Abstract
Fluvial effects on nutrient and phytoplankton dynamics were evaluated in southern Kaneohe Bay, Oahu, Hawaii. Fluvial inputs occurred as small, steady baseflows interrupted by intense pulses of storm runoff. Baseflow river inputs only affected restricted areas around stream mouths, but the five storm events sampled during this study produced transient runoff plumes of much greater spatial extent. Nutrient loading via runoff generally led to an increase of the phytoplankton biomass and gross primary productivity in southern Kaneohe Bay, but the rapid depletion of nutrients resulted in a decline of the algal populations in the relatively short time of days. Under baseline conditions, water column primary productivity in southern Kaneohe Bay is normally nitrogen limited. Following storm events, the high ratio of dissolved inorganic nitrogen to dissolved inorganic phosphorus (DIN:DIP, 25–29) fluxes of runoff nutrients drove bay waters towards phosphorus limitation. A depletion of phosphate relative to DIN in surface waters was observed following all storm events. Due to high flushing rates, recovery times of bay waters from storm perturbations ranged from 3 to 8 d and appeared to be correlated with tidal range. Storm inputs have a significant effect on the water column ecosystem and biogeochemistry in southern Kaneohe Bay. The perturbations were only transient events and the system rapidly recovered to prestorm conditions.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Literature Cited
Armstrong, F. A. J. andS. Tibbitts. 1968. Photochemical combustion of organic matter in sea water for nitrogen, phosphorus, and carbon determination.Journal of the Marine Biological Association of the United Kingdom 48:143–152.
Bathen, K. H. 1968. A descriptive study of the physical oceanography of Kaneohe Bay, Oahu, Hawaii, Hawaii Institute of Marine Biology. Report No. 14. Honolulu, Hawaii.
Bender, M., K. Grande, K. Johnson, J. Marra, P. J. L. Williams, J. Sieburth, M. Pilson, C. Langdon, G. Hitchcock, J. Orchardo, C. Hunt, P. Donaghay, andK. Heinemann. 1987. A comparison of four methods for determining planktonic community production.Limnology and Oceanography 32:1085–1098.
Billen, G., J. Garnier, A. Ficht, andC. Cun. 2001. Modeling the response of water quality in the Seine River Estuary to human activity in its watershed over the last 50 years.Estuaries 24:977–993.
Carpenter, J. H. 1965. The accuracy of the Winkler method for dissolved oxygen analysis.Limnology and Oceanography 10:135–140.
Chanton, J. andF. G. Lewis. 2002. Examination of coupling between primary and secondary production in a river-dominated estuary: Apalachicola Bay, Florida, U.S.A.Limnology and Oceanography 47:683–687.
Davies, A. G. andJ. A. Sleep. 1981. The photosynthetic response of nutrient-depleted dilute cultures ofSkeletonema costatum to pulses of ammonium and nitrate; the importance of phosphate.Journal of Plankton Research 11:141–164.
D’Elia, C. F., W. R. Boynton, andJ. G. Sanders. 2003. A watershed perspective on nutrient enrichment, science, and policy in the Patuxent River, Maryland: 1960–2000.Estuaries 26: 171–185.
D’Elia, C. F., J. G. Sanders, andW. R. Boynton. 1986. Nutrient enrichment studies in a coastal plain estuary: Phytoplankton growth in large-scale, continuous cultures.Canadian Journal of Fisheries and Aquatic Sciences 43:397–406.
Devling, M. andJ. Taylor. 1999. Impacts of rivers and plumes on the Great Barrier Reef Lagoon.Rivers Future 10:12–19.
Doering, P. H., C. A. Oviatt, B. L. Nowicki, E. C. Klos, andL. W. Reed. 1995. Phosphorus and nitrogen limitation of primary production in a simulated estuarine gradient.Marine Ecology Progress Series 124:271–287.
Eppley, R. W., J. N. Rogers, andJ. J. McCarthy. 1969. Halfsaturation constants for uptake of nitrate and ammonium by marine phytoplankton.Limnology and Oceanography 14:912–920.
Eyre, B. D. 1995. A first-order nutrient budget for the tropical Moresby Estuary and catchment North Queensland, Australia.Journal of Coastal Research 11:717–732.
Falkowski, P. G. andJ. A. Raven. 1997. Aquatic Photosynthesis. Blackwell Science, Malden, Massachusetts.
Falkowski, P. G., A. Sukenik, andR. Herzig. 1989. Nitrogen limitation inIsochrysis galbana (Haptophyceae). 2. Relative abundance of chloroplast proteins.Journal of Phycology 25:471–478.
Fisher, T. R., L. W. Harding, Jr.D. W. Stanley, andL. G. Ward. 1988. Phytoplankton, nutrients, and turbidity in the Chesapeake, Delaware, and Hudson estuaries.Estuarine, Coastal and Shelf Science 27:61–93.
Fisher, T. R., J. M. Melack, J. U. Grobbelaar, andR. W. Howarth. 1995. Nutrient limitation of phytoplankton and eutrophication of inland, estuarine, and marine waters, p. 301–322.In H. Tiessen (ed.), Phosphorus in the Global Environment. John Wiley and Sons, Chichester, U.K.
Fisher, T. R., E. R. Peele, J. W. Ammerman, andL. W. Harding, Jr. 1992. Nutrient limitation of phytoplankton in Chasepeake Bay.Marine Ecology Progress Series 82:51–63.
Galliani, G., F. Filippini, G. Montanari, A. Rinaldi, andR. A. Vollenweider. 1992. Time series analysis of oceanological parameters measured at a fixed station, p. 171–186.In Proceedings, international Conference “Marine Coastal Eutrophication The response of marine transitional systems to human impacts: Problems and perspectives for restoration”. Science of the Total Environment, Bologna, Italy.
Gilmour, J. 1999. Experimental investigation into the effects of suspended sediment on fertilisation, larval survival and settlement in a scleractinian coral.Marine Biology 3:451–452.
Goldman, J. C. andP. M. Glibert. 1983. Kinetics of inorganic nitrogen uptake by phytoplankton, p. 233–274.In D. G. Capone and E. J. Carpenter (eds.), Nitrogen in the Marine Environment. Academic Press, New York.
Goldman, N. C., J. J. McCarthy, andD. G. Peavey. 1979. Growth rate influence on the chemical composition of phytoplankton in oceanic waters.Nature 279:210–215.
Herrera-Silveira, J. A. 1998. Nutrient-phytoplankton production relationships in a groundwater-influenced tropical coastal lagoon.Aquatic Ecosystem Health and Management 1:373–385.
Ho, T., A. Quigg, Z. V. Finkel, A. J. Milligan, K. D. Wyman, P. G. Falkowski, andF. M. Morel. 2003. The elemental composition of some marine phytoplankton.Journal of Phycology 39:1145–1159.
Hoover, D. J. 2002. Fluvial nitrogen and phosphorus in Hawaii: Storm runoff, oand use, and impacts on coastal waters. Ph.D. Dissertation, University of Hawaii, Honolulu, Hawaii.
Hubertz, E. D. andL. B. Cahoon. 1999. Short-term variability of water quality parameters in two shallow estuaries of North Carolina.Estuaries 22:814–823.
Jokiel, P. L., C. L. Hunter, S. Taguchi, andL. Watarai. 1993. Ecological impact of a fresh water “reef kill” in Kaneohe Bay, Oahu, Hawaii.Coral Reefs 12:177–184.
Jordan, T. E., D. L. Correll, J. Miklas, andD. E. Weller. 1991. Nutrients and chlorophyll at the interface of a watershed and an estuary.Limnology and Oceanography 36:251–267.
Kennish, M. J. 1986. Ecology of Estuaries. CRC Press, Boca Raton, Florida.
Klausmeier, C. A., E. Litchman, T. Daufresne, andS. Levine. 2004. Optimal nitrogen-to-phosphorus stoichiometry of phytoplankton.Nature 429:171–174.
Kolber, Z., K. D. Wyman, andP. G. Falkowski. 1990. Natural variability in photosynthetic energy conversion efficiency: A field study in the Gulf of Maine.Limnology and Oceanography 35:72–79.
Krupatkina, D. K. 1990. Estimates of primary production in oligotrophic waters and metabolism of picoplankton: A review.Marine Microbial Food Webs 4:87–101.
Labry, C., A. Herbland, andD. Delmas. 2002. The role of phosphorus on planktonic production of the Gironde plume waters in the Bay of Biscay.Journal of Plankton Research 24:97–117.
Lapointe, B. E. andW. R. Matzie. 1996. Effects of stormwater nutrient discharges on eutrophication processes in nearshore waters of the Florida Keys.Estuaries 19:422–435.
Laws, E. A. andC. B. Allen. 1996. Water quality in a subtropical embayment more than a decade after diversion of sewage discharges.Pacific Science 50:194–210.
Laws, E. A., D. Ziemann, andD. Schulman. 1999. Coastal water quality in Hawaii: The importance of buffer zones and dilution.Marine Environmental Research 48:1–21.
Li, Y.-H. 1988. Denudation rates of the Hawaiian Islands by rivers and groundwaters.Pacific Science 42:253–266.
Mackenzie, F. T. 2003. Our Changing Planet, 3rd edition, Pearson Education, Upper Saddle River, New Jersey.
Malone, T. C., L. H. Crocker, S. E. Pike, andB. W. Wendler. 1988. Influences of river flow on the dynamics of phytoplankton production in a partially stratified estuary.Marine Ecology Progress Series 48:235–249.
McAllister, C. D., N. Shah, andJ. D. H. Strickland. 1964. Marine phytoplankton photosynthesis as a function of light intensity: A comparison of methods.Journal of Fisheries and Research Board of Canada 21:159–181.
McKee, L. J., B. D. Eyre, andS. Hossain. 2000. Transport and retention of nitrogen and phosphous in the sub-tropical Richmond River estuary, Australia—A budget approach.Biogeochemistry 50:241–278.
Milliman, J. D. andR. H. Meade. 1983. World-wide delivery of river sediment to the oceans.Journal of Geology 91:1–21.
Milliman, J. D. andJ. P. M. Syvitski. 1992. Geomorphic/tectonic control of sediment discharge to the ocean: The importance of small mountainous rivers.Journal of Geology 100:525–544.
Monbet, Y. 1991. Control of phytoplankton biomass in estuaries: A comparative analysis of microtidal and macrotidal estuaries.Estuaries 15:563–571.
Naganuma, T. 1999. Abundance, viability and production of planktonic bacteria (and thraustochytrids) in coastal waters.Bulletin of Plankton Society 46:43–49.
Parsons, T. R., Y. Maita, andC. M. Lalli. 1984. A Manual of Chemical and Biological Methods for Seawater Analysis, 1st edition. Pergamon Press, New York.
Redfield, A. C., B. H. Ketchum, andF. A. Richards. 1963. The influence of organisms on the composition of seawater, p. 26–77.In M. N. Hill (ed.), The Sea, Volume 2. John Wiley and Sons, New York.
Smith, S. V., W. J. Kimmerer, E. A. Laws, R. E. Brock, andT. W. Walsh. 1981. Kaneohe Bay sewage diversion experiment: Perspectives on ecosystem responses to nutritional perturbation.Pacific Science 35:279–396.
Snow, G. C., J. B. Adams, andG. C. Bate. 2000. Effect of river flow on estuarine microalgal biomass and distribution.Estuarine, Coastal and Shelf Science 51:255–266.
Stockner, J. G. 1988. Phototrophic picoplankton: An overview from marine and freshwater ecosystems.Limnology and Oceanography 33:765–775.
Strickland, J. D. H. andT. R. Parsons. 1972. A Practical Handbook of Seawater Analysis, 2nd edition. Fisheries Research Board of Canada, Ottawa, Canada.
Turpin, D. H. andD. Bruce. 1990. Regulation of photosynthetic light harvesting by nitrogen assimilation in the green algaSelenastrum minutum.Federation of European Biochemical Societies Letters 263:99–103.
Wolanski, E. andS. Spagnol. 2000. Pollution by mud of Great Barrier Reef coastal waters.Journal of Coastal Research 16:1151–1156.
Wright, S. W., S. W. Jeffrey, R. F. C. Mantoura, C. A. Llewellyn, T. Bjoernland, D. Repeta, andN. Welschmeyer. 1991. Improved HPLC method for the analysis of chlorophylls and carotenoids from marine phytoplankton.Marine Ecology Progress Series 77:183–196.
Yin, K., P.-Y. Qian, J. C. Chen, D. P. H. Hsieh, andP. J. Hirrison. 2000. Dynamics of nutrients and phytoplankton biomass in the Pearl River estuary and adjacent waters of Hong Kong during summer: Preliminary evidence for phosphorus and silicon limitation.Marine Ecology Progress Series 194:295–305.
Source of Unpublished Materials
Scheinberg, R. personal communication. University of Hawaii, Department of Oceanography, 1000 Pope Road Honolulu, Hawaii 96822.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Ringuet, S., Mackenzie, F.T. Controls on nutrient and phytoplankton dynamics during normal flow and storm runoff conditions, southern Kaneohe Bay, Hawaii. Estuaries 28, 327–337 (2005). https://doi.org/10.1007/BF02693916
Received:
Revised:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02693916