11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote




Название11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote
страница52/56
Дата22.10.2012
Размер1.55 Mb.
ТипДокументы
1   ...   48   49   50   51   52   53   54   55   56
p. 2425–2443.

Mallarino, A.P., and Schepers, J.S., 2005, Role of precision agriculture in phosphorus management practices, in Sims, J.T., and Sharpley, A.N., eds., Phosphorus: Madison, WI, Agriculture and the Environment, American Society of Agronomy Monograph Series No. 46, Crop Science Society of America and Soil Science Society of America, p. 881–908.

Maloney, M., and Brady, G., 1988, Capital turnover and marketable emission rights: Journal of Law and Economics, v. 31, p. 203–226.

Mamo, M., Malzer, G.L., Mulla, D.J., Huggins, D.R., and Strock, J., 2003, Spatial and temporal variation in economically optimum nitrogen rate for corn: Agronomy Journal, v. 95, p. 958-964.

Mann, L., and Tolbert, V., 2000, Soil sustainability in renewable biomass plantings: Ambio, v. 29, no. 8, p. 492–498.

Marquez, C.O., Cambardella, C.A., Isenhart, T.M., and Schultz, R.C., 1999, Assessing soil quality in a riparian buffer strip system by testing organic matter fractions: Agroforestry Systems, v. 44, p. 133–140.

MART, 2006a, Management Action Review Team Report: U.S. Environmental Protection Agency, Mississippi River/Gulf of Mexico Watershed Nutrient Task Force, Management Action Reassessment Team, 31 p., available online at http://www.epa.gov/msbasin/taskforce/MART.pdf.

MART, 2006b, Reassessment of point source nutrient mass loadings to the Mississippi River basin: U.S. Environmental Protection Agency, Mississippi River/Gulf of Mexico Watershed Nutrient Task Force, Management Action Reassessment Team, 31 p., available online at http://www.epa.gov/msbasin/taskforce/Point_Source_Mass_Loading.pdf.

Maryland Department of the Environment, 2005, Chesapeake Bay Restoration Program: Baltimore, MD.

Mayer, P.M., Reynolds, S.K., McCutchen, M.D., and Canfield, T.J., 2006, Riparian buffer width, vegetative cover, and nitrogen removal effectiveness—A review of current science and regulations: Cincinnati, OH, U.S. Environmental Protection Agency, EPA/600/R-05/118.

Mazurek, J., 2002, Government-sponsored voluntary programs for firms—An initial survey, in Dietz, T., and Stern, P.C., eds., New Tools for Environmental Protection: Education, Information, and Voluntary Measures, The National Academies Press, National Academy of Sciences, p. 219-234.

McDowell, L.L., and McGregor, K.C., 1984, Plant nutrient losses in runoff from conservation tillage corn: Soil Tillage Research, v. 4, p. 79–91.

McDowell, R.W., and Sharpley, A.N., 2001, A comparison of fluvial sediment phosphorus (P) chemistry in relation to location and potential to influence stream P concentrations: Aquatic Geochemistry, v. 7, p. 255–265.

McDowell, R.W., and Sharpley, A.N., 2003, Uptake and release of phosphorus from overland flow in a stream environment: Journal of Environmental Quality, v. 32, p. 937–948.

McDowell, R.W., Sharpley, A.N., and Kleinman, P.J.A., 2002, Integrating phosphorus and nitrogen decision management at watershed scales: Journal of American Water Resources Association, v. 38, no. 2, p. 479–491.

McGraw, T., and Hemb, R., 1995, Fertility variability in the Minnesota River Valley watershed in 1993 as determined from grid soil testing results on 52,000 acres on commercial fields, in Robert, P.C., Rust, R.H., and Larson, W.E., eds., Site-specific management for agricultural systems: Minneapolis, MN, American Society of Agronomy, Crop Science Society of America and Soil Science Society of America, 2nd International Conference.

McIsaac, G.F., 2006, Net anthropogenic nitrogen inputs (NANI) to the Mississippi River basin: Presented at Science Symposium—Sources, transport, and fate of nutrients in the Mississippi and Atchafalaya River basins, November 7–9, 2006, Minneapolis, MN.

McIsaac, G.F., David, M.B., Gertner, G.Z., and Goolsby, D.A., 2001, Nitrate flux in the Mississippi River: Nature, v. 414, p. 166–167.

McIsaac, G.F., David, M.B., Gertner, G.Z., and Goolsby, D.A., 2002, Relating net nitrogen input in the Mississippi River basin to nitrate flux in the lower Mississippi River—A comparison of approaches: Journal of Environmental Quality, v. 31, p. 1610–1622.

McIsaac, G.F., and Hu, X., 2004, Net N input and riverine N export from Illinois agricultural watersheds with and without extensive tile drainage: Biogeochemistry, v. 70, p. 251–271.

McKee, B.A., Aller, R.C., Allison, M.A., Bianchi, T.S., and Kineke, G.C., 2004. Transport and transformation of dissolved and particulate materials on continental margins influenced by major rivers—Benthic boundary layer and seabed processes: Continental Shelf Research, v. 24, p. 899–926.

McLaughlin, S.B., and Kszos, L.A., 2005, Biomass and bioenergy development of switchgrass (Panicum virgatum) as a bioenergy feedstock in the United States: Biomass & Bioenergy, v. 28, p. 515–535.

McLaughlin, S., and Walsh, M., 1998, Evaluating environmental consequences of producing herbaceous crops for bioenergy: Biomass & Bioenergy, v. 14, no. 4, p. 317–324.

McMahon, G., Alexander, R.B., and Qian, S., 2003, Support of total maximum daily load programs using spatially referenced regression models: Journal of Water Resources Planning and Management, v. 129, p. 315–329.

Mee, L.D., 2006, Reviving dead zones: Scientific American, v. 295, p. 78–85.

Meisinger, J.J., and Delgado, J.A., 2002, Priciples for managing nitrogen leaching: Journal of Soil and Water Conservation, v. 57, no. 6, p. 485-499.

Melillo, J.M., and Cowling, E.B., 2002, Reactive nitrogen and public policies for environmental protection: AMBIO, A Journal of the Human Environment, v. 31, no. 2, p. 141–149.

Mellor, G.L., and Yamada, T., 1982, Development of a turbulence closure model for geophysical fluid problems: Reviews of Geophysics and Space Physics, v. 20, p. 851–875.

Meretsky, V.J., Wegner, D.L., and Stevens, L.E., 2000, Balancing endangered species and ecosystems—A case study of adaptive management in Grand Canyon: Environmental Management, v. 25, no. 6, p. 579–586.

Metropolitan Council, 2004, Regional progress in water quality—Analysis of water quality data from 1976 to 2002 for the major rivers in the Twin Cities: St. Paul, MN, Metropolitan Council, Publication 32-04-045.

Mitsch, W.J., Day, J.W., Jr., Gilliam, W., Groffman, P.M., Hey, D.L., Randall, G.W., and Wang, N., 2001, Reducing nitrogen loading to the Gulf of Mexico from the Mississippi River basin—Strategies to counter a persistent ecological problem: Bioscience, v. 51, p. 373–388.

Mitsch, W.J., Day, J.W., Jr., Gilliam, J.W., Groffman, P.M., Hey, D.L., Randall, G.W., and Wang, N., 1999, Reducing nutrient loads, especially nitrate-nitrogen, to surface water, ground water, and the Gulf of Mexico: Topic 5 report for the integrated assessment on hypoxia in the Gulf of Mexico: Silver Spring, MD, National Oceanic and Atmospheric Administration Coastal Ocean Program Decision Analysis Series No. 19, 111 p. Available on line at: http://oceanservice.noaa.gov/products/hypox_t5final.pdf.

Mitsch, W.J., Day, J.W., Jr., Zhang, L., and Lane, R.R., 2005a, Nitrate-nitrogen retention in wetlands in the Mississippi River Basin: Ecological Engineering, v. 24, p. 267–278.

Mitsch, W.J., Zhang, L., Anderson, C.J., Altor, A.E., and Hernandez, M.E., 2005b, Creating riverine wetlands—Ecological succession, nutrient retention, and pulsing effects: Ecological Engineering, v. 25, p. 510–527.

Montagna, P., Hodges, B., Maidment, D., and Minsker, B., 2006, Long-term studies of hypoxia in Corpus Christi Bay: The cybercollaboratory testbed: Paper presented at Hypoxia Effects on Living Resources in the Gulf of Mexico, September 25–26, 2006: New Orleans, Louisiana, Tulane University, sponsored by National Oceanic and Atmospheric Administration Center for Sponsored Coastal Ocean Research.

Moomaw, W.R., 2002, Energy, industry and nitrogen—Strategies for decreasing reactive nitrogen emissions: AMBIO, A Journal of the Human Environment, v. 31, no. 2, p. 184–189.

Morey, S.L., Martin, P.J., O’Brien, J.J., Wallcraft, A.A., Zavala-Hidalgo, J., 2003a, Export pathways for river discharged fresh water in the northern Gulf of Mexico: Journal of Geophysical Research, v. 108, C10, 3303, doi:1029/2002JC001674.

Morey, S.L., Schroeder, W.W., O’Brien, J.J., and Zavala-Hidalgo, J., 2003b, The annual cycle of riverine influence in the eastern Gulf of Mexico basin: Geophysical Research Letters, v. 30, 1867, doi:10.1029/2003GL017348.

Morgenstern, R., and Pizer, W., eds., 2007, Reality check—The nature and performance of voluntary environmental programs in the United States, Europe, and Japan: Washington, D.C., Resources for the Future Press, 200 p.

Morse, J.W., and Eldridge, P.M., in press, A non-steady state diagenetic model for changes in sediment biogeochemistry in response to seasonally hypoxic/anoxic conditions in the “dead zone” of the Louisiana shelf: Marine Chemistry, v. __, p. __–__, Accepted for publication, draft available online at: http://yosemite.epa.gov/sab/sabhap.nsf/2a890dc663b46bc685256d63006ac3aa/6ca36cf055bc5b2d8525727c004bc993/$FILE/Morse%20and%20Eldridge%202007.pdf.

Morse, J.W., and Rowe, G.T., 1999, Benthic biogeochemistry beneath the Mississippi River plume: Estuaries, v. 22, p. 206–214.

Mortimer, C.H.J., 1941, The exchange of dissolved substances between mud and water in lakes—I and II: Journal of Ecology, v. 29, p. 280–329.

Mosier, A., Kroeze, C., Nevison, C., Oenema, O., Seitzinger, S., and van Cleemput, O., 1998, Closing the global N2O budget: Nitrous oxide emissions through the agricultural nitrogen cycle: Nutrient Cycling in Agroecosystems, v. 52, no. 2-3, p. 225-248, available on-line at: http://www.springerlink.com/content/lu04703848m261w5/.

MR/GMWNTF, 2001, Action plan for reducing, mitigating, and controlling hypoxia in the northern Gulf of Mexico: Washington, D.C., Mississippi river/Gulf of Mexico Watershed Nutrient Task Force, 36 p. Available on line at: http://www.epa.gov/msbasin/taskforce/pdf/actionplan.pdf.

Mueller, D.H., Wendt, R.C., and Daniel, T.C., 1984, Phosphorus losses as affected by tillage and manure application: Soil Science Society of America Journal, v. 48, p. 901–905.

Mulholland, P.J., Steinman, A.D., Marzolf, E.R., Hart, D.R., and DeAngelis, D.L., 1994, Effect of periphyton biomass on hydraulic characteristics and nutrient cycling in streams: Oecologia, v. 98, p. 40–47.

Mulvaney, R.L., Khan, S.A., Hoeft, R.G., and Brown, H.M., 2001, A soil organic nitrogen fraction that reduces the need for nitrogen fertilization: Soil Science Society of America Journal, v. 65, p. 1164–1172.

Murdock, L.W., Howe, P.L., and Schwab, G.J., 2002, Variable rate nitrogen fertilizer for corn grown in Kentucky, in Proceedings of the North-Central Extension-Industry Soil Fertility Conference: Brookings, SD, Potash and Phosphate Institute, v. 18, p. 81–85.

NASA-SeaWiFS, 2007, Sea-viewing Wide Field-of-view Sensor (SeaWiFS) Project: National Aeronautics and Space Administration, available on line at: http://oceancolor.gsfc.nasa.gov/SeaWiFS/.

National Academy of Sciences, 2007, Mississippi River water quality and the Clean Water Act: Progress, challenges, and opportunities: National Research Council, National Academy of Sciences, Committee on the Mississippi River and the Clean Water Act, 215 p., available on line at: http://www.nap.edu/catalog.php?record_id=12051.

National Research Council, 2000, Clean coastal waters—Understanding and reducing the problems from nutrient pollution: Washington, D.C., National Academy of Sciences Press, 405 p.

National Research Council, 2004, Adaptive management for water resource planning: Washington, D.C., National Academy of Science Press, 123 p.

Neal, C., 2001, The potential for phosphorus pollution mediation by calcite precipitation in UK freshwaters: Hydrology and Earth System Sciences, v. 5, p. 119–131.

Neitsch, S.L., Arnold, J.G., Kiniry, J.R., Srinivasan, R., and Williams, J.R., 2004, Soil and water assessment tool input/output file documentation, version 2005: Temple, TX, U.S. Department of Agriculture, Agricultural Research Service, Grassland, Soil and Water Research Laboratory, available online at: ftp://ftp.brc.tamus.edu.pub/outgoing/sammons/swat2005 (accessed 11/28/06).

Nelson, R., Tietenberg, T., and Donihue, M.R., 1993, Differential environmental regulation: effects on electric utility capital turnover and emissions: Review of Economics and Statistics, v. 75, p. 368–373.

Nielsen, K., Nielsen, L.P., and Rasmussen, P., 1995, Estuarine nitrogen retention independently estimated by the denitrification rate and mass balance methods—A study of Norsminde Fjord, Denmark: Marine Ecology Progress Series, v. 119, p. 273–283.

Nixon, S.W., 1992, Quantifying the relationship between nitrogen input and the productivity of marine ecosystems: Tokyo, Japan, Advanced Marine Technology Conference, no. 5.

Nixon, S.W., Ammerman, J., Atkinson, L., Berounsky, V., Billen, G., Boicourt, W., Boynton, W., Church, T., DiToro, D., Elmgren, R., Garber, J., Giblin, A., Jahnke, R., Owens, N., Pilson, M.E.Q., and Seitzinger, S., 1996, The fate of nitrogen and phosphorus at the land-sea margin of the North Atlantic Ocean: Biogeochemistry, v. 35, p. 141–180.

Nixon, S.W., Kelly, J.R., Furnas, B.N., Oviatt, C.A., and Hale, S.S., 1980, Phosphorus regeneration and the metabolism of coastal marine bottom communities, in Tenore, K.R., and Coull, B.C., eds., Marine Benthic Dynamics: University of South Carolina Press, p. 219–242.

NOAA, 2007, Nutrient Enhanced Coastal Ocean Productivity (NECOP) Program: National Oceanic and Atmospheric Administration, Washington, DC, available online at: http://www.aoml.noaa.gov/ocd/necop/, accessed April, 2007.

Northcott, W.J., Cooke, R.A., Walker, S.E., Mitchell, J.K., and Hirschi, M.C., 2001, Application of DRAINMOD-N to fields with irregular drainage systems: Transactions of the American Society of Agricultural Engineers, v. 44, no. 2, p. 241-249.

Novak, J.M., Stone, K.C., Watts, D.W., and Johnson, M.H., 2003, Dissolved phosphorus transport during storm and base flow conditions from an agriculturally intensive Southeastern Coastal Plain watershed: Transactions of the American Society of Agricultural Engineers, v. 46, no. 5, p. 1355–1363.

Nowlin, W.D., Jochems, A.E., DiMarco, S.F., Reid, R.O., and Howard, M.K., 2005, Low-frequency circulation over the Texas-Louisiana continental shelf, in Sturges, W., and Lugo-Fernandez, A., eds., Circulation in the Gulf of Mexico—Observations and models: American Geophysical Union, Geophysical Monograph, v. 161, p. 219–240.

Oberle, S.L., and Keeney, D.R., 1990, Soil type, precipitation, and fertilizer N effects on corn yields: Journal of Production Agriculture, v. 3, p. 522–527.

O’Connor, T., and Whitall, D., 2007, Linking hypoxia to shrimp catch in the northern Gulf of Mexico: Marine Pollution Bulletin, v. 54, no. 4, p. 460-463.

O’Donnell, T.K., and Galant, D.L., in press, Evaluating success criteria and project monitoring in river enhancement within an adaptive management framework: Environmental Management, (in press).

Oey, L.-Y., Ezer, T., Forristall, G., Cooper, C., DiMarco, S., and Fan, S., 2005a, An exercise in forecasting loop current and eddy frontal positions in the Gulf of Mexico: Geophysical Research Letters, v. 32, L12611, doi:10.1029/2005GL023253.

Oey, L.-Y., Ezer, T., and Lee, H.-C., 2005b, Loop current rings and related circulation in the Gulf of Mexico—A review of numerical models and future challenges, in Sturges, W., and Fernandez, A., eds., Circulation in the Gulf of Mexico—Observations and models: American Geophysical Union, p. 31–56.

Ogden, J.C., Davis, S.M., Jacobs, K.J., Barnes, T., and Fling, H.E., 2005, The use of conceptual ecological models to guide ecosystem restoration in south Florida: Wetlands, v. 25, no. 4, p. 795–809.

Oguz, T., and Gilbert, D., 2007, Abrupt transitions of the top-down controlled Black Sea pelagic ecosystem during 1960–2000—Evidence for regime-shifts under strong fishery exploitation and nutrient enrichment modulated by climate-induced variations: Deep-Sea Research, v. 54, p. 220–242.

Ohlmann, J.C., and Niiler, P.P., 2005, Circulation over the continental shelf in the northern Gulf of Mexico: Progress in Oceanography, v. 64, p. 45–81.

Olness, A.E., Smith, S.J., Rhoades, E.D., and Menzel, R.G., 1975, Nutrient and sediment discharge from agricultural watersheds in Oklahoma: Journal of Environmental Quality, v. 4, p. 331–336.

Olson, R.J., Hensler, R.F., Attoe, O.J., Witzel, S.A., and Peterson, L.A., 1970, Fertilizer nitrogen and crop rotation in relation to movement of nitrate nitrogen through soil profiles: Soil Science Society of America Proceedings, v. 34, p. 448–452.

Omay, A.B., Rice, C.W., Maddux, L.D., and Gordon, W.B., 1997, Changes in soil microbial and chemical properties under long-term crop rotation and fertilization: Soil Science Society of America Journal, v. 61, p. 1672–1678.

Opdyke, M.R., David, M.B., and Rhoads, B.L., 2006, The influence of geomorphological variability in channel characteristics on sediment denitrification in agricultural streams: Journal of Environmental Quality, v. 35, p. 2103–2112.

Osborne, S.L., Schepers, J.S., Francis, D.D., and Schlemmer, M.R., 2002, Detection of phosphorus and nitrogen deficiencies in corn using spectral radiance measurements: Agronomy Journal, v. 94, p. 1215–1221.

Osterman, L.E., Poore, R.Z., Swarzenski, P.W., and Turner, R.E., 2005, Reconstructing a 180-yr record of natural and anthropogenic induced hypoxia from the sediments of the Louisiana continental shelf: Geology, v. 33, no. 4, p. 329–332.

Owens, L.B., Edwards, W.M., and Van Keuren, R.W., 1997, Runoff and sediment losses resulting from winter feeding on pastures: Journal of Soil and Water Conservation, v. 52, p. 194–197.

Owens, L.B., Malone, R.W., Shiptalo, M.J., Edwards, W.M., and Bonta, J.V., 2000, Lysimeter study of nitrate leaching from a corn-soybean rotation: Journal of Environmental Quality, v. 29, p. 467-474.

Paerl, H.W., and Fulton, R.S., III, 2006, Ecology of harmful cyanobacteria, in Graneli, E., and Turner, J., eds., Ecology of harmful marine algae: Berlin, Springer-Verlag, p. 69–78.

Paerl, H.W., Valdes, L.M., Piehler, M.F., and Stow, C.A., 2006b, Assessing the effects of nutrient management in an estuary experiencing climatic change—The Neuse River Estuary, NC, USA: Environmental Management, v. 37, p. 422–436.

Pakulski, J.D., Benner, R., Whitledge, T., Amon, R., Eadie, B., Cifuentes, L., Ammerman, J., and Stockwell, D., 2000, Microbial metabolism and nutrient cycling in the Mississippi and Atchafalaya River plumes: Estuarine and Coastal Shelf Science, v. 50, no. 2, p. 173–184.

Paludan, C., and Blicher-Mathiesen, G., 1996, Losses of inorganic carbon and nitrous oxide from a temperate freshwater wetland in relation to nitrate loading: Biogeochemistry, v. 35, no. 2, p. 305-326.

Parkin, T.B., and Kaspar, T.C., 2006, Nitrous oxide emissions from corn-soybean systems in the Midwest: Journal of Environmental Quality, v. 35, p. 1496-1506.

Patrick, W.H., Jr., Gotoh, S., and Williams, B.G., 1973, Strengite dissolution in flooded soils and sediments: Science, v. 179, p. 564–565.

Patterson, B.D., 1987, The principle of nested subsets and its implications for biological conservation: Conservation Biology, v. 1, p. 323–334.

Pavelis, G.A., ed., 1987, Farm drainage in the United States—History, status, and prospects: U.S. Department of Agriculture, Economic Research Service, Misc. Pub. 1455, 170 p.

Perez, A.N., Oehlers, L., and Walter, R.B., 2006, Detection of hypoxia-related proteins in Medaka (Oryzias latipes) by difference gel electrophoresis and identification by sequencing of peptides using MALDI-TOF mass spectrometry: Paper presented at Hypoxia Effects on Living Resources in the Gulf of Mexico, September 25–26, 2006, Tulane University, New Orleans, Louisiana, sponsored by National Oceanic and Atmospheric Administration Center for Sponsored Coastal Ocean Research.

Perlack, R.D., and Turhollow, A.F., 2003, Feedstock cost analysis of corn stover residues for further processing: Energy, v. 28, no. 14, p. 1395-1403.

Perlack, R.D., Wright, L.L., Turhollow, A.F., Graham, R.L., Stokes, B.J., Erbach, D.C., 2005, Biomass as feedstock for a bioenergy and bioproducts industry: The technical feasibility of a billion-ton annual supply: Oak ridge National Laboratory, 78 p., available on line at: http://feedstockreview.ornl.gov/pdf/billion_ton_vision.pdf.

Peters, R.H., 1986, The role of prediction in limnology: Limnology and Oceanography, v. 31, p. 1143–1159.

Phipps, R.G., 1997, Nitrate removal capacity of constructed wetlands: Ames, IA, Iowa State University, Ph.D. dissertation, 68 p.

Phipps, R.G., and Crumpton, W.G., 1994, Factors affecting nitrogen loss in experimental wetlands with different hydrologic loads: Ecological Engineering, v. 3, p. 399–408.

Pierson, S.T., Cabrere, M.L., Evanylo, G.K., Kuykendall, H.A., Hoveland, C.S., McCann, M.A., and West, L.T., 2001, Phosphorus and ammonium concentrations in surface runoff from grasslands fertilized with broiler litter: Journal of Environmental Quality, v. 30, p. 1784–1789.

Platon, E., and Sen Gupta, B.K., 2001, Benthic foraminiferal communities in oxygen depleted environments of the Louisiana Continental Shelf, in Rabalais, N.N., and Turner, R.E., eds., Coastal hypoxia—Consequences for living resources and ecosystems: American Geophysical Union, Coastal and Estuarine Study Series, v. 58, p. 147–163.

Platon, E., Sen Gupta, B.K., Rabalais, N.N., and Turner, R.E., 2005, Effect of seasonal hypoxia on the benthic forminiferal community of the Louisiana inner continental shelf—The 20th century record: Marine Micropaleontology, v. 54, p. 263–283.

Popova, Y.A., Keyworth, V.G., Haggard, B.E., Storm, D.E., Lynch, R.A., and Payton, M.E., 2006, Stream nutrient limitation and sediment interactions in the Eucha-Spavinaw basin, USA: Journal of Soil and Water Conservation, v. 61, p. 105–115.

Pote, D.H., Daniel, T.C., Nichols, D.J., Sharpley, A.N., Moore, P.A., Jr., Miller, D.M., and Edwards, D.R., 1999, Relationship between phosphorus levels in three Ultisols and phosphorus concentrations in runoff: Journal of Environmental Quality, v. 28, p. 170–175.

Pote, D.H., Daniel, T.C., Sharpley, A.N., Moore, P.A., Jr., Edwards, D.R., and Nichols, D.J., 1996, Relating extractable soil phosphorus to phosphorus losses in runoff: Soil Science Society of America Journal, v. 60, p. 855–859.

Power, J.F., Wiese, R., and Flowerday, D., 2000, Managing nitrogen for water quality—Lessons from management systems evaluation area: Journal of Environmental Quality, v. 29, p. 355–366.

PPI/PPIC/FAR, 2005, Soil test levels in North America -- Summary update: Norcross, GA, Potash & Phosphate Institute, PPI/PPIC/FAR Technical Bulletin 2005-1.

PPI/PPIC/FAR, 2002, Plant nutrient use in North American agriculture—Producing food and fiber, preserving the environment and integrating organic and inorganic sources: Norcross, GA, Potash & Phosphate Institute, PPI/PPIC/FAR Technical Bulletin 2002-1.

Preston, S.D., and Brakebill, J.W., 1999, Application of spatially referenced regression modeling for the evaluation of total nitrogen loading in the Chesapeake Bay watershed: U.S. Geological Survey Water-Resources Investigations Report 99-4054, 12 p., available online at http://md.water.usgs.gov/publications/wrir-99-4054/html/index.htm

Prospero, J.M., Barrett, K., Church, T., Dentener, F., Duce, R.A., Galloway, J.N., Levy, H., Moody, J., and Quinn, P., 1996, Atmospheric deposition of nutrients to the North Atlantic Basin: Biogeochemistry, v. 35, p. 27–73.

Rabalais, N.N., 2006, Benthic communities and the effects of hypoxia in Louisiana coastal waters: Paper presented at Hypoxia Effects on Living Resources in the Gulf of Mexico, September 25–26, 2006, Tulane University, New Orleans, Louisiana, sponsored by National Oceanic and Atmospheric Administration Center for Sponsored Coastal Ocean Research.

Rabalais, N.N., Atilla, N., Normandeau, C., and Turner, R.E., 2004, Ecosystem history of Mississippi River-influenced continental shelf revealed through preserved phytoplankton pigments: Marine Pollution Bulletin, v. 49, p. 537–547.

Rabalais, N.N., Lohrenz, S.E., Redalje, D.G., Dortch, Q., Justić, D., Turner, R.E., Qureshi, N.A., Dagg, M.J., Eadie, B.J., and Fahnensteil, G.L., 1999b, Nutrient-enhanced coastal productivity and ecosystem responses, in Wiseman, W.J., Jr., Rabalais, N.N., Dagg, M.J., and Whitledge, T.E., eds., chap. 4, Nutrient enhanced coastal ocean productivity in the northern Gulf of Mexico: Silver Spring, MD, National Oceanic and Atmospheric Administration Coastal Ocean Program, Decision Analysis Series No. 14, U.S. Department of Commerce, National Ocean Service, Center for Sponsored Coastal Research, p. 51–78.

Rabalais, N.N., and Turner, R.E., 2001, Hypoxia in the northern Gulf of Mexico—Description, causes, and change, in Rabalais, N.N., and Turner, R.E., eds., Coastal hypoxia— Consequences for living resources and ecosystems: Washington, D.C., American Geophysical Union, Coastal and Estuarine Studies, v. 58, 454 p.

Rabalais, N.N., and Turner, R.E., 2006, Oxygen depletion in the Gulf of Mexico adjacent to the Mississippi River, in Neretin, L.N., ed., Past and present marine water column anoxia: NATO Science Series, IV-Earth and Environmental Sciences, Kluwer, p. 225–245.

Rabalais, N.N., Turner, R.E., Dortch, Q., Justić, D., Bierman, V.J., and Wiseman, W.J., 2002, Nutrient-enhanced productivity in the northern Gulf of Mexico—Past, present and future: Hydrobiologia, v. 475, p. 39–63.

Rabalais, N.N., Turner, R.E., Justić, D., Dortch, Q., and Wiseman, W.J., 1999a, Characterization of hypoxia: Topic 1 report for the integrated assessment of hypoxia in the Gulf of Mexico: Silver Spring, MD, National Oceanic and Atmospheric Administration Coastal Ocean Program Decision Analysis Series No. 15, 203 p. Available on line at: http://oceanservice.noaa.gov/products/hypox_t1final.pdf.

Rabalais, N.N., Turner, R.E., Sen Gupta, B.K., Platon, E., and Parsons, M.L., 2007, Sediments tell the history of eutrophication and hypoxia in the northern Gulf of Mexico: Ecological Applications, Supplement, v. 17, no. 5, p. 129-143.

Ragauskas, A.J., Williams, C.K., Davison, B.H., Britovsek, G., Cairney, J., Eckert, C.A., Fredrick, W.J., Jr., Hallet, J.P., Leak, D.J., Liotta, C.L., Mielenz, J.R., Murphy, R., Templer, R., and Tschaplinski, T., 2006, The path forward for biofuels and biomaterials: Science, v. 311, p. 484–489.

Ragueneau, O., Conley, D.J., Leynaert, A., Longphuirt, S.N., and Slomp, C.P., 2006a, Responses of coastal ecosystems to anthropogenic perturbations of silicon cycling, in Ittekot, V., Unger, D., and Humborg, C., eds., The silicon cycle: Human perturbations and impacts on aquatic systems: Washington, D.C., Island Press, p. 197–213.

Ragueneau, O., Conley, D.J., Leynaert, A., Longphuirt, S.N., and Slomp, C.P., 2006b, Role of diatoms in silica cycling and coastal marine food webs, in Ittekot, V., Unger, D., and Humborg, C., eds., The silicon cycle—Human perturbations and impacts on aquatic systems: Washington, D.C., Island Press, p. 163–195.

Raloff, Janet, 2004, Dead waters—Massive oxygen-starved zones are developing along the world’s coasts: Science News Online, June 5, 2004, v. 165, no. 23, 8 p., accessed June 28, 2007, at http://sciencenews.org/articles/20040605/bob9.asp.

Randall, G.W., Huggins, D.R., Russelle, M.P., Fuchs, D.J., Nelson, W.W., and Anderson, J.L., 1997, Nitrate losses through subsurface tile drainage in conservation reserve program, alfalfa, and row crop systems: Journal of Environmental Quality, v. 26, p. 1240–1247.

Randall, G.W., and Sawyer, J., 2005, Nitrogen application timing, forms and additives, in Gulf Hypoxia and Local Water Quality Concerns Workshop, Ames, IA, September 27–28, 2005, p. 73–84.

Randall, G.W., and Vetsch, J.A., 2005, Nitrate losses in subsurface drainage from a corn-soybean rotation as affected by fall vs. spring application of nitrogen and nitrapyrin: Journal of Environmental Quality, v. 34, no. 2, p. 590–597.

Randall, G.W., Vetsch, J.A., and Huffman, J.R., 2003, Nitrate losses in subsurface drainage from a corn-soybean rotation as affected by time of nitrogen application and use of nitrapyrin: Journal of Environmental Quality, v. 32, p. 1764–1772.

Raun, W.R., Solie, J.B., Stone, M.L., Martin, K.L., Freeman, K.W., Mullen, R.W., Zhang, H., Schepers, J.S., and Johnson, G.V., 2005, Optical sensor based algorithm for crop nitrogen fertilization: Communications in Soil Science and Plant Analysis, v. 36, nos. 19–20, p. 2759–2781.

Redalje, D.G., Lohrenz, S.E., and Fahnenstiel, G.L., 1992, Phytoplankton dynamics and the vertical flux of organic carbon in the Mississippi River Plume and inner Gulf of Mexico shelf region, in Falkowski, P.G., and Woodhead, A.D., eds., Primary productivity and biogeochemical cycles in the sea: New York, Plenum Press, 526 p.

Redalje, D.G., Lohrenz, S.E., and Fahnenstiel, G.L., 1994b, The relationship between primary production and the vertical export of particulate organic matter in a river impacted coastal ecosystem: Estuaries, v. 17, p. 829–838.

Redalje, D.G., Lohrenz, S.E., and Fahnenstiel, G.L., 1994a, The vertical export of particulate and dissolved organic carbon from the surface waters of the northern Gulf of Mexico shelf: Journal of Mississippi Academy of Sciences, v. 39, p. 63.

Reddy, K.R., Kadlec, R.H., Flag, E., and Gale, P.M., 1999, Phosphorous retention in streams and wetlands—A review: Environmental Science and Technology, Critical Review, v. 29, p. 83–146.

Reddy, K.R., Wetzel, R.G., and Kadlec, R.H., 2005, Biogeochemistry of phosphorous in wetlands, in Phosphorous—Agriculture and the environment: Madison, WI, Agronomy Monograph no. 46, American Society of Agronomy, Crop Science Society of America, Soil Science Society of America, p. 263–316.

Redfield, A.C., 1958, The biological control of chemical factors in the environment: American Scientist, v. 46, p. 205–222.

Reetz, H.F., Jr., Murrell, T.S., and Murrell, L.J., 2001, Site-specific nutrient management—Production examples: Norcross, GA, Potash & Phosphate Institute, Better Crops, v. 85, no. 1, p. 12–13, 17.

Reichelderfer, K., 1985, Do USDA program participants contribute to soil erosion: U.S. Department of Agriculture, Economic Research Service, Agricultural Economic Report No. 532, 83 p.

Rhoads, D.C., Boesch, D.F., Tang, Z., Xu, F., Huang, L., and Nilsen, K.J., 1985, Macrobenthos and sedimentary facies on the Changjiang delta platform and adjacent continental shelf, East China Sea: Continental Shelf Research, v. 4, p. 189–213.

Ribaudo, M., 1989, Targeting the Conservation Reserve Program to maximize water quality benefits: Land Economics, v. 65, p. 320–332.

Ribaudo, M., Heimlich, R., Claassen, R., and Peters, M., 2001, Least-cost management of non-point source pollution—Source reduction versus interception strategies for controlling nitrogen loss in the Mississippi basin: Ecological Economics, v. 37, p. 183–197.

Ribaudo, M., Heimlich, R., and Peters, M., 2005, Nitrogen sources and Gulf hypoxia—Potential for environmental credit trading: Ecological Economics, v. 52, p. 159–168.

Richards, R.P., and Baker, D.B., 2002, Trends in water quality in LEASEQ rivers and streams (northwestern Ohio), 1975–1995: Journal of Environmental Quality, v. 31, p. 90–96.

Richards, R.P., Baker, D.B ., Kramer, J.W., Ewing, D.E., Merryfield, B.J., and Miller, N.L., 2001, Storm discharge, loads, and average concentrations in northwest Ohio rivers, 1975–1995: Journal of the American Water Resources Association, v.37, p. 423–438.

Richardson, C.J., 1999, The role of wetlands in storage, release, and cycling of phosphorus on the landscape—A 25-year retrospective, in Reddy, K.R., ed., Phosphorus biogeochemistry in sub-tropical ecosystems, CRS Press/Lewis Publishers, Boca Raton, FL, p. 47–68.

Richardson, W.B., Strauss, E.A., Bartsch, L.A., Monroe, E.M., Cavanaugh, J.C., Vingum, L., and Soballe, D.M., 2004, Denitrification in the upper Mississippi River—Rates, controls, and contribution to nitrate flux: Canadian Journal of Fisheries and Aquatic Science, v. 61, p. 1102–1112.

Risser, P.G., 1985, Toward a holistic management perspective: BioScience, v. 35, p. 414–418.

Rizzo, W.M., Lackey, G.L., and Christian, R.R., 1992, Significance of euphotic, subtidal sediments to oxygen and nutrient cycling in a temperate estuary: Marine Ecology Progress Series, v. 86, p. 51–61.

Robertson, W.D., Blowes, D.W., Placek, C.J., and Cherry, J.A., 2000, Long-term performance of in situ reactive barriers for nitrate remediation: Ground Water, v. 38, p. 689–695.

Robinson, C.A., Cruse, R.M., and Ghaffarzadeh, M., 1996, Cropping system and nitrogen effects on mollisol organic carbon: Soil Science Society of America Journal, v. 60, p. 264–269.

Rowe, G.T. and Chapman, P., 2002, Continental shelf hypoxia—Some nagging questions: Gulf of Mexico Science, v. 20, p. 155–160.

Rowe, G.T., Cruz-Kaegi, M.L., Morse, J.W., Boland, G.S., and Escobar Briones, E.G., 2002, Sediment community metabolism associated with continental shelf hypoxia, northern Gulf of Mexico: Estuaries, v. 25, no. 6, p. 1097–1106.

Royer, T.V., David, M.B., and Gentry, L.E., 2006, Timing of riverine export of nitrate and phosphorus from agricultural watersheds in Illinois—Implications for reducing nutrient loading to the Mississippi River: Environmental Science and Technology, v. 40, p. 4126–4131.

Royer, T.V., Tank, J.L., and David, M.B., 2004, The transport and fate of nitrate in headwater, agricultural streams in Illinois: Journal of Environmental Quality, v. 33, p. 1296–1304.

Runkel, R.L., Crawford, C.G., and Cohn, T.A., 2004, Load estimator (LOADEST)—A FORTRAN program for estimating constituent loads in streams and rivers: U.S. Geological Survey Techniques and Methods, book 4, chap. A5, 69 p., available online at http://pubs.usgs.gov/tm/2005/tm4A5/.

Russell, A.E., Laird, D.A., Parkin, T.B., and Mallarino, A.P., 2005, Impact of nitrogen fertilization and cropping system on carbon sequestration in Midwestern mollisols: Soil Science Society of America Journal, v. 69, p. 413–422.

Russelle, M.P., Lamb, J.F.S., Montgomery, B.R., Elsenheimer, D.W., Miller, B.S., and Vance, C.P., 2001, Alfalfa rapidly remediates excess inorganic nitrogen at a fertilizer spill site: Journal of Environmental Quality, v. 30, p. 30–36.

Santhi, C., Arnold, J.G., Williams, J.R., Dugas, W.A., Srinivasan, R., and Hauck, L.M., 2001, Validation of the SWAT model on a large river basin with point and nonpoint sources: Journal of the American Water Resources Association, v. 37, no. 5, p. 1169–1188.

Saunders, D.C., and Kalff, J., 2001, Nitrogen retention in wetlands, lakes and rivers: Hydrobiologia, v. 443, p. 205–212.

Sawyer, J.E., and Nafziger, E.D., 2005, Regional approach to making nitrogen fertilizer rate decisions for corn: Proceedings of North Central Extension-Industry Soil Fertility Conference, v. 21, p. 16-24.

Sawyer, J.E., and Randal, G.W., in press, Nitrogen rates, in Proceedings of Gulf Hypoxia and Local Water quality Concerns Workshop, Ames, IA, September 26-28, 2005. (in press)

Scavia, D., and Donnelly, K.A., in press, Reassessing hypoxia forecasts for the Gulf of Mexico: Environmental Science and Technology, (accepted for publication 09/24/2007), available on line at: http://pubs.acs.org/cgi-bin/abstract.cgi/esthag/asap/abs/es0714235.html.

Scavia, D., Justić, D., and Bierman, V.J., Jr., 2004, Reducing hypoxia in the Gulf of Mexico—Advice from three models: Estuaries, v. 27, no. 3, p. 419–425.

Scavia, D., Kelly, E.L.A., and Hagy, J.D., III, 2006, A simple model for forecasting the effects of nitrogen loads on Chesapeake Bay hypoxia: Estuaries and Coasts, v. 29, no. 4, p. 674–684.

Scavia, D., Rabalais, N.N., Turner, R.E., Justić, D., and Wiseman, W.J., Jr., 2003, Predicting the response of Gulf of Mexico hypoxia to variations in Mississippi River nitrogen load: Limnology and Oceanography, v. 48, no. 3, p. 951–956.

Schaller, J.L, Royer, T.V., David, M.B., and Tank, J.L., 2004, Denitrification associated with plants and sediments in an agricultural stream: Journal of the North American Benthological Society, v. 23, no. 4, p. 667–676.

Scharf, P.C., Brouder, S.M., and Hoeft, R.G., 2006a, Chlorophyll meter readings can predict nitrogen need and yield response of corn in the North-Central USA: Agronomy Journal, v. 98, p. 655–665.

Scharf, P.C., Kitchen, N.R., Sudduth, K.A., Davis, J.G., 2006b, Spatially variable corn yield is a weak predictor of optimal nitrogen rate: Soil Science Society of America Journal, v. 70, p. 2154–2160.
1   ...   48   49   50   51   52   53   54   55   56

Похожие:

11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote iconBoard of Elections – Advisory Opinion 1398 – 1399

11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote iconPanel Report on the draft Replacement London Plan

11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote iconDraft: August 2July xxanuary x19, 20065 abstract [For presentation at the Advisory Group on apec financial System Capacity Building meeting at Seattle, February 28, 2007.]

11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote iconDraft – do not quote or distribute

11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote iconRanch hand advisory committee

11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote iconMedical Devices Advisory Committee

11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote iconPositions, training & advisory roles

11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote iconVeterinary medicine advisory committee

11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote iconAdvisory committee on immunization practices

11-19-07 Science Advisory Board (sab) Hypoxia Panel Draft Advisory Report Do Not Cite or Quote iconNational Vaccine Advisory Committee (nvac)

Разместите кнопку на своём сайте:
Библиотека


База данных защищена авторским правом ©lib.znate.ru 2014
обратиться к администрации
Библиотека
Главная страница