Keyword search (4,164 papers available)

"Gélinas Y" Authored Publications:

Title Authors PubMed ID
1 Lignin phenol abundances and ratios are modulated by their interactions with iron hydroxides in sediments Moritz A; Ezzati M; Gélinas Y; 41500137
CHEMBIOCHEM
2 Isolation of Marine Bacteria through a "Bait" Approach Pakseresht B; Schiffman Z; McLatchie S; Coulombe P; Soullane S; Imfeld A; Gélinas Y; Walsh D; Findlay B; 41297029
CHEMBIOCHEM
3 Insights from multiple stable isotopes (C, N, Cl) into the photodegradation of herbicides atrazine and metolachlor Levesque-Vargas M; Ohlund L; Sleno L; Gélinas Y; Höhener P; Ponsin V; 39716600
CHEMBIOCHEM
4 Isotopic and molecular analyses of n-alkanes in a temporal study of coastal sediment contributions to organic carbon degradation induced by algal bloom and terrestrial runoff Mirzaei Y; Douglas PMJ; Gélinas Y; 39700996
CHEMBIOCHEM
5 Investigating the kinetics of marine and terrestrial organic carbon incorporation and degradation in coastal bulk sediment and water settings through isotopic lenses Mirzaei Y; Gélinas Y; 39117203
CHEMBIOCHEM
6 Organic matter preservation through complexation with iron minerals in two basins of a dimictic boreal lake with contrasting deep water redox regimes Joshani A; Mirzaei Y; Barber A; Balind K; Gobeil C; Gélinas Y; 38499107
CHEMBIOCHEM
7 Using 13C enriched acetate in isotope labelling incubation experiments: a note of caution Leone F; Imfeld A; Mirzaei Y; Gélinas Y; 38097918
CHEMBIOCHEM
8 Deep ocean microbial communities produce more stable dissolved organic matter through the succession of rare prokaryotes LaBrie R; Péquin B; Fortin St-Gelais N; Yashayaev I; Cherrier J; Gélinas Y; Guillemette F; Podgorski DC; Spencer RGM; Tremblay L; Maranger R; 35857452
CHEMBIOCHEM
9 Pre- and post-industrial levels of polycyclic aromatic hydrocarbons in sediments from the Estuary and Gulf of St. Lawrence (eastern Canada) Corminboeuf A; Montero-Serrano JC; St-Louis R; Dalpé A; Gélinas Y; 34871900
CHEMBIOCHEM
10 Elemental, isotopic, and spectroscopic assessment of chemical fractionation of dissolved organic matter sampled with a portable reverse osmosis system. Ouellet A, Catana D, Plouhinec JB, Lucotte M, Gélinas Y 18504986
CHEMBIOCHEM
11 Anthropogenic and natural methane emissions from a shale gas exploration area of Quebec, Canada. Pinti DL, Gelinas Y, Moritz AM, Larocque M, Sano Y 27267724
CHEMBIOCHEM
12 Persistence of Escherichia coli in batch and continuous vermicomposting systems. Hénault-Ethier L, Martin VJ, Gélinas Y 27499290
BIOLOGY
13 Food-Web Complexity in Guaymas Basin Hydrothermal Vents and Cold Seeps. Portail M, Olu K, Dubois SF, Escobar-Briones E, Gelinas Y, Menot L, Sarrazin J 27683216
CHEMBIOCHEM
14 Preservation of organic matter in marine sediments by inner-sphere interactions with reactive iron. Barber A, Brandes J, Leri A, Lalonde K, Balind K, Wirick S, Wang J, Gélinas Y 28336935
CHEMBIOCHEM
15 Differences in Riverine and Pond Water Dissolved Organic Matter Composition and Sources in Canadian High Arctic Watersheds Affected by Active Layer Detachments. Wang JJ, Lafrenière MJ, Lamoureux SF, Simpson AJ, Gélinas Y, Simpson MJ 29301070
CHEMBIOCHEM

 

Title:Deep ocean microbial communities produce more stable dissolved organic matter through the succession of rare prokaryotes
Authors:LaBrie RPéquin BFortin St-Gelais NYashayaev ICherrier JGélinas YGuillemette FPodgorski DCSpencer RGMTremblay LMaranger R
Link:https://pubmed.ncbi.nlm.nih.gov/35857452/
DOI:10.1126/sciadv.abn0035
Publication:Science advances
Keywords:
PMID:35857452 Category: Date Added:2022-07-20
Dept Affiliation: CHEMBIOCHEM
1 Département des sciences biologiques, Université de Montréal, Pavillon MIL C. P. 6128, succ. Centre-ville, Montréal, QC H3C 3J7, Canada.
2 Groupe de recherche interuniversitaire en limnologie et environnement aquatique (GRIL), Université de Montréal, C. P. 6128, succ. Centre-ville, Montréal, QC H3C 3J7, Canada.
3 Department of Fisheries and Ocean Canada, Bedford Institute of Oceanography, 1 Challenger Dr., Dartmouth, NS B2Y 4A2, Canada.
4 Department of Earth and Environmental Sciences, Brooklyn College-The City University of New York, 2900 Bedford Avenue, Brooklyn, NY 11210, USA.
5 Geotop and Department of Chemistry and Biochemistry, Concordia University, 7141 Sherbrooke W., Montréal, QC H4B 1R6, Canada.
6 Département des sciences de l'environnement, Université du Québec à Trois-Rivières, 3351 Boulevard des Forges, Trois-Rivières, QC G8Z 4M3, Canada.
7 Pontchartrain Instit

Description:

The microbial carbon pump (MCP) hypothesis suggests that successive transformation of labile dissolved organic carbon (DOC) by prokaryotes produces refractory DOC (RDOC) and contributes to the long-term stability of the deep ocean DOC reservoir. We tested the MCP by exposing surface water from a deep convective region of the ocean to epipelagic, mesopelagic, and bathypelagic prokaryotic communities and tracked changes in dissolved organic matter concentration, composition, and prokaryotic taxa over time. Prokaryotic taxa from the deep ocean were more efficient at consuming DOC and producing RDOC as evidenced by greater abundance of highly oxygenated molecules and fluorescent components associated with recalcitrant molecules. This first empirical evidence of the MCP in natural waters shows that carbon sequestration is more efficient in deeper waters and suggests that the higher diversity of prokaryotes from the rare biosphere holds a greater metabolic potential in creating these stable dissolved organic compounds.





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