Journal ArticleDOI
A watershed perspective on nutrient enrichment, science, and policy in the Patuxent River, Maryland: 1960–2000
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TLDR
The Patuxent River, Maryland, is a nutrient-overenriched tributary of the Chesapeake Bay Nutrient inputs from sewage outfalls and non-point sources (NPS) have grown substantially during the last four decades, and chlorophyll a levels have increased markedly with concomitant reductions in water quality and dissolved oxygen concentrations as mentioned in this paper.Abstract:
The Patuxent River, Maryland, is a nutrient-overenriched tributary of the Chesapeake Bay Nutrient inputs from sewage outfalls and nonpoint sources (NPS) have grown substantially during the last four decades, and chlorophyll a levels have increased markedly with concomitant reductions in water quality and dissolved oxygen concentrations The Patuxent has gained national attention because it was one of the first river basins in the US for which basin-wide nutrient control standards were developed These included a reduction in NPS inputs and a limit on both nitrogen (N) and phosphorus (P) loadings in sewage discharges intended to return the river to 1950s conditions Full implementation of point source controls occurred by 1994, but population growth and land-use changes continue to increase total nutrient loadings to the river The present paper provides the perspectives of scientists who participated in studies of the Patuxent River and its estuary over the last three decades, and who interacted with policy makers as decisions were made to develop a dual nutrient control strategy Although nutrient control measures have not yet resulted in dramatic increases in water quality, we believe that without them, more extensive declines in water quality would have occurred Future reductions will have to come from more effective NPS controls since future point source loadings will be difficult to further reduce with present technology Changing land use will present a challenge to policy makers faced with sprawling population growth and accelerated deforestationread more
Citations
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Journal ArticleDOI
Eutrophication of Chesapeake Bay: historical trends and ecological interactions
W. M. Kemp,Walter R. Boynton,Jason E. Adolf,Donald F. Boesch,William C. Boicourt,Grace S. Brush,Jeffrey C. Cornwell,Thomas R. Fisher,Patricia M. Glibert,James D. Hagy,Lawrence W. Harding,Edward D. Houde,David G. Kimmel,W. D. Miller,Roger I. E. Newell,Michael R. Roman,Erik M. Smith,J. C. Stevenson +17 more
TL;DR: In this article, an integrated synthesis with timelines and evaluations of ecological responses to eutrophi- cation in Chesapeake Bay, the largest estuary in the USA, are provided.
Journal ArticleDOI
Temporal responses of coastal hypoxia to nutrient loading and physical controls
TL;DR: In this article, the authors review published parallel time-series data on hypoxia and loading rates for inorganic nutrients and labile organic matter to analyze trajectories of oxygen (O2) response to nutrient loading.
Journal ArticleDOI
Long-term change in dissolved inorganic nutrients in the heterotrophic Scheldt estuary (Belgium, The Netherlands)
Karline Soetaert,Jack J. Middelburg,Carlo H. R. Heip,Patrick Meire,Stefan Van Damme,Tom Maris +5 more
TL;DR: In this article, the authors investigated long-term trends in dissolved inorganic nutrients in the tidal part of the Scheldt estuary (Belgium, The Netherlands), and they found that the concentration of dissolved silicate (DSi), dissolved nitrogen (DIN), and phosphate (DIP) increased significantly until the mid 1970s, after which they declined linearly at rates of 0.6, 2.9, and 0.3 mmol L 21 yr 21, respectively.
Journal ArticleDOI
Solving problems resulting from solutions: evolution of a dual nutrient management strategy for the eutrophying Neuse River Estuary, North Carolina.
TL;DR: Improved wastewater P removal and a P-detergent ban in the late 1980s decreased P loading to the nutrient over-enriched Neuse River Estuary, NC without a contemporaneous reduction in N loading, leading to a decrease in upstream freshwater phytoplankton production and a reduction in nuisance algal blooms.
Journal ArticleDOI
Two Centuries of Nitrogen Dynamics: Legacy Sources and Sinks in the Mississippi and Susquehanna River Basins
TL;DR: In this paper, the authors synthesized data to develop a 214-year trajectory of reactive nitrogen inputs to the land surface of the continental U.S. and concurrently developed a parsimonious, process-based model, ELEMeNT, that pairs this input trajectory with a travel time-based approach to simulate transport and retention along subsurface pathways.
References
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Journal ArticleDOI
Nitrogen, Phosphorus, and Eutrophication in the Coastal Marine Environment
TL;DR: Removal of phosphate from detergents is not likely to slow the eutrophication of coastal marine waters, and its replacement with nitrogen-containing nitrilotriacetic acid may worsen the situation.
Journal ArticleDOI
Inputs, transformations, and transport of nitrogen and phosphorus in Chesapeake Bay and selected tributaries
TL;DR: In this paper, the authors assemble and analyze quantitative annual input-export budgets for total nitrogen (TN) and total phosphorus (TP) for Chesapeake Bay and three of its tributary estuaries (Potomac, Patuxent, and Choptank rivers).
Journal ArticleDOI
Nutrient Enrichment Studies in a Coastal Plain Estuary: Phytoplankton Growth in Large-Scale, Continuous Cultures
TL;DR: In bioassay experiments employing outdoor 0.5-m3 continuous cultures freshly inoculated with natural phytoplankton from the Patuxent River estuary, supplements of N enhanced growth greatly during the low-flow, late-summer season — a period when N:P ratios of dissolved inorganic nutrient standing stocks are characteristically below 5:1 (by atoms).
Book ChapterDOI
Nutrient fluxes across the sediment water interface in the turbid zone of a coastal plain estuary
TL;DR: Oxygen and nutrient fluxes across the sediment-water interface were measured over an annual cycle in the turbid portion of the Patuxent Estuary as mentioned in this paper, and the results indicated that nitrogen fluxes represent an important source to the water column in summer when photosynthetic demand is high and water column stocks are low, and, conversely, serve as a sink in winter when demand is low and Water column stocks high, thereby serving a buffering function between supply and demand.
Journal ArticleDOI
Estimation of net physical transport and hydraulic residence times for a coastal plain estuary using box models
TL;DR: A box model based on salinity distributions and freshwater inflow measurements was developed and used to estimate net non-tidal physical circulation and hydraulic residence times for Patuxent River estuary, Maryland, a tributary estuary of Chesapeake Bay as discussed by the authors.
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