LIU Sai, HUANG Jiansheng, YANG Qian, YANG Shu, YANG Guipeng, SUN Yao. Burial fluxes and source apportionment of carbon in culture areas of Sanggou Bay over the past 200 years[J]. Acta Oceanologica Sinica, 2015, 34(10): 23-30. doi: 10.1007/s13131-015-0724-6
Citation: LIU Sai, HUANG Jiansheng, YANG Qian, YANG Shu, YANG Guipeng, SUN Yao. Burial fluxes and source apportionment of carbon in culture areas of Sanggou Bay over the past 200 years[J]. Acta Oceanologica Sinica, 2015, 34(10): 23-30. doi: 10.1007/s13131-015-0724-6

Burial fluxes and source apportionment of carbon in culture areas of Sanggou Bay over the past 200 years

doi: 10.1007/s13131-015-0724-6
  • Received Date: 2014-07-16
  • Rev Recd Date: 2014-10-24
  • In this study, we assessed the burial fluxes and source appointment of different forms of carbon in core sediments collected from culture areas in the Sanggou Bay, and preliminarily analyzed the reasons for the greater proportion of inorganic carbon burial fluxes (BFTIC). The average content of total carbon (TC) in the Sanggou Bay was 2.14%. Total organic carbon (TOC) accounted for a small proportion in TC, more than 65% of which derived from terrigenous organic carbon (Ct), and while the proportion of marine-derived organic carbon (Ca) increased a significantly since the beginning of large-scale aquaculture. Total inorganic carbon (TIC) accounted for 60%-75% of TC, an average of which was 60%, with a maximum up to 90% during flourishing periods (1880-1948) of small natural shellfish derived from seashells inorganic carbon (Shell-IC). The TC burial fluxes ranged from 31 g/(m2·a) to 895 g/(m2·a) with an average of 227 g/(m2·a), which was dominated by TIC (about 70%). Shell-IC was the main source of TIC and even TC. As the main food of natural shellfish, biogenic silica (BSi) negatively correlated with BFTIC through affecting shellfish breeding. BFTIC of Sta. S1, influenced greatly by the Yellow Sea Coastal Current, had a certain response to Pacific Decadal Oscillation (PDO) in some specific periods.
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  • Berner R A. 1982. Burial of organic carbon and pyrite sulfur in the modern ocean; its geochemical and environmental signific-ance. American Journal of Science, 282(4): 451-473
    Bhushan R, Dutta K, Somayajulu B L K. 2001. Concentrations and burial fluxes of organic and inorganic carbon on the eastern margins of the Arabian Sea. Marine Geology, 178(1): 95-113
    Chen Bin, Hu Limin, Deng Shenggui, et al. 2011. Organic carbon in surface sediments of the Bohai Bay, China and its contribution to sedimentation. Marine Geology & Quaternary Geology (in Chinese), 31(5): 37-42
    China's Gulf Compilation Committee. 1991. The Gulf of China (in
    Chinese). Volume 3. Beijing: China Ocean Press, 377-424
    Dahlbäck B, Gunnarsson L Å H. 1981. Sedimentation and sulfate re-
    duction under a mussel culture. Marine Biology, 63(3): 269-275 Dean W E. 1999. The carbon cycle and biogeochemical dynamics in lake sediments. Journal of Paleolimnology, 21(4): 375-393
    de Haas H, van Weering T C E, de Stigter H. 2002. Organic carbon in shelf seas: sinks or sources, processes and products. Continent-al Shelf Research, 22(5): 691-717
    DeMaster D J, McKee B A, Nittrouer C A, et al. 1985. Rates of sedi-ment reworking at the Hebble site based on measurements of 234Th, 137Cs and 210Pb. Marine Geology, 66(1-4): 133-148
    Deng Bing, Zhang Jing, Wu Ying. 2006. Recent sediment accumula-tion and carbon burial in the East China Sea. Global Biogeo-chemical Cycles, 20(3): GB3014
    Deser C, Alexander M A, Timlin M S. 1996. Upper-ocean thermal variations in the North Pacific during 1970-1991. Journal of Cli-mate, 9(8): 1840-1855
    Farrell J W, Prell W L. 1989. Climatic change and CaCO3 preservation: an 800,000 year bathymetric reconstruction from the central equatorial Pacific Ocean. Paleoceanography, 4(4): 447-466
    Fu Mingzhu, Pu Xinming, Wang Zongling, et al. 2013. Integrated as-sessment of mariculture ecosystem health in Sanggou Bay. Acta Ecologica Sinica (in Chinese), 33(1): 238-248
    Gao Xuelu, Chen Shaoyong, Ma Fujun, et al. 2008a. Distribution and source characteristics of carbon and nitrogen and their burial fluxes in two core sediments from western Nansha Islands sea area. Journal of Tropical Oceanography (in Chinese), 27(3): 38-44
    Gao Xuelu, Song Jinming, Li Xuegang, et al. 2008b. A review of the major progress on carbon cycle researches in the Chinese mar-ginal seas and the analysis of the key influence factors. Marine Sciences (in Chinese), 32(3): 83-90
    Giles H, Pilditch C A, Bell D G. 2006. Sedimentation from mussel (Perna canaliculus) culture in the Firth of Thames, New Zeal-and: Impacts on sediment oxygen and nutrient fluxes. Aquacul-ture, 261(1): 125-140
    Goñi M A, O'Connor A E, Kuzyk Z Z, et al. 2013. Distribution and sources of organic matter in surface marine sediments across the North American Arctic margin. Journal of Geophysical Re-search: Oceans, 118(9): 4017-4035
    Guo Zhigang, Yang Zuosheng, Qu Yanhui, et al. 1999. Distribution pattern of carbon storage in the surficial sediments in the middle continental shelf mud area and its adjoining East China Sea areas. Oceanologia et Limnologia Sinica (in Chinese), 30(4): 421-426
    Hu Limin. 2010. Sources and sinks of sedimentary organic matter in the rive-dominated continental shelves: a case study in the Bo-hai and Yellow Sea (in Chinese) [dissertation]. Qingdao: Ocean University of China, 142
    Ingall E, Jahnke R. 1994. Evidence for enhanced phosphorus regener-ation from marine sediments overlain by oxygen depleted wa-ters. Geochimica et Cosmochimica Acta, 58(11): 2571-2575
    Jia Guodong, Peng Ping'an, Fu Jiamo. 2002. Sedimentary records of accelerated eutrophication for the last 100 years at the Pearl River estuary. Quaternary Sciences (in Chinese), 22(2): 158-165
    Jiménez-Montealegre R, Verdegem M C J, Van Dam A A, et al. 2005. Effect of organic nitrogen and carbon mineralization on sedi-ment organic matter accumulation in fish ponds. Aquaculture Research, 36(10): 983-995
    Kaspar H F, Gillespie P A, Boyer I C, et al. 1985. Effects of mussel aquaculture on the nitrogen cycle and benthic communities in Kenepuru Sound, Marlborough Sounds, New Zealand. Marine Biology, 85(2): 127-136
    Li Fengye. 1993. Modern sedimentation rates and sedimentation fea-ture in the Huanghe River Estuary based on 210Pb technique. Chinese Journal of Oceanology and Limnology, 11(4): 333-342
    Li Xuejie, Duan Weiwu, Wei Guoyan, et al. 1997. Carbonate cycles of the last 20 ka in the northern and western South China Sea and their paleooceanographic significance. Marine Geology & Qua-ternary Geology (in Chinese), 17(2): 9-20
    Li Xuegang, Song Jinming. 2004. Sources, removal and transforma-tion of carbon in marine sediments. Studia Marina Sinica (in Chinese), 46: 106-117
    Li Xuegang, Yuan Huamao, Li Ning, et al. 2008. Organic carbon source and burial during the past one hundred years in Jiaozhou Bay, North China. Journal of Environmental Sciences, 20(5): 551-557
    Liu Dongyan, Shen Xuhong, Wang Yujue, et al. 2012. Tracking the sources of organic matter in the surface sediments of Sishili Bay, northern Yellow Sea and the environmental implication. Haiyang Xuebao (in Chinese), 34(5): 205-212
    Macdonald R W, Thomas D J. 1991. Chemical interactions and sedi-ments of the western Canadian arctic shelf. Continental Shelf Research, 11(8-10): 843-863
    Meyers P A. 1994. Preservation of elemental and isotopic source iden-tification of sedimentary organic matter. Chemical Geology, 144(3-4): 289-302
    Mortlock R A, Froelich P N. 1989. A simple method for the rapid de-termination of biogenic opal in pelagic marine sediments.Deep-Sea Research Part A: Oceanographic Research Papers, 36(9): 1415-1426
    Perdue E M, Koprivnjak J-F. 2007. Using the C/N ratio to estimate ter-rigenous inputs of organic matter to aquatic environments. Es-tuarine, Coastal and Shelf Science, 73(1-2): 65-72
    Qian Junlong, Wang Sumin, Xue Bin, et al. 1997. A method of quantit-ative estimating terrestrial organic carbon in lake sedimenta-tion research. Chinese Science Bulletin (in Chinese), 42(15): 1655-1657
    Skogen M D, Moll A. 2000. Interannual variability of the North Sea primary production: comparison from two model studies. Con-tinental Shelf Research, 20(2): 129-151
    Song Jinming. 2011. Carbon cycling processes and carbon fixed by or-ganisms in China marginal seas. Journal of Fishery Sciences of China (in Chinese), 18(3): 703-711
    Steeby J A, Hargreaves J A, Tucker C S, et al. 2004. Accumulation, or-ganic carbon and dry matter concentration of sediment in com-mercial channel catfish ponds. Aquacultural Engineering, 30(3-4): 115-126
    Sun Yunming, Song Jinming. 2002. Functions of china marginal sea sediments in the cycles of biogenic elements. Marine Environ-mental Science (in Chinese), 21(1): 26-33
    Tesi T, Langone L, Giani M, et al. 2013. Source, diagenesis, and fluxes of particulate organic carbon along the western Adriatic Sea (Mediterranean Sea). Marine Geology, 337: 156-170
    Van Weering T C E, Hall I R, de Stigter H C, et al. 1998. Recent sedi-ments, sediment accumulation and carbon burial at Goban Spur, N.W. European Continental Margin (47-50°N). Progress in Oceanography, 42(1-4): 5-35
    Walsh J J. 1991. Importance of continental margins in the marine biogeochemical cycling of carbon and nitrogen. Nature, 350(6313): 53-55
    Yang Qian, Song Xianli, Sun Yao. 2012. The source of total organic carbon in recent sediments of the East China Sea and the Huanghai Sea and implications for phytoplankton population reconstructions. Haiyang Xuebao (in Chinese), 34(4): 188-194
    Yang Qian, Sun Yao, Wang Didi, et al. 2010. Biogenic silica distribu-tions in recent sediments of the East China Sea and the Huang-hai Sea and implications for productivity reconstructions. Haiy-ang Xuebao (in Chinese), 32(3): 51-59
    Yang Xiuqun, Zhu Yimin, Xie Qian, et al. 2004. Advances in studies of Pacific Decadal Oscillation. Chinese Journal of Atmospheric Sciences (in Chinese), 28(6): 979-992
    Ye Xiang, Chen Jian, Wang Aijun, et al. 2011. Sources, burial fluxes of Carbon in sediments of the western Taiwan Strait. Haiyang Xuebao (in Chinese), 33(5): 73-82
    Zhang Jihong, Hansen P K, Fang Jianguang, et al. 2009. Assessment of the local environmental impact of intensive marine shellfish and seaweed farming—Application of the MOM system in the Sungo Bay, China. Aquaculture, 287(3-4): 304-310
    Zhang Jiangyong, Peng Xuechao, Zhang Yulan, et al. 2011. Distribu-tion of carbonate content in surface sediment from north of Zhongsha islands to northern slope in the South China Sea. Tropical Geography (in Chinese), 31(2): 125-132
    Zeng Cheng. 2010. Distinguishing the source of lacustrine inorganic carbonates: a critique. Journal of Salt Lake Research (in Chinese), 18(4): 1-5
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