| Document Name |
|---|
| Bibliography: OWOW - Sorted by SAB |
| Bibliography: Supplemental |
| Point Source Facilities Database |
| Responses of coastal ecosystems to anthropogenic perturbations of silicon cycling* |
| 11-19-07 HAP report |
| 12-20-07 HAP report |
| 7-24-07 HAP Draft with Balloons |
| 8-17-07 HAP Draft |
| 8-30-07 Draft Advisory |
| A comparison of independent N-loading estimates for U.S. estuaries. |
| A global perspective on the effects of eutrophication and hypoxia on aquatic biota |
| 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* |
| A Qualitative Assessment of the Relative Effects of Bycatch Reduction, Fisheries and Hypoxia on Coastal Nekton Communities in the Gulf of Mexico* |
| A retrospective analysis of trace metals, C, N and diatom remnants in sediments from the Mississippi River delta shelf. |
| A Science Strategy to Support Management Decisions Related to Hypoxia in the Northern Gulf of Mexico and Excess Nutrients in the Mississippi River Basin |
| A simple model for forecasting the effects of nitrogen loads on Chesapeake Bay hypoxia: |
| A Simulation of the Circulation in the Gulf of Mexico* |
| A step increase in streamflow in the conterminous United States |
| A strikingly rich zone—nutrient enrichment and secondary production in coastal marine ecosystems |
| Adoption of nutrient management techniques to reduce hypoxia in the Gulf of Mexico, |
| Agricultural conservation practices and related issues: Reviews of the state of the art and research needs |
| Alliance for Coastal Technologies (ACT) Workshop: State of Technology in the Development and Application of Dissolved Oxygen Sensors* |
| An evaluation of sediment rating curves for estimating suspended sediment concentrations in subsequent flux calculations |
| An Operational Forecast Modeling System for the Mississippi Sound/Bight* |
| An Organic Carbon Budget for the Mississippi River Turbidity Plume and Plume contributions to Air-sea CO2 Fluxes and Bottom Water Hypoxia* |
| Annual dissolved nitrite plus nitrate and total phosphorous loads for the Susquehanna, St. Lawrence, Mississippi-Atchafalaya, and Columbia River Basins, 1968-2004 |
| Annual suspended sediment and trace element fluxes in the Mississippi, Columbia, Colorado, and Rio Grande drainage basins [includes P] |
| Anthropogenically induced changes in sediment and biogenic silica fluxes in Chesapeake Bay |
| Aquatic hypoxia is an endocrine disruptor and impairs fish reproduction. |
| Atmospheric deposition of nitrogen in coastal waters: biogeochemical and ecological implications |
| Atmospheric deposition of nitrogen: implications for nutrient over-enrichment of coastal waters |
| Atmospheric Nitrogen Flux from the Watersheds of Major Estuaries of the United States: An Application of the SPARROW Watershed Model, |
| Atmospheric nitrogen in the Mississippi River Basin - emissions, deposition and transport |
| Awakening the dead zone: An investment for agriculture, water quality, and climate changes* |
| Benthic Communities and the Effects of Hypoxia in Louisiana Coastal Waters* |
Benthic Communities in the Northern Gulf of Mexico Hypoxic Area: Potential Prey for Demersal Fish.
|
| Benthic Foraminifera and environmental changes in Long Island Sound. |
| Benthic foraminifers from the continental shelf and slope of the Gulf of Mexico: an indicator of shelf hypoxia |
| Best Management Practices Database Developed by Virginia Tech for Chesapeake Bay Program |
| Biogeochemical Characteristics of the Lower Mississippi River, USA, During June 2003 |
| Biological effects of Mississippi River nitrogen on the northern gulf of Mexico - a review and synthesis |
| Carbon burial on river-dominated continental shelves: Impact of historical changes in sediment loading adjacent to the Mississippi River |
| Carbon Burial on River Dominated Continental Shelves: Impact of Historical Changes in Sediment Loading Adjacent to the Mississippi River* |
| Case Study - Hypoxia in the Gulf of Mexico* |
| Challenges and opportunities for science in reducing nutrient over-enrichment of coastal ecosystems. |
| Changes in Gene and Protein Expression and Reproduction in Grass Shrimp, Palaemonetes pugio, Exposed to Chronic Hypoxia* |
| Changes in stoichiometric Si, N and P ratios of Mississippi River water diverted through coastal wetlands to the Gulf of Mexico |
| Chemical and isotopic evidence of nitrogen transformation in the Mississippi River, 1997-98, |
| Climate change sensitivity on upper Mississippi River basin streamflows using SWAT |
| Climate, hypoxia and fisheries: Implications of global climate change for the Gulf of Mexico hypoxic zone |
| Climatic influences on riverine nitrate flux: Implications for coastal marine eutrophication and hypoxia |
| Coastal change and hypoxia in the northern Gulf of Mexico: Part I* |
| Coastal Hypoxia: Consequences for Living Resources and Ecosystems. |
| Combining new technologies for determination of phytoplankton community structure in the northern Gulf of Mexico. |
| Compilation of Measured Nutrient Load Data for Agricultural Uses in the United States |
| Concentrations, fluxes, and yields of nitrogen, phosphorus, and suspended sediment in the Illinois River Basin, 1996-2000 |
| Conservation best management practices, cost-share, and water quality trading programs |
| Continuous underway measurement of microbial ectoenzyme activities in aquatic ecosystems. |
| Coupling between climate variability and marine coastal eutrophication: historical evidence and future outlook |
| Cross-talk between Pyrene and Hypoxia Signaling Pathways in Embryonic Cyprinodon variegatus* |
| Cyanobacterial blooms in the Baltic Sea: natural or human-induced? |
| Data and modeling for environmental credit trading |
| Declining threshold for hypoxia in the Gulf of Mexico. |
| Denitrification in the Upper Mississippi River: rates, controls, and contribution to nitrate flux: |
| Detection of Hypoxia-related Proteins in Medaka (Oryzias latipes) by Difference Gel Electrophoresis and Identification by Sequencing of Peptides using MALDI-TOF Mass Spectrometry* |
| Dissolved organic phosphorus in the Mississippi plume during spring and fall 2002 |
Dissolved organic phosphorus in the Mississippi River plume
during spring and fall 2002 |
| Distribution and controlling mechanisms of primary production over the Louisiana-Texas continental shelf |
| Distribution of zooplankton on a seasonally hypoxic continental shelf. |
| Ecosystem history of Mississippi River-influenced continental shelf revealed through preserved phytoplankton pigments. |
| Effect of hypoxia/anoxia on the supply and settlement of benthic invertebrate larvae. |
| Effect of seasonal hypoxia on the benthic foraminiferal community of the Louisiana inner continental shelf: The 20th century record. |
| Effect of seasonal sediment storage in the lower Mississippi River on the flux of reactive particulate phosphorus to the Gulf of Mexico. |
| Effect of stream channel size on the delivery of nitrogen to the Gulf of Mexico, |
| Effects of natural light on nitrogen dynamics. |
| Effects of river discharge, wind stress, and slope eddies on circulation and the satellite-observed structure of the Mississippi River plume. |
| Effects of seasonal hypoxia on continental shelf benthos. |
| Element ratios in aquatic food webs |
| Environmental effects of U.S. Department of Agriculture conservation programs |
| Estimates of diffuse phosphorus sources in surface waters of the United States using a spatially referenced watershed model |
| Eutrophication of marine waters: effects on benthic microbial communities |
| Eutrophication: Nitrate flux in the Mississippi River, |
| Evaluating the impacts of land management and climate variability on crop production and nitrate export across the Upper Mississippi Basin* |
| Evaluation of the Northern Gulf of Mexico Littoral Initiative Model Based on the Observed Temperature and Salinity in the Mississippi Bight * |
| Factors in the decline of coastal ecosystems. |
| Fertilizer: Complex Issue Calls for Informed Debate. Comment* |
Forecasting Hypoxia in the Gulf of Mexico: Responses to Nutrient Loadings from the Mississippi River Basin.
|
| Forecasting the Environment of the Littoral Waters in the Northern Gulf of Mexico* |
| Future aquatic nutrient limitations. |
| Future perspectives for hypoxia in the northern Gulf of Mexico |
| Global patterns of dissolved inorganic and particulate nitrogen inputs to coastal systems: recent conditions and future projections. |
| Global patterns of dissolved N, P and Si in large rivers. |
| Growth and grazing rates of bacteria sub-populations with different apparent DNA content in the Gulf of Mexico |
| Gulf of Mexico Dead Zone – the Last 150 Years |
| Habitat Selection by Flatfishes along Gradients of Environmental Variability: Implications for Susceptibility to Hypoxia in the Northern Gulf of Mexico* |
| Harmful algal blooms and eutrophication: nutrient sources, composition, and consequences. |
| High-resolution measurements of chromophoric dissolved organic matter in the Mississippi and Atchafalaya River plume regions |
| High rates of ammonium recycling drive phytoplankton productivity in the offshore Mississippi River plume |
| Historical trends in Chesapeake Bay dissolved oxygen based on benthic foraminifera from sediment cores |
| Historical trends of hypoxia on the Louisiana shelf: application of pigments as biomarkers. |
| How climate controls the flux of nitrogen by the Mississippi River and the development of hypoxia in the Gulf of Mexico* |
| Human impact on erodable phosphorus and eutrophication: a global perspective. |
| Hydrological models are so good, do we still need data? |
| Hypoxia in the Baltic Sea and basin-scale changes in phosphorus biogeochemistry: |
| Hypoxia in the Gulf of Mexico |
| Hypoxia in the Gulf of Mexico, a.k.a. “The Dead Zone.” |
| Hypoxia in the Northern Gulf of Mexico: Description, causes and change. |
| Hypoxia, fertilizer, and the Gulf of Mexico. |
| Impacts of changing Si/N ratios and phytoplankton species composition |
| Impacts of climate change on streamflow in the upper Mississippi River basin: A regional climate model perspective |
| Impacts of Frontal Stability and Topography on Cross-Shelf Exchange in the Northern Gulf of Mexico* |
| Impacts of Hypoxia on Physiology and Toxicology of the Brown Shrimp Penaeus aztecus* |
| Impacts of winter storms on circulation and sediment transport: Atchafalaya-Vermilion Bay region, Louisiana, USA |
| Implementing agricultural conservation practices: Barriers and incentives |
| Implications of Global Climate Change for Coastal and Estuarine Hypoxia: Hypotheses, Observations and Models for the Northern Gulf of Mexico |
| In-pixel variations of chl a fluorescence in the Northern Gulf of Mexico and their implications for calibrating remotely sensed chl a and other products. |
| Influence of river flow and nutrient loads on selected ecosystem processes: A synthesis of Chesapeake Bay data. |
| Innovation in agricultural conservation for the Chesapeake Bay: Evaluating progress & addressing future challenges: |
| Inorganic nitrogen transformations at high loading rates in an oligohaline estuary. |
| Integration for sustainable catchment management |
| Interactions between nutrients, phytoplankton, growth, and micro- and mesozooplankton grazing in the plume of the Mississippi River |
| Isotopic and chemical composition of inorganic and organic water-quality samples from the Mississippi River Basin, 1997-98* |
| Least-cost management of nonpoint source pollution: source reduction versus interception strategies for controlling nitrogen loss in the Mississippi Basin. |
| Linkage between microzooplankton grazing and phytoplankton growth in a Gulf of Mexico estuary |
| Linking hypoxia to shrimp catch in the northern Gulf of Mexico* |
| Linking landscape and water quality in the Mississippi River basin for 200 years. |
| Long-term changes in concentrations and flux of nitrogen in the Mississippi River Basin, USA, |
| Long-Term Studies of Hypoxia in Corpus Christi Bay: The Cybercollaboratory Testbed* |
| Louisiana estuarine and coastal fisheries and habitats: Perspectives from a fish's eye view |
| Macrobenthic community structure within and beneath the oxygen minimum zone, northwest Arabian Sea |
| Marine modification of terrestrial influences on Gulf hypoxia: Part II* |
| Mesozooplankton consumption of microplankton in the Mississippi River plume with special emphasis on planktonic ciliates |
| Microarray Gene Expression Analyses in Medaka (Oryzias latipes) Exposed to Hypoxia* |
| Microbial ammonium recycling in the Mississippi River plume during the drought spring of 2000. |
| Microbial metabolism and nutrient cycling in the Mississippi and Atchafalaya River plumes |
| Modeling Hydrodynamics of the Mississippi River Sound and Adjoining Rivers, Bays and Shelf Waters* |
| Modeling the impact of hydrological changes on nitrate transport in the Mississippi River Basin from 1955-1994.* |
| Modeling the impacts of decadal changes in riverine nutrient fluxes on coastal eutrophication near the Mississippi River Delta |
| Modeling the response of primary production and sedimentation to variable nitrate loading in the Mississippi River plume |
| Molecular indicators of the sources and transformations of dissolved organic matter in the Mississippi river plume |
| Morphology and DNA content of bacterioplankton in the northern Gulf of Mexico – analyses by epifluorescence microscopy and flow cytometry |
| Natural and anthropogenic changes in Chesapeake Bay during the last 1000 years |
| Nitrate-N in surface waters as influenced by climatic conditions and agricultural practices. |
| Nitrification in the Upper Mississippi River: patterns, controls, and contributions to the NO3- budget |
Nitrification induced inhibition of heterotrophic bacterial production in the hypoxic region of the Mississippi River plume.
|
| Nitrogen and phosphorus concentration and retention in water flowing over freshwater wetlands. |
| Nitrogen and phosphorus transport between Fourleague Bay, LA, and the Gulf of Mexico: the role of winter cold fronts and Atchafalaya River discharge |
| Nitrogen and Wastewater Systems: Fate of Nitrogen in Wastewater, Control Technology Options, Managing Wetlands and other Natural Systems to Control Nitrrgen, etc.* |
Nitrogen as the limiting nutrient for eutrophication in coastal marine ecosystems: Evolving views over 3 decades.
|
| Nitrogen Cycles: Past, Present, and Future |
| Nitrogen dynamics in sediment during water level manipulation on the upper Mississippi River |
| Nitrogen Flux and sources in the Mississippi River Basin. |
| Nitrogen in aquatic ecosystems. |
| Nitrogen in the Mississippi Basin—Estimating sources and predicting flux to the Gulf of Mexico |
| Nitrogen input to the Gulf of Mexico. |
| Nitrogen sources and Gulf hypoxia: potential for environmental credit trading. |
| Nitrogen use in the United States from 1961-200 and potential future trends. |
| Northern Gulf of Mexico Littoral Initiative Modeling Program* |
| Numerical increases and distributional shifts of Chrysaora quinquecirrha (Desor) and Aurelia aurita (Linne) (Cnidaria : Scyphozoa) in the northern Gulf of Mexico |
| Nutrient-enhanced productivity in the northern Gulf of Mexico: past, present and future. |
| Nutrient load characterization from integrated source data for the lower Mississippi River |
| Nutrient pollution of coastal rivers, bays, and seas. |
| Nutrients and the "dead zone": the link between nutrient ratios and dissolved oxygen in the northern Gulf of Mexico* |
| Nutrients in the Changjiang and its tributaries |
| Nutrients in the Upper Mississippi River: Scientific Information to Support Management Decisions: The Upper Mississippi River – Values and Vulnerability: |
| On the seasonal correlation of surface particle fields with wind stress and Mississippi discharge in the northern Gulf of Mexico, |
| Optical properties of colored dissolved organic matter in the Northern Gulf of Mexico |
| Organic matter distribution and accumulation on the inner Louisiana shelf west of the Atchafalaya River |
| Our evolving conceptual model of the coastal eutrophication problem |
| Paleo-indicators and water quality change in the Charlotte Harbor Estuary (Florida). |
| Paleoecology of submerged macrophytes in the Upper Chesapeake Bay |
| Perspectives for coastal marine hypoxia in a warmer world |
Phosphorus Limitation of Phytoplankton Growth in the Mississippi River Plume: A Case for Dual Nutrient Control?
|
| Photo- and heterotrophic pico- and nanoplankton in the Mississippi River Plume: Distribution and Grazing Activity |
| Physical Oceanography in Gulf Presentation by Dr. Steven DiMarco, Texas A&M University. |
| Physical Processes of the northern Gulf of Mexico and their influence on Hypoxia of the Texas-Louisiana Shelf |
| Physiological responses to hypoxia* |
| Phytoplankton community structure and productivity along the axis of the Mississippi River plume in oligotrophic Gulf of Mexico waters. |
| Picophytoplankton and bacterioplankton in the Mississippi River plume and its adjacent waters |
Picophytoplankton and bacterioplankton in the Mississippi River plume and its adjacent waters.
|
| Predicting summer hypoxia in the Northern Gulf of Mexico: Riverine N, P and Si loading. |
| Predicting the response of Gulf of Mexico hypoxia to variations in Mississippi River nitrogen load. |
| Quantification of surface suspended sediments along a river dominated coast with NOAA AVHRR and SeaWiFS measurements |
| Rapid Export of Organic Matter to the Mississippi Canyon |
| Reactive nitrogen and the world: two hundred years of change |
| Reconstructing a 180-yr record of natural and anthropogenic induced hypoxia from the sediments of the Louisiana continental shelf |
| Reconstructing the development of eutrophication in Louisiana salt marshes |
| Reducing hypoxia in the Gulf of Mexico: Advice from three models. |
| Reducing nitrogen loading to the Gulf of Mexico from the Mississippi River basin: Strategies to counter a persistent ecological problem. |
| Relating net N input in the Mississippi River basin to nitrate flux in the lower Mississippi River: A comparison of approaches. |
Relationships among Satellite Chlorophyll a, River Inputs, and
Hypoxia on the Louisiana Continental Shelf, Gulf of Mexico |
| Responses of nekton and demersal and benthic fauna to decreasing oxygen concentrations. |
| Review. Effects of hypoxia and organic enrichment on the coastal marine environment |
| Role of diatoms in silica cycling and coastal marine food webs* |
| Science and integrated drainage basin coastal management. Chesapeake Bay and Mississippi Delta. |
| Seasonal and regional characteristics of U.S. streamflow trends in the United States from 1940 to 1999 |
| Seasonal Changes in the Abundance and Composition of Plant Pigments in Particulate Organic Carbon in the Lower Mississippi and Pearl Rivers |
| Seasonal effects of the zebra mussel (Dreissena polymorpha) on sediment denitrification rates in Pool 8 of the Upper Mississippi River |
| Seasonal hypoxia in the bottom water off the Mississippi River delta. |
| Seasonal Phosphorus Limitation on the Louisiana Shelf: A Result of Anthropogenic Nitrogen Loading From the Mississippi River? |
| Seasonal Phosphorus Limitation on the Louisiana Shelf: A Result of Nitrogen Loading from the Mississippi River? |
| Sediment community metabolism associated with Continental Shelf Hypoxia. |
| Sediment denitrification in the Gulf of Mexico zone of hypoxia |
| Sediment geochemical records of eutrophication in the mesohaline Chesapeake Bay. |
| Sedimentation, carbon export and food web structure in the Mississippi River plume described by inverse analysis |
| Sedimentological evidence of an increase in Pseudo-nitzschia (Bacillariophyceae) abundance in response to coastal eutrophication |
| Shift from P to N limitation of phytoplankton growth across the Pearl River estuarine plume during summer. |
| Simulated responses of the Gulf of Mexico hypoxia to variations in climate and anthropogenic nutrient loading |
| Some effects of eutrophication on pelagic and demersal marine food webs. |
| Sources and distribution of terrigenous organic matter delivered by the Atchafalaya River to sediments in the northern Gulf of Mexico |
| Sources of nutrient pollution to coastal waters in the United States: implications for achieving coastal water quality goals. |
| Sources of Nutrients in the Nation's Watersheds |
| Storm-induced injection of the Mississippi River plume into the open Gulf of Mexico. |
| Strategies for the sustainable management of phosphorus: in Phosphorus* |
| Streamflow trends in the United States: |
| Streamflow trends in the United States…from the National Streamflow Information Program |
| Subgroup 1 Presentation by Dr. Jim Sanders, Subgroup 1 Leader, Hypoxia Advisory Panel |
| Summer hypoxia adjacent to the Changjiang Estuary* |
| Summer hypoxia in the northern Gulf of Mexico and its prediction from 1978 to 1995. |
| Surf or Turf: A shift from feed to food cultivation could reduce nutrient flux to the Gulf of Mexico* |
| Suspended sediment, C, N, P, and Si yields from the Mississippi River Basin. |
| Taphonomy on the continental shelf and slope: two-year trends - Gulf of Mexico and Bahamas. |
| Temperature and Salinity Variability in the Mississippi Bight* |
| Temporal and spatial large-scale effects of eutrophication and oxygen deficiency on benthic fauna in Scandinavian and Baltic waters – a review |
| Temporal variability in sources of dissolved organic carbon in the lower Mississippi River. |
Temporal variability in the composition and abundance of
terrestrially-derived dissolved organic matter in the
lower Mississippi and Pearl Rivers |
| Temporal variability in the composition and abundance of terrestrially-derived dissolved organic matter in the lower Mississippi and Pearl Rivers |
| The Calibration /Validation of a Mississippi Sound/bight Model* |
| The composite method: an improved method for stream-water solute load estimation |
| The development of policy approaches for reducing nitrogen pollution to coastal waters of the USA. |
| The effect of the “Great Flood of 1993” on subsequent suspended sediment concentrations and fluxes in the Mississippi River Basin, USA |
| The Effects of Bottom Oxygen Demand in Controlling the Structure of Hypoxia on the Texas-Louisiana continental shelf |
| The effects of hypoxia on animal distributions. |
| The influence of climate on in-stream removal of nitrogen* |
| The nitrogen cascade. |
| The soil and water assessment tool: Historical development, applications, and future research directions: . |
| Time scales of nutrient losses from land to sea—a European perspective. |
| Total nitrogen inflow and outflow from a large river swamp basin to the Gulf of Mexico* |
| Transformation of dissolved and particulate materials on continental shelves influenced by large rivers: plume processes. |
| Trends in the water budget of the Mississippi River basin, 1949-1997 |
| Tropical storm and hurricane wind effects on water level, salinity, and sediment transport in the river-influenced Atchafalaya-Vermilion Bay system, Louisiana, USA. |
| Understanding human impact on the Baltic ecosystem: changing view in recent decades |
| Upper Mississippi River Basin modeling system part 1: SWAT input data requirements and issues |
| Variability and regulation of denitrification in an Upper Mississippi River backwater |
| We All Live Downstream (and Upstream). |