Particulate organic matter dynamics in coastal systems of the northern Beibu Gulf

Estuarine particle fluxes are an integral part of land-ocean-connectivity and influence coastal environmental conditions. In areas with strong anthropogenic impact they may contribute to coastal eutrophication. To investigate the particulate biogeochemistry of a human affected estuary, we sampled suspended, sedimentary and plant particulate matter along the land-ocean continuum from Nanliu River to Lianzhou Bay in southern China. Riverine particle fluxes exceed inputs from land based pond aquaculture. Elemental (C/N) and isotopic composition of particulate organic carbon (delta C-13) and total nitrogen (delta N-15) showed that suspended and sedimentary organic matter (OM) mainly derive from freshwater and marine phytoplankton, with minor contributions from terrestrial and aquaculture derived particles. Amino acid composition indicates subseasonal variability of production and freshness of phytoplankton OM. Strongest compositional changes of suspended particles are associated with storm-related extreme precipitation events, which introduce soil derived OM. High concentrations of chlorophyll a reflect eutrophic conditions in riverine and coastal waters. Human impact results in high delta N-15 signals in suspended, sedimentary and plant particulate matter. Using these in a comparison with two little affected sites shows that anthropogenic influence disperses from the Nanliu River to remote estuaries and mangrove areas. Our results suggest that autochthonous production binds anthropogenic nutrients in particles that are transported along the coast. (C) 2014 Elsevier Ltd. All rights reserved.

[1]  J. Syvitski,et al.  Impact of Humans on the Flux of Terrestrial Sediment to the Global Coastal Ocean , 2005, Science.

[2]  I. Valiela,et al.  Linking nitrogen in estuarine producers to land‐derived sources , 1998 .

[3]  S. Epstein,et al.  Two Categories of 13C/12C Ratios for Higher Plants , 1971 .

[4]  V. Ittekkot,et al.  Biogeochemistry of a tropical river affected by human activities in its catchment: Brantas River estuary and coastal waters of Madura Strait, Java, Indonesia , 2004 .

[5]  F. Mackenzie,et al.  Carbon inputs and distribution in estuaries of turbid rivers: the Yang Tze and Yellow rivers (China) , 1993 .

[6]  C. Heip,et al.  Linking diagenetic alteration of amino acids and bulk organic matter reactivity , 1999 .

[7]  V. Ittekkot,et al.  Fluxes of amino acids and hexosamines to the deep Arabian sea , 1992 .

[8]  M. Lehmann,et al.  Preservation of organic matter and alteration of its carbon and nitrogen isotope composition during simulated and in situ early sedimentary diagenesis , 2002 .

[9]  Lei Gao,et al.  Nutrients and particulate organic matter discharged by the Changjiang (Yangtze River): Seasonal variations and temporal trends , 2012 .

[10]  Yang Zuo-sheng,et al.  Transfer of particulate organic carbon and nitrogen from the Yangtze River to the ocean , 1984 .

[11]  Ting Sun,et al.  A water movement study in Lianzhou Bay, Guangxi Province, China , 2014, Journal of Ocean University of China.

[12]  Qinghua Zhu,et al.  Industrial Symbiosis in China: A Case Study of the Guitang Group , 2007 .

[13]  Bill Freedman,et al.  Potential Environmental Benefits from Increased Use of Bioenergy in China , 2007, Environmental management.

[14]  J. Middelburg,et al.  Amino acids and hexosamines as indicators of organic matter degradation state in North Sea sediments , 1998 .

[15]  Guanrong Yao,et al.  Elemental and isotopic signatures of particulate organic carbon in the Zengjiang River, southern China , 2007 .

[16]  Xixi Lu,et al.  The impacts of ‘05.6’ extreme flood event on riverine carbon fluxes in Xijiang River , 2007 .

[17]  V. Ittekkot,et al.  Relevance of mangroves for the production and deposition of organic matter along tropical continental margins , 2001, Naturwissenschaften.

[18]  Y. Zong,et al.  Bulk organic δ13C and C/N as indicators for sediment sources in the Pearl River delta and estuary, southern China , 2010 .

[19]  P. Richard,et al.  Chemical and isotopic composition of the organic matter sources in the Gulf of Gdansk (southern Baltic Sea) , 2000 .

[20]  P. Harrison,et al.  Inorganic and Organic Nitrogen Uptake by Phytoplankton and Bacteria in Hong Kong Waters , 2011, Estuaries and Coasts.

[21]  D. Brinkman,et al.  Organic carbon and nutrient fluxes to the coastal zone from the Sepik River outflow , 2008 .

[22]  P. Harrison,et al.  Nitrogen Sources and Rates of Phytoplankton Uptake in Different Regions of Hong Kong Waters in Summer , 2012, Estuaries and Coasts.

[23]  J. Vallino,et al.  Terrestrial inputs of organic matter to coastal ecosystems: An intercomparison of chemical characteristics and bioavailability , 1998 .

[24]  J. Middelburg,et al.  Carbon and nitrogen stable isotopes in suspended matter and sediments from the Schelde Estuary , 1998 .

[25]  J. Hedges,et al.  Organic matter sources to the water column and surficial sediments of a marine bay , 1988 .

[26]  S. Papadimitriou,et al.  The effect of acidification on the determination of organic carbon, total nitrogen and their stable isotopic composition in algae and marine sediment. , 2005, Rapid communications in mass spectrometry : RCM.

[27]  S. Costanzo,et al.  Using nitrogen stable isotope ratios (delta 15N) of macroalgae to determine the effectiveness of sewage upgrades: changes in the extent of sewage plumes over four years in Moreton Bay, Australia. , 2005, Marine pollution bulletin.

[28]  S. Costanzo,et al.  A new approach for detecting and mapping sewage impacts. , 2001, Marine pollution bulletin.

[29]  M. M. Bender Variations in the 13C/12C ratios of plants in relation to the pathway of photosynthetic carbon dioxide fixation , 1971 .

[30]  D. Robinson δ15N as an integrator of the nitrogen cycle , 2001 .

[31]  Eric D. Larson,et al.  Biomass energy in China and its potential , 2001 .

[32]  T. Jickells,et al.  Tracing estuarine organic matter sources into the southern North Sea using C and N isotopic signatures , 2013, Biogeochemistry.

[33]  G. Cowie,et al.  Sources and reactivities of amino acids in a coastal marine environment , 1992 .

[34]  M. Minagawa,et al.  Stable Carbon and Nitrogen Isotopic Characterization of Organic Matter in a Mangrove Ecosystem on the Southwestern Coast of Thailand , 2001 .

[35]  Yan Li,et al.  Multiparameter cluster analysis of seasonal variation of water masses in the eastern Beibu Gulf , 2011 .

[36]  S. M. Liu,et al.  Riverine Sources and Estuarine Fates of Particulate Organic Carbon from North China in Late Summer , 1998 .

[37]  X. D. D. Madron,et al.  Sediment dynamics during wet and dry storm events on the Têt inner shelf (SW Gulf of Lions) , 2006 .

[38]  A. Bouwman,et al.  Estimation of global river transport of sediments and associated particulate C, N, and P , 2005 .

[39]  W. Balsam,et al.  Seasonal Variation in the Mineralogy of the Suspended Particulate Matter of the Lower Changjiang River at Nanjing, China , 2010 .

[40]  P. Müller,et al.  Amino acids and amino sugars of surface particulate and sediment trap material from waters of the Scotia sea , 1986 .

[41]  J. Sharp,et al.  Biogeochemical factors that influence the stable nitrogen isotope ratio of dissolved ammonium in the Delaware Estuary , 1989 .

[42]  D. Unger,et al.  Effluent, nutrient and organic matter export from shrimp and fish ponds causing eutrophication in coastal and back-reef waters of NE Hainan, tropical China , 2013 .

[43]  S. Kempe,et al.  Biogeochemistry of major World rivers , 1990 .

[44]  H. Hong,et al.  Nitrogen export by surface runoff from a small agricultural watershed in southeast China: seasonal pattern and primary mechanism , 2011 .

[45]  D. Sigman,et al.  N and O isotope effects during nitrate assimilation by unicellular prokaryotic and eukaryotic plankton cultures , 2010 .

[46]  G. F. Humphrey,et al.  New spectrophotometric equations for determining chlorophylls a, b, c1 and c2 in higher plants, algae and natural phytoplankton , 1975 .

[47]  A. Bouwman,et al.  Global patterns of dissolved inorganic and particulate nitrogen inputs to coastal systems: Recent conditions and future projections , 2002 .

[48]  E. Zeng,et al.  Riverine inputs of total organic carbon and suspended particulate matter from the Pearl River Delta to the coastal ocean off South China. , 2008, Marine pollution bulletin.

[49]  A. Grant,et al.  An assessment of metal contamination of sediments in the humber estuary, U.K. , 1990 .

[50]  Daniel N. Baker,et al.  MESSENGER observations of dipolarization events in Mercury's magnetotail , 2012 .

[51]  T. Jennerjahn,et al.  Organic matter in sediments in the mangrove areas and adjacent continental margins of Brazil .1. Amino acids and hexosamines , 1997 .

[52]  S. Wainright,et al.  Diatom sources of 13C-rich carbon in marine food webs , 1991 .

[53]  D. Unger,et al.  Typhoon-induced precipitation impact on nutrient and suspended matter dynamics of a tropical estuary affected by human activities in Hainan, China , 2011 .

[54]  R. Seifert,et al.  Seasonal variability and geochemical significance of organic matter in the River Ganges, Bangladesh , 1985, Nature.

[55]  Isabelle Billy,et al.  Origin and composition of particulate organic matter in a macrotidal turbid estuary: The Gironde Estuary, France , 2012 .

[56]  Peter M. J. Herman,et al.  Organic matter processing in tidal estuaries , 2007 .

[57]  C. Anderson,et al.  Does delta15N in river food webs reflect the intensity and origin of N loads from the watershed? , 2006, The Science of the total environment.

[58]  D. Hicks,et al.  Organic carbon fluxes to the ocean from high-standing islands , 2002 .

[59]  T. Heaton Isotopic studies of nitrogen pollution in the hydrosphere and atmosphere: A review , 1986 .

[60]  X. P. Huang,et al.  The characteristics of nutrients and eutrophication in the Pearl River estuary, South China. , 2003, Marine pollution bulletin.

[61]  B. Peterson,et al.  STABLE ISOTOPES IN ECOSYSTEM STUDIES , 1987 .

[62]  David Pimentel,et al.  Ecology of Soil Erosion in Ecosystems , 1998, Ecosystems.

[63]  P. Högberg Forests losing large quantities of nitrogen have elevated 15N:14N ratios , 1990, Oecologia.

[64]  Jing Zhang,et al.  Distribution of organic matter in the Changjiang (Yangtze River) Estuary and their stable carbon and nitrogen isotopic ratios: Implications for source discrimination and sedimentary dynamics , 2007 .

[65]  I. Kaplan,et al.  Characterisation of domestic and industrial sewage in Southern California coastal sediments using nitrogen, carbon, sulphur and uranium tracers☆ , 1980 .

[66]  A. Smaal,et al.  A review of the feedbacks between bivalve grazing and ecosystem processes , 1997, Aquatic Ecology.

[67]  C. Lorenzen,et al.  DETERMINATION OF CHLOROPHYLL AND PHEO‐PIGMENTS: SPECTROPHOTOMETRIC EQUATIONS1 , 1967 .

[68]  Ronghua Li,et al.  Seasonal fluxes and source variation of organic carbon transported by two major Chinese Rivers: The Yellow River and Changjiang (Yangtze) River , 2012 .

[69]  Jeffrey E. Richey,et al.  Compositions and fluxes of particulate organic material in the Amazon River1 , 1986 .

[70]  V. Smith,et al.  Eutrophication: impacts of excess nutrient inputs on freshwater, marine, and terrestrial ecosystems. , 1999, Environmental pollution.

[71]  D. Orange,et al.  Long-term monitoring (1960-2008) of the river-sediment transport in the Red River Watershed (Vietnam): temporal variability and dam-reservoir impact. , 2010, The Science of the total environment.

[72]  M. Meybeck Carbon, nitrogen, and phosphorus transport by world rivers , 1982 .

[73]  A. Borges,et al.  Dynamics of organic and inorganic carbon across contiguous mangrove and seagrass systems (Gazi Bay, Kenya) , 2007 .

[74]  S. Kao,et al.  Particulate organic carbon export from a subtropical mountainous river (Lanyang Hsi) in Taiwan , 1996 .

[75]  António M. Baptista,et al.  Climatic and Tidal Forcing of Hydrography and Chlorophyll Concentrations in the Columbia River Estuary , 2011 .

[76]  J. Andrews,et al.  Combined Carbon Isotope and C/N Ratios as Indicators of Source and Fate of Organic Matter in a Poorly Flushed, Tropical Estuary: Hunts Bay, Kingston Harbour, Jamaica , 1998 .

[77]  A. Borges,et al.  Biogeochemistry of the Tana estuary and delta (northern Kenya) , 2007 .

[78]  F. A. Richards,et al.  The influence of organisms on the composition of sea-water , 1963 .

[79]  T. J. Smith,et al.  A tale of two storms: Surges and sediment deposition from Hurricanes Andrew and Wilma in Florida’s southwest coast mangrove forests: Chapter 6G in Science and the storms-the USGS response to the hurricanes of 2005 , 2007 .

[80]  J. Sharp,et al.  Stable carbon and nitrogen isotope biogeochemistry in the Delaware estuary , 1988 .

[81]  R. Benner,et al.  Abundance of amino sugars and peptidoglycan in marine particulate and dissolved organic matter , 2003 .

[82]  J. Oades,et al.  Comparative organic geochemistries of soils and marine sediments , 1997 .

[83]  C. Chamberlain,et al.  15N enrichment in agricultural catchments: field patterns and applications to tracking Atlantic salmon (Salmo salar) , 1998 .

[84]  D. Unger,et al.  Pond aquaculture effluents traced along back-reef waters by standard water quality parameters, δ15N in suspended matter and phytoplankton bioassays , 2013 .

[85]  Y. Wu,et al.  Nutrients in the Changjiang and its tributaries , 2003 .

[86]  Rod M. Connolly,et al.  Organic matter exchange and cycling in mangrove ecosystems: Recent insights from stable isotope studies , 2008 .

[87]  W. Kelly,et al.  Isotopic evidence of nitrate sources and denitrification in the Mississippi River, Illinois. , 2006, Journal of environmental quality.

[88]  R. Benner,et al.  What happens to terrestrial organic matter in the ocean , 1997 .

[89]  D. Unger,et al.  Impact of the conversion of mangroves into aquaculture ponds on the sedimentary organic matter composition in a tidal flat estuary (Hainan Island, China) , 2013 .

[90]  P. Raymond,et al.  Use of 14C and 13C natural abundances for evaluating riverine, estuarine, and coastal DOC and POC sources and cycling: a review and synthesis , 2001 .

[91]  D. Sigman,et al.  Nitrogen and oxygen isotope fractionation during dissimilatory nitrate reduction by denitrifying bacteria , 2008 .

[92]  D. Unger,et al.  Sources, transformation and fate of particulate amino acids and hexosamines under varying hydrological regimes in the tropical Wenchang/Wenjiao Rivers and Estuary, Hainan, China , 2013 .

[93]  V. Ittekkot,et al.  Biogeochemistry of particulate organic matter transported by the Godavari River, India , 1997 .

[94]  S. Thornton,et al.  Application of Organic Carbon and Nitrogen Stable Isotope and C/N Ratios as Source Indicators of Organic Matter Provenance in Estuarine Systems: Evidence from the Tay Estuary, Scotland , 1994 .

[95]  Stephen A. Macko,et al.  Importance of suspended participates in riverine delivery of bioavailable nitrogen to coastal zones , 1998 .

[96]  S. Seitzinger,et al.  Bioavailability of DON from natural and anthropogenic sources to estuarine plankton , 2002 .

[97]  W. Cai,et al.  The biogeochemistry of inorganic carbon and nutrients in the Pearl River estuary and the adjacent Northern South China Sea , 2004 .

[98]  C. Kendall,et al.  Fundamentals of Isotope Geochemistry , 1998 .

[99]  Shuh-Ji Kao,et al.  Carbon and nitrogen isotopic compositions of particulate organic matter and biogeochemical processes in the eutrophic Danshuei Estuary in northern Taiwan. , 2007, The Science of the total environment.

[100]  D. Sigman,et al.  Coupled nitrogen and oxygen isotope fractionation of nitrate during assimilation by cultures of marine phytoplankton , 2004 .

[101]  J. Ehleringer,et al.  Carbon isotope ratios in belowground carbon cycle processes , 2000 .

[102]  Just Cebrian,et al.  Assessment of a delta15N isotopic method to indicate anthropogenic eutrophication in aquatic ecosystems. , 2004, Journal of environmental quality.

[103]  R. Michener,et al.  Nitrogen‐stable isotope signatures in estuarine food webs: A record of increasing urbanization in coastal watersheds , 1997 .

[104]  C. Kreitler Nitrogen-isotope ratio studies of soils and groundwater nitrate from alluvial fan aquifers in Texas☆ , 1979 .

[105]  I. J. Hodgkiss,et al.  Are changes in N:P ratios in coastal waters the key to increased red tide blooms? , 1997, Hydrobiologia.

[106]  S. Costanzo,et al.  Assessing the influence and distribution of shrimp pond effluent in a tidal mangrove creek in north-east Australia. , 2004, Marine pollution bulletin.

[107]  P. Abreu,et al.  Eutrophication processes and trophic interactions in a shallow estuary: Preliminary results based on stable isotope analysis (δ13C and δ15N) , 2006 .

[108]  H. Kawahata,et al.  Amino acid and hexosamine composition and flux of sinking particulate matter in the equatorial Pacific at 175°E longitude , 2000 .

[109]  D. Unger,et al.  Natural and human influences on nutrient transport through a small subtropical Chinese estuary. , 2013, The Science of the total environment.

[110]  C. Savage Tracing the influence of sewage nitrogen in a coastal ecosystem using stable nitrogen isotopes. , 2005 .

[111]  E. Wada,et al.  Natural abundance of 15N in soil organic matter with special reference to paddy soils in Japan: biogeochemical implications on the nitrogen cycle , 1984 .

[112]  John A. Harrison,et al.  Sources and delivery of carbon, nitrogen, and phosphorus to the coastal zone: An overview of Global Nutrient Export from Watersheds (NEWS) models and their application , 2005 .

[113]  V. Ittekkot,et al.  Changes in organic matter from surface waters to continental slope sediments off the São Francisco River, eastern Brazil , 1999 .

[114]  Shing Yip Lee,et al.  Mangroves of China: a brief review , 1997 .

[115]  S. Costanzo,et al.  Assessing the seasonal influence of sewage and agricultural nutrient inputs in a subtropical river estuary , 2003 .

[116]  William M. Lewis,et al.  Stable carbon and nitrogen isotopes in algae and detritus from the Orinoco River floodplain, Venezuela , 1992 .

[117]  Dexing Wu,et al.  On the mechanism of the cyclonic circulation in the Gulf of Tonkin in the summer , 2008 .

[118]  S. Kao,et al.  Fluxes of dissolved and nonfossil particulate organic carbon from an Oceania small river (Lanyang Hsi) in Taiwan , 1997 .

[119]  B. V. Mooy,et al.  Impact of suboxia on sinking particulate organic carbon: Enhanced carbon flux and preferential degradation of amino acids via denitrification , 2002 .

[120]  V. Ittekkot,et al.  Effect of land use on the biogeochemistry of dissolved nutrients and suspended and sedimentary organic matter in the tropical Kallada River and Ashtamudi estuary, Kerala, India , 2008 .

[121]  G. Billen,et al.  Natural isotopic composition of nitrogen as a tracer of origin for suspended organic matter in the Scheldt estuary , 1984 .

[122]  V. Ittekkot,et al.  Organic matter in large turbid rivers : the Huanghe and its estuary , 1992 .

[123]  T. Dittmar,et al.  Tracing suspended organic nitrogen from the Yangtze River catchment into the East China Sea , 2007 .

[124]  Peter L. Davies,et al.  Nutrient processes and chlorophyll in the estuaries and plume of the Gulf of Papua , 2004 .

[125]  V. Ittekkot,et al.  Pattern of particulate nitrogen transport in world rivers , 1989 .

[126]  J. Syvitski,et al.  Geomorphic/Tectonic Control of Sediment Discharge to the Ocean: The Importance of Small Mountainous Rivers , 1992, The Journal of Geology.