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Title: Microbial oceanography of the dark ocean’s pelagic realm
Authors: Aristegui, J. 
Gasol, Josep M.
Duarte, Carlos M.
Herndl, Gerhard J.
UNESCO Clasification: Investigación
Keywords: Microbiología marina
Ciclo del carbono (Biogeoquímica)
Issue Date: 2009
Publisher: 0024-3590
Project: Expedición de Circunnavegación Malaspina 2010: Cambio Global y Exploración Del Océano Global 
Journal: Limnology and Oceanography 
Abstract: The pelagic realm of the dark ocean represents a key site for remineralization of organic matter and long-term carbon storage and burial in the biosphere. It contains the largest pool of microbes in aquatic systems, harboring nearly 75% and 50% of the prokaryotic biomass and production, respectively, of the global ocean. Genomic approaches continue to uncover the enormous and dynamic genetic variability at phylogenetic and functional\nlevels. Deep-sea prokaryotes have comparable or even higher cell-specific extracellular enzymatic activity than do microbes in surface waters, with a high fraction of freely released exoenzymes, probably indicative of a life mode reliant on surface attachment to particles or colloids. Additionally, evidence increases that chemoautotrophy might represent a significant CO2 sink and source of primary production in the dark ocean. Recent advances challenge the paradigm of stable microbial food web structure and function and slow organic-matter cycling.However, knowledge of deep-ocean food webs is still rudimentary. Dynamics of particle transformation and fate of the exported material in deep waters are still largely unknown.Discrepancies exist between estimates of carbon fluxes and remineralization rates.Recent assessments, however, suggest that integrated respiration in the dark ocean’s water column is comparable to that in the epipelagic zone, and that the dark ocean is a site of paramount importance for material cycling in the biosphere.The advent of new molecular tools and in situ sampling methodologies will improve knowledge of the dark ocean’s microbial ecosystem and resolve current discrepancies between carbon sources and metabolic requirements of deep-sea microbes.
ISBN: 243590
ISSN: 0024-3590
DOI: 10.4319/lo.2009.54.5.1501
Source: Limnology And Oceanography [ISSN 0024-3590], v. 54 (5), p. 1501-1529
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