Sedimentary organic matter preservation; a test for selective degradation under oxic conditions

Hedges, John I.; Hu, Feng Sheng; Devol, Allan H.; Hartnett, Hilairy E.; Tsamakis, Elizabeth; Keil, Richard G.

doi:10.2475/ajs.299.7-9.529

Cited by 309 publications

(237 citation statements)

References 82 publications

(89 reference statements)

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“…Cowie and Hedges, 1994), the clearest signal shown by all three parameters is that in both the Yokosuka and Goa transects, which extend below the OMZ, there is a consistent trend towards a greater degree of alteration that parallels the increase in DO levels from ∼ 1000 m near the base of the OMZ to the maximum sampling depth of 2056 m. Thus, the lower %C org values observed below the OMZ appear to be linked to increasing extent of OM decay, as previously observed on the Pakistan margin (Vandewiele et al, 2009), which can be linked to a progressive rise in O 2 exposure time (e.g. Hartnett et al, 1998;Hedges et al, 1999).…”

Section: Organic Matter Preservationsupporting

confidence: 70%

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Comparative organic geochemistry of Indian margin (Arabian Sea) sediments: estuary to continental slope

et al. 2014

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Abstract. Surface sediments from sites across the Indian margin of the Arabian Sea were analysed for their elemental and stable isotopic organic carbon (C org ) and total nitrogen compositions, grain size distributions and biochemical indices of organic matter (OM) source and/or degradation state. Site locations ranged from the estuaries of the Mandovi and Zuari rivers to depths of ∼ 2000 m on the continental slope, thus spanning nearshore muds and sands on the shelf and both the oxygen minimum zone (OMZ) on the upper slope (∼ 200-1300 m) and the seasonal hypoxic zone that appears on the shelf. Source indices showed mixed marine and terrigenous OM within the estuaries, but consistent predominance (80-100 %) of marine OM on the shelf and slope. Thus, riverine terrigenous OM is diluted or replaced by autochthonous marine OM and/or is efficiently re-mineralised, within or immediately offshore of the estuaries. Organic C contents of surface shelf sediments varied from < 0.5 wt % in relict shelf sands to up to ∼ 4 wt % for nearshore muds, while upper slope sites within the OMZ showed a wide range (∼ 2 to 7 + wt %), progressively decreasing below the OMZ to ≤ 1 wt % at 2000 m. Thus, major variability (∼ 5 wt %) was found at slope sites within the OMZ of similar depth and near-identical bottom-water O 2 concentrations. A strong relationship between %C org and sediment grain size was seen for sediments within the OMZ, but lower relative C org contents were found for sites on the shelf and below the OMZ. Further, C org loadings, when related to estimated sediment surface area, indicated distinct enrichment of C org in the OMZ sediments relative to sites above and below the OMZ and to sediments from normoxic margins. Diagenetic indices confirmed that lower C org content below the OMZ is associated with more extensive OM degradation, but that shelf sediment OM is not consistently more degraded than that found within the OMZ. Together, the results indicate that OM distribution across the margin is controlled by interplay between hydrodynamic processes and varying preservation associated with O 2 availability. This inference is supported by multiple regression analysis. Hydrodynamic processes (expressed as %Silt) followed by O 2 availability, can explain the large majority of %C org variability when the shelf and slope are considered as a whole. However, while O 2 becomes the primary influence on %C org for sediments below the OMZ, %Silt is the primary influence across the OMZ and, apparently, the shelf. Thus, reduced O 2 exposure is responsible for OM enrichment within the OMZ, but hydrodynamic processes are the overriding control on sediment OM distributions across both the shelf and the OMZ.

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Section: Organic Matter Preservationsupporting

confidence: 70%

“…Rather, these trends are due to increasing decay with longer O 2 exposure, as concluded previously for several other margins, such as off Washington, Mexico and Pakistan (e.g. Hartnett et al, 1998;Hedges et al, 1999;Vandewiele et al, 2009).…”

Section: Organic Matter Preservationsupporting

confidence: 65%

Comparative organic geochemistry of Indian margin (Arabian Sea) sediments: estuary to continental slope

et al. 2014

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“…Besides large distances on the microbial scale, one major factor that might influence the selection of different communities is the differing amounts of carbon resources at our sites. Puget Sound sediment has more carbon, which is also less degraded than is Washington margin sediment carbon (18). Furthermore, among the Washington margin sites, the amount of carbon decreases with greater distance from shore (26).…”

Section: Discussionmentioning

confidence: 98%

Community Structure of Denitrifiers, Bacteria , and Archaea along Redox Gradients in Pacific Northwest Marine Sediments by Terminal Restriction Fragment Length Polymorphism Analysis of Amplified Nitrite Reductase ( nirS ) and 16S rRNA Genes

Braker

Ayala-del-Rı́o

Devol

et al. 2001

Appl Environ Microbiol

240

168

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“…Hedges et al (1999) stated that oxic degradation should be more appropriately viewed as a set of as yet unknown processes which characteristically prevail under sedimentary conditions where O 2 is present, as opposed to a specific mechanism that directly involves molecular oxygen.…”

Section: Role Of Oxygen In This Environmentmentioning

confidence: 99%

Biogeochemistry of fatty acids in a river-dominated Mediterranean ecosystem (Rhône River prodelta, Gulf of Lions, France): Origins and diagenesis

Pruski

Buscail

Bourgeois

et al. 2015

Organic Geochemistry

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Major rivers transfer high loads of continental particulate organic matter to deltaic environments, where the impact on the biogeochemistry and productivity of coastal sediments depends on the sources and lability of these inputs. Our aims are to provide new insights into the reactivity of riverine inputs in coastal environments and to delineate the parameters controlling their fate in these dynamic systems. Sediment cores were collected from a Mediterranean deltaic system (the Rhône prodelta and its adjacent shelf) during a period of moderate river discharge (Spring 2007) and analyzed for their fatty acid composition. Sediment properties were also described using biochemical bulk analyses (organic carbon and lipids), granulometry and profiles of redox potential. Based on the bulk compositional changes and hierarchical clustering of the fatty acid biomarkers, we determined the principal sources of organic matter and their spatial distribution.Fatty acids were primarily of continental origin in the prodelta, shifting to a higher contribution from marine sources in the shelf area. Fatty acids derived from both continental and marine sources were efficiently degraded in the sediments by microbial decay processes in the upper oxic layer. Degradation rate constants calculated from the down-core decreases in concentrations indicate that fatty acid degradation was enhanced in sediments influenced by the Rhône River.The most important parameters affecting fatty acid preservation were the inherent stability of individual molecular components and their physical association with mineral matrices, the source and freshness of the inputs, and the depositional environment (redox condition, accumulation rates).3

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Sedimentary organic matter preservation; a test for selective degradation under oxic conditions

Cited by 309 publications

References 82 publications

Comparative organic geochemistry of Indian margin (Arabian Sea) sediments: estuary to continental slope

Comparative organic geochemistry of Indian margin (Arabian Sea) sediments: estuary to continental slope

Community Structure of Denitrifiers, Bacteria , and Archaea along Redox Gradients in Pacific Northwest Marine Sediments by Terminal Restriction Fragment Length Polymorphism Analysis of Amplified Nitrite Reductase ( nirS ) and 16S rRNA Genes

Biogeochemistry of fatty acids in a river-dominated Mediterranean ecosystem (Rhône River prodelta, Gulf of Lions, France): Origins and diagenesis

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