Effect of crab bioturbation on organic matter processing in South West Atlantic intertidal sediments

Organic matter (OM) remineralization plays a key role in controlling the biogeochemistry of marine sediments. Through their burrowing activities, bioturbating macrofauna not only induces physical, chemical and biological modifications, which can affect microbial communities responsible for organic m...

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Bibliographic Details
Published in:Journal of sea research 2015-01, Vol.95, p.206-216
Main Authors: Fanjul, Eugenia, Escapa, Mauricio, Montemayor, Diana, Addino, Mariana, Alvarez, María Fernanda, Grela, María A., Iribarne, Oscar
Format: Article
Language:English
Subjects:
Bioavailability
Bioturbation
Carbon
Crab
Crabs
Decapoda
Exports
International trade
Intertidal
Marine
Metabolism
Neohelice granulata
Organic matter
Saltmarshes
Sediments
Water circulation
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Summary:Organic matter (OM) remineralization plays a key role in controlling the biogeochemistry of marine sediments. Through their burrowing activities, bioturbating macrofauna not only induces physical, chemical and biological modifications, which can affect microbial communities responsible for organic matter remineralization, but it could also directly affect the distribution and bioavailability of sedimentary organic matter. Through in situ experiments manipulating crab and burrow density in intertidal soft-bottoms, we assessed if crab-bioturbation affects benthic metabolism, and the amount, distribution, and bioavailability of sedimentary OM. Crab-bioturbation enhanced overall benthic metabolism and benthic flux of dissolved OM toward the water column at both mudflat and saltmarsh zones. Moreover, our results revealed that bioturbation also changes the quality, bioavailability and distribution of sedimentary OM in mudflats and saltmarshes. Overall, bioturbation enhanced the proportion of labile organic carbon of bioturbated sediments and homogenized the sediment column in terms of their proportion of labile organic carbon. However, crabs also generated biogenic structures (e.g., mounds) that could promote spatial heterogeneity of high nutritional-value OM. Bioturbation-induced changes on benthic metabolism and on OM availability would result in a reduction of the storage capacity of carbon in our intertidal systems. Previous works indicated that crab-burrows trap detritus and OM-rich sediments. Our results suggest that detritus are efficiently remineralized at bioturbated sediment, and finally they are quickly exported to the water column as CO2 and DOC. Thus, crabs are modifying the OM processing at intertidal soft bottoms, and the ways in which carbon is exported to coastal waters. •We studied how crab-bioturbation affects organic matter at intertidal soft bottoms.•Crab-bioturbation enhances benthic metabolism and benthic fluxes of organic matter.•Bioturbation affects quality, distribution and bioavailability of sedimentary OM.•Results suggest that crabs modify the ways of carbon export to coastal waters.
ISSN:1385-1101
1873-1414
DOI:10.1016/j.seares.2014.05.005