep-sea nematode communities changes with the nature and amount of organic matter input from the surface; and (3) patch-mosaic dynamics of the deep-sea environment drive local diversity. To test these hypotheses, diversity and density of nematode assemblages and of species of the genus Acantholaimus were studied along two abyssal E-W transects. These two transects were situated in the Southern Ocean (similar to 50 degrees S) and the North Atlantic (similar to 10 degrees N). Four different hierarchical scales were used to compare biodiversity: at the scale of cores, between stations from the same region, and between regions. Results revealed that the deep sea harbours a high diversity at a local scale (alpha diversity), but that turnover can be shaped by different environmental drivers. Therefore, these results question the second part of the paradigm about limited species turnover in the deep sea. Higher surface primary productivity was correlated with greater nematode densities, whereas diversity responses to the augmentation of surface productivity showed no trend. Areas subjected to a constant and low food input revealed similar nematode communities to other oligotrophic abyssal areas, while stations under high productivity were characterized by different dominant genera and Acantholaimus species, and by a generally low local diversity. Our results corroborate the species-energy hypothesis, where productivity can set a limit to the richness of an ecosystem. Finally, we observed no correlation between sediment variability and ...

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