Sources and preservation of sedimentary organic matter in the Southern Bohai Sea and the Yellow Sea: Evidence from lipid biomarkers

Lin, Tian; Wang, Lifang; Chen, Yingjun; Tian, Chongguo; Pan, Xiaohui; Tang, Jianhui

doi:10.1016/j.marpolbul.2014.07.017

Cited by 13 publications

(5 citation statements)

References 52 publications

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“…TOC contents in the BHS sediments (0.20–1.04%) are within the ranges previously reported for the sea (Gao et al, ; Li et al, ; Sun et al, ), while TOC mean (0.62 ± 0.20%) in this study is markedly higher than that (0.25–0.45%) reported by previous authors (Hu et al, ; Lin et al, ; D. Liu et al, ; Qin et al, ). This is probably due to the fact that more samples in this study were from areas with higher clay fractions delineated by Hu et al () because OC is usually enriched in fine‐grained fractions as demonstrated by a good positive correlation ( R 2 = 0.48, p < 0.01) between the percentages of clay fraction and TOC contents in this study (Figure a) and also in many other studies (Poulton & Raiswell, ; Roy et al, ; Zhu et al, ).…”

Section: Discussionsupporting

confidence: 86%

“…TOC contents in the BHS sediments (0.20-1.04%) are within the ranges previously reported for the sea (Gao et al, 2013;Sun et al, 2018), while TOC mean (0.62 ± 0.20%) in this study is markedly higher than that (0.25-0.45%) reported by previous authors (Hu et al, 2009;Lin et al, 2014;D. Liu et al, 2015;Qin et al, 2011).…”

Section: Control Of Toc and Fe T By Fine-grained Fractions And Dilutisupporting

confidence: 85%

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Reactive Iron and Iron‐Bound Organic Carbon in Surface Sediments of the River‐Dominated Bohai Sea (China) Versus the Southern Yellow Sea

et al. 2019

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Factors influencing reactive Fe cycling and its protection of organic carbon (OC) in sediments are poorly understood. Here we comparatively study Fe speciation and Fe‐associated OC (Fe‐OC) in surface sediments of the Bohai Sea (BHS) and southern Yellow Sea (SYS), two seas with common sediment sources but different depositional regimes. Though significant sequestration of highly reactive Fe (FeHR) is expected in the estuarine system stream from the river‐dominated BHS, this pool is, however, slightly enriched in the BHS sediments relative to their source material. This reconfirms a previous speculation of sedimentary FeHR enrichment in semi‐protected settings. Relative to the BHS, the SYS sediments are depleted of FeHR, despite common sediment sources of these two areas. Estuarine pre‐enrichment and subsequent redistribution of FeHR in the BHS, and aging of Fe‐bearing authigenic clays during transport from the BHS to the SYS are potential mechanisms for the depletion. The fractions (fFe‐OC) of Fe‐OC in total OC in sediments of the two seas are at the lower end for soils and sediments, indicating Fe being a minor “rusty sink.” 13CFe‐OC fractionations indicate preferential sequestration of terrestrial OC by Fe oxides in the BHS, in contrast with preferential retention of marine OC in the SYS. Different fractionations of 13CFe‐OC in the two seas are a net result of selective adsorption of OC by Fe oxides and selective stabilization of OC during Fe reductive dissolution. Preferential sequestration of terrestrial OC may exert an important influence on distribution and compositions of OC buried in the river‐dominated system.

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Section: Discussionsupporting

confidence: 86%

Section: Control Of Toc and Fe T By Fine-grained Fractions And Dilutisupporting

confidence: 85%

Reactive Iron and Iron‐Bound Organic Carbon in Surface Sediments of the River‐Dominated Bohai Sea (China) Versus the Southern Yellow Sea

et al. 2019

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“…This result is unique compared with previous findings in other ocean areas [Riegman et al, 2003;Wang et al, 2010]. According to the current analysis, this may be related to the large accumulation of organic matter [Lin et al, 2014] in the bottom waters during winter, which support the growth of abundant heterotrophic bacteria and virioplankton. Additionally, owing to the influence of the Yellow Sea Warm Current in winter, there is significant water exchange in this area, which greatly changes the ecological environment and brings warm and saline water towards Bohai Sea [Xu et al, 2009]; thus, the abundances of heterotrophic bacteria and virioplankton are greatly changed.…”

Section: Variation In the Vertical Distribution Of Virioplankton And ...contrasting

confidence: 49%

Macroscale distribution of virioplankton and heterotrophic bacteria in the Bohai Sea

Wang

Paterson

et al. 2016

FEMS Microbiology Ecology

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In light of limited research into the relationship between the macroscale distribution and dynamic changes of microplankton in the shallow Bohai Sea, here we used flow cytometry to analyse samples collected from the Bohai Sea channel in winter and summer. Results showed that the average of both viral abundance (VA) and bacterial abundance (BA) were lower in winter (3.61 × 10(7) and 1.84 × 10(6) cells/mL, respectively) than in summer (7.47 × 10(7) and 5.05 × 10(6) cells/mL, respectively). At all 16 stations, VA was one order of magnitude greater than BA, with a positive relationship between one another. In the horizontal distribution, variations in VA and BA followed a similar trend, and both were obviously higher near-shore than offshore. In the vertical distribution, variations in both VA and BA did not show a clear relationship with water depth. VA and BA in summer were 2.1 and 2.7 times those in winter, respectively. Spearman correlation analysis showed that both VA and BA were correlated with the concentration of PO4-P in winter (positive) and NO3-N in summer (negative). Additionally, BA showed a negative correlation with salinity. It is clear that the macroscale distribution of these two kinds of microbes in the Bohai Sea is related to seasonal variation and nutrient availability.

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“…This eutrophication has resulted in frequent harmful algal blooms and the development of low oxygen environments near the sea floor (Shan et al, 2013). The YR is a massive source of terrestrial organic carbon, but there are only limited data on organic matter distribution and origin in sediments near the YR mouth and in the adjacent shallow Bohai and Yellow Seas, although they constitute a major carbon sink of global significance (Hu et al, 2009;Lin et al, 2014). Whereas Hu et al (2009) studied the OM distribution in the BS and noted that the YR delta and fore-delta are the main carbon sinks, there is yet no relative estimate of the proportions of allochthonous (terrigenous) and autochthonous (marine phytoplankton) material in the sediments, and little information is available on the isotopic composition of sedimentary nitrogen that would shed light on dominant nitrogen sources.…”

Section: Introductionmentioning

confidence: 99%

Distribution and sources of organic matter in surface sediments of Bohai Sea near the Yellow River Estuary, China

Chen

Emeis

et al. 2015

Estuarine, Coastal and Shelf Science

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a b s t r a c tTotal organic carbon (TOC) and total nitrogen (TN) concentrations and C and N stable isotope compositions in 64 surface sediment samples from the mouth of the Yellow River (YR) and from the Bohai Sea (BS) outline the distribution and sources (terrestrial and marine) of sediment organic matter. Comparatively high TOC (0.5e0.9%) and TN (0.07e0.11%) concentrations in the Central BS correlate with finegrained sediments that contain high concentrations of algal-derived organic carbon (AOC) and biogenic silica (BSi). Together, they indicate a dominant contribution of autochthonous organic matter from marine primary production. Low TOC (<0.2%) and TN (<0.03%) contents characterize surface sediments in the Bohai Strait and are typically associated with coarse-grained sediments of low AOC and BSi contents. 15 N values are in the typical range of marine organic matter produced from assimilation of marine nitrate by phytoplankton (5e5.5‰), but some relatively high values (6e7.28‰) mark the southern area of the Laizhou Bay as a significant sink of anthropogenic nitrogen.

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Sources and preservation of sedimentary organic matter in the Southern Bohai Sea and the Yellow Sea: Evidence from lipid biomarkers

Cited by 13 publications

References 52 publications

Reactive Iron and Iron‐Bound Organic Carbon in Surface Sediments of the River‐Dominated Bohai Sea (China) Versus the Southern Yellow Sea

Reactive Iron and Iron‐Bound Organic Carbon in Surface Sediments of the River‐Dominated Bohai Sea (China) Versus the Southern Yellow Sea

Macroscale distribution of virioplankton and heterotrophic bacteria in the Bohai Sea

Distribution and sources of organic matter in surface sediments of Bohai Sea near the Yellow River Estuary, China

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