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Elemental, isotopic, and spectroscopic assessment of chemical fractionation of dissolved organic matter sampled with a portable reverse osmosis system.

Author(s): Ouellet A, Catana D, Plouhinec JB, Lucotte M, Gélinas Y

Environ Sci Technol. 2008 Apr 01;42(7):2490-5 Authors: Ouellet A, Catana D, Plouhinec JB, Lucotte M, Gélinas Y

Article GUID: 18504986
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Article GUID: 27267724
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Author(s): Hénault-Ethier L, Martin VJ, Gélinas Y

Waste Manag. 2016 Oct;56:88-99 Authors: Hénault-Ethier L, Martin VJ, Gélinas Y

Article GUID: 27499290
Food-Web Complexity in Guaymas Basin Hydrothermal Vents and Cold Seeps.

Author(s): Portail M, Olu K, Dubois SF, Escobar-Briones E, Gelinas Y, Menot L, Sarrazin J

PLoS One. 2016;11(9):e0162263 Authors: Portail M, Olu K, Dubois SF, Escobar-Briones E, Gelinas Y, Menot L, Sarrazin J

Article GUID: 27683216
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Author(s): Barber A, Brandes J, Leri A, Lalonde K, Balind K, Wirick S, Wang J, Gélinas Y

Sci Rep. 2017 03 23;7(1):366 Authors: Barber A, Brandes J, Leri A, Lalonde K, Balind K, Wirick S, Wang J, Gélinas Y

Article GUID: 28336935
Differences in Riverine and Pond Water Dissolved Organic Matter Composition and Sources in Canadian High Arctic Watersheds Affected by Active Layer Detachments.

Author(s): Wang JJ, Lafrenière MJ, Lamoureux SF, Simpson AJ, Gélinas Y, Simpson MJ

Environ Sci Technol. 2018 Feb 06;52(3):1062-1071 Authors: Wang JJ, Lafrenière MJ, Lamoureux SF, Simpson AJ, Gélinas Y, Simpson MJ

Article GUID: 29301070
Title:Elemental, isotopic, and spectroscopic assessment of chemical fractionation of dissolved organic matter sampled with a portable reverse osmosis system.
Authors:Ouellet ACatana DPlouhinec JBLucotte MGélinas Y
Link:https://www.ncbi.nlm.nih.gov/pubmed/18504986?dopt=Abstract
DOI:10.1021/es702523w
Category:Environ Sci Technol
PMID:18504986
Dept Affiliation: CHEMBIOCHEM
1 GEOTOP and Department of Chemistry and Biochemistry, Concordia University, 7141 Sherbrooke Street West, Montreal, Quebec, Canada.

Description:

Elemental, isotopic, and spectroscopic assessment of chemical fractionation of dissolved organic matter sampled with a portable reverse osmosis system.

Environ Sci Technol. 2008 Apr 01;42(7):2490-5

Authors: Ouellet A, Catana D, Plouhinec JB, Lucotte M, Gélinas Y

Abstract

Portable reverse osmosis (RO) systems are increasingly being used for isolating dissolved organic matter (DOM) from freshwater aquatic systems because of their high volume processing capacity and high absolute DOM recoveries. However, obtaining complete recoveries implies the rinsing of the reverse osmosis system with a solution of dilute NaOH and combining the rinse solution and the DOM concentrate. Because of the potential chemical alterations that can affect the integrity of the organic pool leached from the RO system at high pHs, this approach is not compatible with studies based on the molecular-level analysis of DOM. The potential for elemental, isotopic, and chemical fractionation was thus evaluated on a series of freshwater DOM samples concentrated in the field with a portable RO system when the concentrate and the rinse solution are not combined. DOC recoveries in the concentrate varied between 81.6 and 88.8%, and total balance calculations showed total recoveries of dissolved and particulate organic carbon ranging between 96.4 and 106.9%. Despite similar delta13C signatures, differences in N content and FTIR-based chemical composition between the concentrate and the rinse DOM solutions suggest some degree of chemical fractionation.

PMID: 18504986 [PubMed - indexed for MEDLINE]