2016
DOI: 10.1002/2016gb005427
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Origins, seasonality, and fluxes of organic matter in the Congo River

Abstract: The Congo River in central Africa represents a major source of organic matter (OM) to the Atlantic Ocean. This study examined elemental (%OC, %N, and C:N), stable isotopic (δ 13 C and δ 15 N), and biomarker composition (lignin phenols) of particulate OM (POM) and dissolved OM (DOM) across the seasonal hydrograph. Even though the Congo exhibits an extremely stable intra-annual discharge regime, seasonal variability in OM composition was evident. DOM appears predominantly derived from vascular plant inputs with … Show more

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Cited by 70 publications
(111 citation statements)
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“…Interestingly, the high (Ad/Al) v ratios observed during the spring freshet period (Figure c) suggest that at this time of maximum DOM export the DOM may be highly degraded (Opsahl & Benner, ). Alternatively, the elevated (Ad/Al) v signature may be a reflection of the physical processes mobilizing the lignin into the dissolved phase, especially extensive leaching at this time of year (Hernes et al, ; Spencer et al, ).…”
Section: Discussionmentioning
confidence: 99%
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“…Interestingly, the high (Ad/Al) v ratios observed during the spring freshet period (Figure c) suggest that at this time of maximum DOM export the DOM may be highly degraded (Opsahl & Benner, ). Alternatively, the elevated (Ad/Al) v signature may be a reflection of the physical processes mobilizing the lignin into the dissolved phase, especially extensive leaching at this time of year (Hernes et al, ; Spencer et al, ).…”
Section: Discussionmentioning
confidence: 99%
“…Estimation of lignin biomarker fluxes to the Arctic Ocean has been previously used to calculate Arctic Ocean residence times for terrestrially derived DOM (Mann et al, ; Opsahl et al, ; Spencer et al, ). The diagnostic ratios derived from lignin phenols also provide source information, indicate processes such as phase changes and degradation, and have the ability to distinguish between woody and nonwoody, and angiosperm and gymnosperm sources (Hedges & Mann, ; Hernes et al, ; Spencer et al, ). In conjunction with lignin biomarker analyses, chromophoric DOM (CDOM)‐derived parameters have been utilized by a number of studies to assess DOM source and composition exported by Arctic rivers (Spencer et al, ; Stedmon et al, ; Walker et al, ).…”
Section: Introductionmentioning
confidence: 99%
“…Characterizing fractionation effects in lignin biomarkers has significantly improved interpretation of DOM and lignin parameters in various environments, explaining apparent degradation trends that previously were conundrums (Hernes et al, , 2013aSpencer et al, 2008Spencer et al, , 2016. Lignin fractionation studies to date have primarily consisted of snapshot measurements, in which dissolved and particulate lignin is allowed to reach equilibrium, then a single measurement of each is compared to assess the magnitude of fractionation (Hernes et al, , 2013a.…”
Section: Discussion Lignin Relativity As Demonstrated By Fractionatiomentioning
confidence: 99%
“…A recent emphasis on time-series sampling in the past decade, for example, has led to significant modifications in measurements of river fluxes and seasonally evolving DOM and POM compositions Spencer et al, 2010bSpencer et al, , 2016Ellis et al, 2012). However, there is a great need for parsing out in situ sources and processing of riverine OM vs. external inputs, and one potential approach could be to pair studies of concrete-lined aquaducts with nearby rivers to try to constrain the relative role of external vs. internal.…”
Section: Discussionmentioning
confidence: 99%
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