2018
DOI: 10.1038/s41561-018-0159-8
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Global-scale evidence for the refractory nature of riverine black carbon

Abstract: 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 (Δ 14C) of particulate black carbon for 18 rivers around the globe. We find that pa… Show more

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Cited by 139 publications
(185 citation statements)
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“…The storage of terrigenous DOC in the global oceans regulates atmospheric concentrations of CO 2 (Bauer et al, 2013;Bianchi, 2011), and DBC is a particularly pertinent fraction of this DOC because its chemical properties make it intrinsically resistant to degradation (Tranvik, 2018;Wagner et al, 2018). As part of this agenda it will be pivotal to develop a mechanistic understanding of the environmental factors that control the export of DBC across the land-to-ocean aquatic continuum (Coppola et al, 2018;Dittmar & Stubbins, 2014;Wagner et al, 2018). As part of this agenda it will be pivotal to develop a mechanistic understanding of the environmental factors that control the export of DBC across the land-to-ocean aquatic continuum (Coppola et al, 2018;Dittmar & Stubbins, 2014;Wagner et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…The storage of terrigenous DOC in the global oceans regulates atmospheric concentrations of CO 2 (Bauer et al, 2013;Bianchi, 2011), and DBC is a particularly pertinent fraction of this DOC because its chemical properties make it intrinsically resistant to degradation (Tranvik, 2018;Wagner et al, 2018). As part of this agenda it will be pivotal to develop a mechanistic understanding of the environmental factors that control the export of DBC across the land-to-ocean aquatic continuum (Coppola et al, 2018;Dittmar & Stubbins, 2014;Wagner et al, 2018). As part of this agenda it will be pivotal to develop a mechanistic understanding of the environmental factors that control the export of DBC across the land-to-ocean aquatic continuum (Coppola et al, 2018;Dittmar & Stubbins, 2014;Wagner et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…The recent realization that ignoring lateral fluxes of carbon from terrestrial to marine environments results in nontrivial errors in terrestrial carbon accounting, combined with evidence for the anthropogenic perturbation of the DOC export, has triggered a renewed focus on identifying the environmental factors that control its export, character, and fate (Battin et al, 2009;Cole et al, 2007;Raymond et al, 2016;Regnier et al, 2013). As part of this agenda it will be pivotal to develop a mechanistic understanding of the environmental factors that control the export of DBC across the land-to-ocean aquatic continuum (Coppola et al, 2018;Dittmar & Stubbins, 2014;Wagner et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…However, surprisingly, there appears to be no clear link between recent fire activity and DBC export among watersheds in various climatic regions and of differing sizes (Ding et al, ; Myers‐Pigg et al, ; Wagner et al, ). On the contrary, mobilization of PBC is enhanced in fire‐impacted watersheds (Moody & Martin, ; Pyle et al, ; Wagner et al, ), and rivers may be a significant contributor of PBC to coastal environments (Coppola et al, ; Leorri et al, ; Santín et al, ).…”
Section: Introductionmentioning
confidence: 99%
“…While the fluvial input from large rivers may be the dominant source of BC particles in the coastal zone (Mitra et al, 2002(Mitra et al, , 2014Mannino and Harvey, 2004;Coppola et al, 2018), atmospheric deposition is the most important source of openocean BC particles (Suman et al, 1997;Masiello and Druffel, 1998). On the global scale, it is estimated that the annual fluxes of BC particles to the ocean via the atmospheric and the river routes are 12 Tg BC yr −1 (Jurado et al, 2008) and 17-37 Tg BC yr −1 (Coppola et al, 2018), respectively. Therefore, the total annual flux of BC particles to the ocean may be on the order of 29-49 Tg BC yr −1 , with the major fraction entering in the coastal zone.…”
Section: Introductionmentioning
confidence: 99%