Freymond Chantal V.

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Chantal V.

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  • Preprint
    Global-scale evidence for the refractory nature of riverine black carbon
    ( 2018-05) Coppola, Alysha I. ; Wiedemeier, Daniel B. ; Galy, Valier ; Haghipour, Negar ; Hanke, Ulrich ; Nascimento, Gabriela S. ; Usman, Muhammed ; Blattmann, Thomas M. ; Reisser, Moritz ; Freymond, Chantal V. ; Zhao, Meixun ; Voss, Britta M. ; Wacker, Lukas ; Schefuß, Enno ; Peucker-Ehrenbrink, Bernhard ; Abiven, Samuel ; Schmidt, Michael W. I. ; Eglinton, Timothy I.
    Wildfires and incomplete combustion of fossil fuel produce large amounts of black carbon. Black carbon production and transport are essential components of the carbon cycle. Constraining estimates of black carbon exported from land to ocean is critical, given ongoing changes in land use and climate, which affect fire occurrence and black carbon dynamics. Here, we present an inventory of the concentration and radiocarbon content (∆14C) of particulate black carbon for 18 rivers around the globe. We find that particulate black carbon accounts for about 15.8 ± 0.9% of river particulate organic carbon, and that fluxes of particulate black carbon co-vary with river-suspended sediment, indicating that particulate black carbon export is primarily controlled by erosion. River particulate black carbon is not exclusively from modern sources but is also aged in intermediate terrestrial carbon pools in several high-latitude rivers, with ages of up to 17,000 14C years. The flux-weighted 14C average age of particulate black carbon exported to oceans is 3,700 ± 400 14C years. We estimate that the annual global flux of particulate black carbon to the ocean is 0.017 to 0.037 Pg, accounting for 4 to 32% of the annually produced black carbon. When buried in marine sediments, particulate black carbon is sequestered to form a long-term sink for CO2.
  • Article
    Constraining instantaneous fluxes and integrated compositions of fluvially discharged organic matter
    (American Geophysical Union, 2018-06-07) Freymond, Chantal V. ; Lupker, Maarten ; Peterse, Francien ; Haghipour, Negar ; Wacker, Lukas ; Filip, Florin ; Giosan, Liviu ; Eglinton, Timothy
    Fluvial export of organic carbon (OC) and burial in ocean sediments comprises an important carbon sink, but fluxes remain poorly constrained, particularly for specific organic components. Here OC and lipid biomarker contents and isotopic characteristics of suspended matter determined in depth profiles across an active channel close to the terminus of the Danube River are used to constrain instantaneous OC and biomarker fluxes and integrated compositions during high to moderate discharges. During high (moderate) discharge, the total Danube exports 8 (7) kg/s OC, 7 (3) g/s higher plant‐derived long‐chain fatty acids (LCFA), 34 (21) g/s short‐chain fatty acids (SCFA), and 0.5 (0.2) g/s soil bacterial membrane lipids (brGDGTs). Integrated stable carbon isotopic compositions were TOC: −28.0 (−27.6)‰, LCFA: −33.5 (−32.8)‰ and Δ14C TOC: −129 (−38)‰, LCFA: −134 (−143)‰, respectively. Such estimates will aid in establishing quantitative links between production, export, and burial of OC from the terrestrial biosphere.