Cycling and Budgets of Organic and Black Carbon in Coastal Bohai Sea, China: Impacts of Natural and Anthropogenic Perturbations

Fang, Yin; Chen, Yingjun; Tian, Chongguo; Wang, Xiaoping; Lin, Tian; Hu, Limin; Li, Jun; Zhang, Gan; Luo, Yongming

doi:10.1029/2017gb005863

Cited by 28 publications

(59 citation statements)

References 59 publications

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“…1), which is also an important part of the East China Marginal Seas, the inputs of BC differed significantly from those in the coastal ECS. Atmospheric deposition and riverine discharge were of equal importance in delivering BC to the coastal Bohai Sea (Fang et al, 2015;Fang et al, 2018). The much higher percentage of BC from riverine discharge in the coastal ECS (~93%) than that in the coastal Bohai Sea (~50%) was primarily due to the overwhelmingly higher BC discharge from the Yangtze River (~485 Gg/yr) than from the Yellow River (~70 Gg/yr).…”

Section: A Preliminary Constrained Bc Budget In the Estuarine-inner Smentioning

confidence: 97%

“…The acid-treated sediment residues were diluted with Milli-Q water (18.2 MΩ•cm) and then filtered through pre-combusted (450°C, 4 h) quartz fibre filters (Whatman, 47 mm diameter, nominal pore size 0.7 μm). The filters loaded with sediment residues were airdried and analyzed for BC on a Desert Research Institute (DRI) Thermal/Optical Carbon Analyzer (Model 2001A) following the protocol of Interagency Monitoring of Protected Visual Environment (IMPROVE) (Fang et al, 2015;Fang et al, 2018). A punch of 0.544 cm 2 filter was delivered into an oven for carbon quantification.…”

Section: Bc Char and Soot Quantificationmentioning

confidence: 99%

“…Also, the large uncertainty in the burial flux of BC makes the BC budget poorly constrained. All these sources of uncertainty imply that continuous field observations and consistent BC quantification methods are essential steps for approaching a more reliable BC budget construction (Fang et al, 2018). Regional BC budgets have also been investigated in some other coastal areas, such as the coastal Bohai Sea (Fang et al, 2015), New England continental shelf (Gustafsson and Gschwend, 1998), Gulf of Maine (Flores-Cervantes et al, 2009), and Northern European shelf (Sánchez-García et al, 2012).…”

Section: A Preliminary Constrained Bc Budget In the Estuarine-inner Smentioning

confidence: 99%

“…Black carbon (BC) is defined as the aromatic carbonaceous byproduct generated from incomplete biomass burning or fossil fuels combustion (Coppola et al, 2018;Fang et al, 2018). It has recently received substantial attention due to its widely recognized key roles in a variety of biogeochemical processes, including regional and global carbon cycle, climate change, air quality, and public health (Ramanathan and Carmichael, 2008;Anenberg et al, 2012;Bird et al, 2015;Fang et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Large-river dominated black carbon flux and budget: A case study of the estuarine-inner shelf of East China Sea, China

Fang

Chen

et al. 2019

Science of The Total Environment

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Section: A Preliminary Constrained Bc Budget In the Estuarine-inner Smentioning

confidence: 97%

Section: Bc Char and Soot Quantificationmentioning

confidence: 99%

Section: A Preliminary Constrained Bc Budget In the Estuarine-inner Smentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Large-river dominated black carbon flux and budget: A case study of the estuarine-inner shelf of East China Sea, China

Fang

Chen

et al. 2019

Science of The Total Environment

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“…The NYS lies among the Shandong, Liaodong, and the Korean Peninsulas (Figure ), with an area of ~71,000 km 2 and a mean depth of ~38 m. This semienclosed marginal sea is connected to the Bohai Sea (BS) through a narrow strait, whereas it is more open to the SYS (Figure ) (Zhai et al, ). Influenced by the relatively intense land‐ocean interactions (Liu et al, ; Zhang et al, ), the NYS area receives a large amount of nutrients from rivers, including the Yalu and Taedong Rivers (Figure ); the materials from the Yellow River can also be transported to the NYS through the BS strait (Cheng et al, ; Fang et al, ). The hydrographic conditions of the NYS vary by season (Figure ).…”

Section: Methodsmentioning

confidence: 99%

Deoxygenation and Its Controls in a Semienclosed Shelf Ecosystem, Northern Yellow Sea

et al. 2019

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Deoxygenation is a global problem in open oceans and coastal regions and has led to the expansion of oxygen minimum zones and coastal hypoxia. Here, using time series observations in the northern Yellow Sea, we illustrate the seasonality of deoxygenation and associated mechanisms in this semienclosed shelf ecosystem and explore the linkage of dissolved oxygen (DO) declines with seawater warming and anthropogenic eutrophication. Our results show that the DO concentration displayed a decreasing trend in winter, with rates of~0.76 and~0.78 μmol kg −1 yr −1 in the surface and bottom waters, respectively. The rapid decline in DO was also observed in the bottom water in summer, with a decreasing rate of~1.43 μmol kg −1 yr −1 . In winter, when the water column is vertically homogeneous, the near saturation of DO indicates that physical mixing overwhelmed biological activities, and the estimated results and a linear correlation between DO concentration and temperature suggest that ocean warming is the most plausible driver of deoxygenation in this region in winter. In the stratified water column during summer, increased nutrient availability at the surface and consequently enhanced productivity are responsible for the drawdown of DO in the bottom layer, and the stoichiometric pattern between DO and nitrate also suggests a cascading linkage between the exacerbation of eutrophic conditions and bottom deoxygenation. Our results provide strong evidence that a rapid, semienclosed shelf-scale decline in DO is underway and highlight the necessity of nutrient reduction strategies in the future. Plain Language Summary Studying the deoxygenation and its drivers is important tounderstand the changing marine ecosystem. As an important semienclosed marginal shelf sea in the Northwest Pacific, the Yellow Sea (YS) is one of the world's 64 Large Marine Ecosystems. Due to the natural and anthropogenic stressors, the YS ecosystem has undergone drastic changes over the past decades. In this study, using the long-term monitoring data set in the northern YS (NYS), the deoxygenation and associated mechanisms in this semienclosed shelf ecosystem are examined in seasonality, and the linkage of dissolved oxygen declines with seawater warming and anthropogenic eutrophication is explored. The results imply that a rapid, semienclosed shelf-scale declining of dissolved oxygen is ongoing in the continental margin area, reflecting an alarming symptom of coastal environment degradation in the NYS. This work also offers a viewpoint of deoxygenation mechanisms in terms of seasonality in the multiple pressures-influenced margins, improving our understanding of the marine environmental responses to anthropogenic and natural perturbations.

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Temperature and nutrients alter the relative importance of stochastic and deterministic processes in the coastal macroinvertebrates biodiversity assembly on long‐time scales

Wan,

Fang,

Jiang

et al. 2024

Ecology and Evolution

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Macroinvertebrates play a vital role in coastal ecosystems and are an important indicator of ecosystem quality. Both anthropogenic activity and environmental changes may lead to significant changes in the marine macroinvertebrate community. However, the assembly process of benthic biodiversity and its mechanism driven by environmental factors at large scales remains unclear. Here, using the benthic field survey data of 15 years at large spatial and temporal scales from the Yellow Sea Large Marine Ecosystem, we investigated the relative importance of environmental selection, dispersal processes, random‐deterministic processes of macroinvertebrates community diversity assembly, and the responses of this relative importance driven by temperature and nutrients. Results showed that the macroinvertebrates community diversity is mainly affected by dispersal. Nitrogen and phosphorus are the most important negative factors among environmental variables, while geographical distance is the main limiting factor of β diversity. Within the range of 0.35–0.70 mg/L of nutrients, increasing nutrient concentration can significantly facilitate the contribution of the decay effect to β diversity. Within the temperature range studied (15.0–18.0°C), both warming and cooling can lead to a greater tendency for species diversity assembly processes to be dominated by deterministic processes. The analysis contributes to a better understanding of the assembly process of the diversity of coastal marine macroinvertebrates communities and how they adapt to global biogeochemical processes.

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Cycling and Budgets of Organic and Black Carbon in Coastal Bohai Sea, China: Impacts of Natural and Anthropogenic Perturbations

Cited by 28 publications

References 59 publications

Large-river dominated black carbon flux and budget: A case study of the estuarine-inner shelf of East China Sea, China

Large-river dominated black carbon flux and budget: A case study of the estuarine-inner shelf of East China Sea, China

Deoxygenation and Its Controls in a Semienclosed Shelf Ecosystem, Northern Yellow Sea

Temperature and nutrients alter the relative importance of stochastic and deterministic processes in the coastal macroinvertebrates biodiversity assembly on long‐time scales

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