Abstract
Narragansett Bay is a relatively well-mixed, high salinity coastal embayment and estuary complex in southern New England (USA). Much of the shoreline is urban and the watershed is densely developed. We have combined our data on C, N, and P inputs to this system, on C, N, and P accumulation in the sediments, and on denitrification with extensive work by others to develop approximate annual mass balances for these elements. The results show that primary production within the bay is the major source of organic carbon (4 times greater than other sources), that land drainage and upstream sewage and fertilizer are the major sources of N, and that landward flowing bottom water from offshore may be a major source of dissolved inorganic phosphorus. Most of the nutrients entering the bay arrive in dissolved inorganic form, though DON is a significant component of the N carried by the rivers. About 40% of the DIN in the rivers is in the form of ammonia. Sedimentation rates are low in most of Narragansett Bay, and it appears that less than 20% of the total annual input of each of these elements is retained within the system. A very small amount of C, N, and P is removed in fisheries landings, denitrification in the sediments removes perhaps 10–25% of the N input, and most of the carbon fixed in the system is respired within it. Stoichiometric calculations suggest that some 10–20% of the organic matter formed in the bay is exported to offshore and that Narragansett Bay is an autotrophic system. Most of the N and P that enters the bay is, however, exported to offshore waters in dissolved inorganic form. This assessment of the overall biogeochemical behavior of C, N, and P in the bay is consistent with more rigorously constrained mass balances obtained using large living models or mesocosms of the bay at the Marine Ecosystem Research Laboratory (MERL).
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References
Beach RB (1981) Phosphorus uptake and release by sediments from Narragansett Bay. M.S. Thesis, University of Rhode Island, Narragansett, RI. 113 p
Beale EML (1962) Some uses of computers in operational research. Industrielle Organisation 31: 51–52
Bierman VJ Jr, Preston SD & Silliman SE (1988) Development of estimation methods for tributary loading rates of toxic chemicals. Water Resources Research Center Tech. Rept. No. 183. Purdue University, Lafayette, IN
Boucher J (1991) Nutrient and phosphorus geochemistry in the Taunton River Estuary, Massaschusetts. Ph.D. Thesis in Oceanography, University of Rhode Island, Narragansett, RI. 316 p
Canadian Centre for Inland Waters (1979) Assessment of water quality simulation capability for Lake Ontario. National Water Research Inst. Scientific Series No 111. (pp 124–125). Burlington, Ontario
Chinman RA & Nixon SW (1985) Depth area-volume relationships in Narragansett Bay. URI Graduate School of Oceanography, Narragansett, RI, Marine Tech. Rept. No. 87. 64 p
Corbin J (1989) Recent and historical accumulation of trace metal contaminants in the sediment of Narragansett Bay, Rhode Island. Masters Degree in Oceanography, University of Rhode Island Narragansett, RI. 295 p
Dolan DM, Yui AK & Geist RD (1981) Evaluation of river load estimation methods for total phosphorus. J. Great Lakes Res. 7(3): 207–214
Donaghay PL & Klos E (1985) Physical, chemical and biological responses to simulated wind and tidal mixing in experimental marine ecosystems. Mar. Ecol. Prog. Ser. 26: 35–45
Edmond JM, Boyle EA, Grant B & Stallard RF (1981) The chemical mass balance in the Amazon plume 1: The nutrients. Deep-Sea Research 28A(11): 1339–1374
Ferguson RI (1986) River loads underestimated by rating curves. Water Resources Research 22(1): 74–76
Fraher J (1991) Atmospheric wet and dry deposition of fixed nitrogen to Narragansett Bay. M.S. Thesis in Oceanography, University of Rhode Island, Narragansett, RI. 165 p
Frithsen JB, Keller AA & Pilson MEQ (1985) Effects of inorganic nutrient additions in coastal areas: A mesocosm experiment data report, vol. 1–3. Marine Ecosystems Research Laboratory, University of Rhode Island, Narragansett, RI. MERL Series Report No. 5. 244 p
Furnas MJ, Hitchcock GL & Smayda TJ (1976) Nutrient phytoplankton relationships in Narragansett Bay during the 1974 summer bloom. In: Wiley ML (Ed) Estuarine Processes: Uses, Stresses and Adaptations to the Estuary, Vol. 1 (pp 118–134). Academic Press, New York
Garber JH (1982) Remineralization of nitrogen in Narragansett Bay sediments and waters. Ph.D. Thesis in Oceanography, University of Rhode Island, Narragansett, RI
Garber JH (1984)15N tracer study of the short-term fate of particulate organic nitrogen at the surface of coastal marine sediments. Mar. Ecol. Prog. Ser. 16: 89–104
Graham WF (1977) Atmospheric pathways of the phosphorus cycle. Ph.D. Thesis, Chemical Oceanography, University of Rhode Island, Narragansett, RI. 259 p
Granger S (1994) Basic hydrography and dissolved oxygen transport in the Providence and Seekonk River Estuaries. M. S. Thesis in Oceanography, University of Rhode Island, Narragansett, RI. 230 p
Hanson LC (1982) A preliminary assessment of nutrient loading into Narragansett Bay due to urban runoff. Masters in Marine Affairs, University of Rhode Island, Kingston, RI. 37 p
Hinga KR, Lewis NF, Rice R, Dadey K & Keller A (1989) A review of Narragansett Bay phytoplankton data, status and trends. A report to the US EPA Narragansett Bay Project. 248 p
Hoffman EJ, Mills GL, Latimer JS & Quinn JG (1983) Annual input of petroleum hydrocarbons to the coastal environment via urban runoff. Can. J. Fish. Aquat. Sci. 40(2): 41–53
Hoffman EJ (1987) Pollution inputs to Narragansett. In: Narragansett Bay: Issues, Resources, Status and Management (pp 31–69). NOAA Estuary of the Month Seminar Series No. 1
Howarth RW Jensen H, Marino R & Postma H (1995) Transport to and processing of P in near-shore and oceanic waters. In: Tiessen H (Ed) Phosphorus in the Global Environment. Transfers, Cycles and Management (pp 323–345). SCOPE 54, Wiley & Sons, Chichester, UK
Johnstone J (1908) Conditions of Life in the Sea. Cambridge: Cambridge University Press. Reprinted by Arno Press, New York. 1977. 332 p
Keller A (1988) Estimating phytoplankton productivity from light availability and biomass in the MERL mesocosms and Narragansett Bay. Mar. Ecol. Prog. Ser. 45: 159–168
Kelley JR & Nixon SW (1984) Experimental studies of the effect of organic deposition on the metabolism of a coastal marine bottom community. Mar. Ecol. Prog. Ser. 17: 157–160
King J, Boucher J, Pilson M, Corbin J & Gangemi P (1991) Chapter 1, Modern Sedimentation in Narragansett Bay. 1.6: Nutrients in the surface sediments of Narragansett Bay, pp 76–86, in A Study of the Sediments of Narragansett Bay. Final Report (1st draft)
Kremer JN & Nixon SW (1978) A Coastal Marine Ecosystem: Simulation and Analysis. Springer-Verlag, Heidelberg. 210 pp
Larsson U (1986) The Baltic Sea. In: Rosenberg R (Ed) Eutrophication in Marine Waters Surrounding Sweden—A Review. The National Swedish Environmental Protection Board (pp 16–70). Report 3054, Solna, Sweden
McMaster RL (1960) Sediments of Narragansett Bay system and Rhode Island Sound. J. Sed. Petrol. 30: 249–274
Meade RH (1982) Sources, sinks, and storage of river sediment in the Atlantic drainage of the United States. The Journal of Geology 90(3): 235–252
Milliman JD & Syviyski JPM (1992) Geomorphic/tectonic control of sediment discharge to the ocean: The importance of small mountainous rivers. The Jour. of Geol. 100: 525–544
Morris AW & Riley JP (1963) The determination of nitrate in sea water. Anal. Chim. Acta. 29: 272–279
Murphy J & Riley J (1962) A modified single solution for the determination of phosphate in natural waters. Anal. Chim. Acta 27: 31
Nixon SW (1989) An extraordinary red tide and fish kill in Narragansett Bay. In: Cosper EM, Bricelj VM & Carpenter EJ (Eds) Coastal and Estuarine Studies. 35: Novel Phytoplankton Blooms (pp 429–447). Springer-Verlag, New York
Nixon SW (1992) Quantifying the relationship between nitrogen input and the productivity of marine ecosystems. In: Takahashi M, Nakata K & Parsons TR (Eds) Proceedings of Advanced Marine Technology Conference (AMTEC), Vol. 5 (pp 57–83). Tokyo, Japan
Nixon SW (1995) Coastal marine eutrophication: A definition, social causes, and future concerns. Ophelia 41: 199–219
Nixon SW et al. (1995) The fate of nitrogen and phosphorus at the land-sea margin of the North Atlantic Ocean. Biogeochemistry. In press
Nixon SW & Lee V (1979) Spatial and temporal pollution gradients in Narragansett Bay. International Council for the Exploration of the Sea, Water Quality Committe Paper. C.M. 1979/E: 56
Nixon SW & Pilson MEQ (1984) Estuarine total system metabolism and organic exchange calculated from nutrient ratios: An example from Narragansett Bay In: Kennedy VS (Ed) The Estuary as a Filter (pp 261–290). Academic Press, New York
Nixon SW, Hunt CD & Nowicki BL (1986a). The retention of nutrients (C, N, P), heavy metals (Mn, Cd, Pb, Cu), and petroleum hydrocarbons in Narragansett Bay. In: Martin JM & Lasserre P (Eds) Biogeochemical Processes at the Land-Sea Boundary (pp 99–122). Elsevier Press, Amsterdam
Nixon SW, Oviatt CA & Hale SS (1976) Nitrogen regeneration and the metabolism of coastal marine bottom communities. In: Anderson JM & Macfadyen A (Eds) “The Role of Terrestrial and Aquatic Organisms in Decomposition Processes” (pp 269–). Blackwell Scientific Publications, Oxford
Nixon SW, Oviatt CA, Frithsen J & Sullivan B (1986b) Nutrients and the productivity of estuarine and coastal marine ecosystems. J. Limnol. Soc. sth. Afr. 12: 43–71
Nowicki BL (1991) The fate of nutrient inputs: Evidence from estuarine meso-cosms. Ph.D. Thesis, University of Rhode Island, Narragansett, RI. 217 p
Nowicki BL (1994) The effect of temperature, oxygen, salinity, and nutrient enrichment on estuarine denitrification rates measured with a modified nitrogen gas flux technique. Est. Coast. Shelf Sci. 38(2): 137–156
Nowicki BL & Oviatt CA (1990) Are estuaries traps for anthropogenic nutrients? Evidence from estuarine mesocosms. Mar. Ecol. Prog. Ser. 66: 131–146
Officer CB & Kester DR (1991) Notes and Discussions - On estimating the non-advective tidal exchanges and advective gravitational circulation exchanges in an estuary. Est. Coast. Shelf Sci. 32(1): 99–103
Oviatt CA (1981) Effects of different mixing schedules on phytoplankton, zoo-plankton and nutrients in marine microcosms. Mar. Ecol. Prog. Ser. 4: 57#x2013;67
Oviatt CA, Buckley B & Nixon SW (1981) Annual phytoplankton metabolism in Narragansett Bay calculated from survey field measurements and microcosm observations. Estuaries 4(3): 167–175
Oviatt CA, Keller AA, Sampou PA & Beatty LL (1986) Patterns of productivity during eutrophication: a mesocosm experiment Mar. Ecol. Prog. Ser. 28: 69–80
Oviatt CA, Doering P, Nowicki B, Reed L, Cole J & Frithsen J (1995) An ecosystem level experiment on nutrient limitation in temperate coastal marine environment. MEPS 116: 171–179
Pilson MEQ (1985a) On the residence time of water in Narragansett Bay. Estuaries 8: 2–14
Pilson MEQ (1985b) Annual cycles of nutrients and chlorophyll in Narragansett Bay, Rhode Island. J. Mar. Res. 43: 849–873
Pilson MEQ (1989) Aspects of climate around Narragansett Bay. Report submitted to Narragansett Bay Project
Pilson MEQ & Hunt CD (1989) Water quality survey of Narragansett Bay — A summary of results from the SINBADD cruises 1985–1986. Report to the Narragansett Bay Project, R. I. Dept. of Environmental Management from the Marine Ecosystems Research Laboratory, Graduate School of Oceanography, University of Rhode Island, Narragansett, RI. 118 pp
Ries KG III (1990) Estimating surface-water runoff to Narragansett Bay, Rhode Island and Massachusetts. US Geological Survey, Water Resources Investigations Report 89-4164. 44 p
Riley GA (1967) Mathematical model of nutrient conditions incoastal waters. Bull. Bingham Oceanogr. Coll. 19: 72–80
Salonen K (1979) A versatile method for the rapid and accurate determination of carbon by high temperature combustion. Limnol. Oceanogr. 24: 177–183
Santschi PH, Nixon S, Pilson M & Hunt C (1984) Accumulation of sediments, trace metals (Pb, Cu) and total hydrocarbons in Narragansett Bay, Rhode Island. Est. Coast. Shelf Sci. 19: 427–449
Save the Bay (1992) The Good, the Bad and the Ugly: Toxic Pollution in Narragansett Bay and its Tributaries. Annual report on Wastewater Treatment Plant Performance Survey. Save the Bay, Providence, RI. 82 pp
Schlesinger WH & Melack JM (1981) Transport of organic carbon in the world's rivers. Tellus 33: 172–187
Schueler TR (1987) Controlling urban runoff: A practical manual for planning and designing urban BMPs. Washington, DC: Metropolitan Washington Council of Governments
Seitzinger SP & Nixon SW (1985) Eutrophication and the rate of denitrification and N2O production in coastal marine sediments. Limnol. Oceanogr. 30(6): 1332–1339
Seitzinger SP, Nixon SW & Pilson MEQ (1984) Denitrification and nitrous oxide production in a coastal marine ecosystem. Limnol. Oceanogr. 29(1): 73–83
Smith SV (1991) Stoichiometry of C:N:P fluxes in shallow-water marine ecosystems. In: Cole J, Lovett G & Findlay S (Eds) Comparative Analyses of Ecosystems — Patterns, Mechanisms, and Theories (pp 259–286). Springer-Verlag, New York
Smith SV & Hollibaugh JT (1993) Coastal metabolism and the oceanic organic carbon balance. Reviews of Geophysics 31(1): 75–89
Solorozano L (1969) Determination of ammonia in natural waters by the phenol hypochlorite method. Limnol. Oceanogr. 14: 779–801
Solorozano L & Sharp J (1980) Determination of total dissolved phosphorus and particulate phosphorus in natural waters. Limnol. Oceanogr. 25(4): 754–758
Valderrama JC (1981) The simultaneous analysis of total nitrogen and total phosphorus in natural waters. Mar. Chem. 10: 109–122
Vinogradov AP (1953) The elementary chemical composition of marine organisms. Memoir Sears Foundation for Marine Research No. II. Yale University, New Haven. 677 pp
Wood ED, Armstrong FAJ & Richards FA (1967) Determination of nitrate in seawater by cadmium- copper reduction to nitrite. J. Mar. Biol. Assoc. U.K. 47: 23
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Nixon, S.W., Granger, S.L. & Nowicki, B.L. An assessment of the annual mass balance of carbon, nitrogen, and phosphorus in Narragansett Bay. Biogeochemistry 31, 15–61 (1995). https://doi.org/10.1007/BF00000805
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DOI: https://doi.org/10.1007/BF00000805