Factors Affecting Nutrient Trends in Major Rivers of the Chesapeake Bay Watershed
Author :
Publisher :
Page : 112 pages
File Size : 48,80 MB
Release : 2000
Category : Agriculture
ISBN :
Author :
Publisher :
Page : 112 pages
File Size : 48,80 MB
Release : 2000
Category : Agriculture
ISBN :
Author :
Publisher :
Page : 112 pages
File Size : 11,93 MB
Release : 2000
Category : Agriculture
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Author : Michael P. Senus
Publisher :
Page : 48 pages
File Size : 18,11 MB
Release : 2005
Category : Earth sciences
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Author :
Publisher :
Page : 752 pages
File Size : 23,43 MB
Release : 2001
Category : Hydrology
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Author : National Research Council
Publisher : National Academies Press
Page : 345 pages
File Size : 17,78 MB
Release : 2004-03-09
Category : Science
ISBN : 0309090520
Nonnative Oysters in the Chesapeake Bay discusses the proposed plan to offset the dramatic decline in the bay's native oysters by introducing disease-resistant reproductive Suminoe oysters from Asia. It suggests this move should be delayed until more is known about the environmental risks, even though carefully regulated cultivation of sterile Asian oysters in contained areas could help the local industry and researchers. It is also noted that even though these oysters eat the excess algae caused by pollution, it could take decades before there are enough of them to improve water quality.
Author : Scott W. Phillips
Publisher :
Page : 44 pages
File Size : 18,5 MB
Release : 2001
Category : Chesapeake Bay (Md. and Va.)
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Author :
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Page : 576 pages
File Size : 44,44 MB
Release : 1984
Category : Geology
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Author : Lori A. Sprague
Publisher :
Page : 50 pages
File Size : 23,98 MB
Release : 2001
Category : Government publications
ISBN :
Author : National Research Council
Publisher : National Academies Press
Page : 258 pages
File Size : 35,3 MB
Release : 2011-09-26
Category : Political Science
ISBN : 0309210828
The Chesapeake Bay is North America's largest and most biologically diverse estuary, as well as an important commercial and recreational resource. However, excessive amounts of nitrogen, phosphorus, and sediment from human activities and land development have disrupted the ecosystem, causing harmful algae blooms, degraded habitats, and diminished populations of many species of fish and shellfish. In 1983, the Chesapeake Bay Program (CBP) was established, based on a cooperative partnership among the U.S. Environmental Protection Agency (EPA), the state of Maryland, and the commonwealths of Pennsylvania and Virginia, and the District of Columbia, to address the extent, complexity, and sources of pollutants entering the Bay. In 2008, the CBP launched a series of initiatives to increase the transparency of the program and heighten its accountability and in 2009 an executive order injected new energy into the restoration. In addition, as part of the effect to improve the pace of progress and increase accountability in the Bay restoration, a two-year milestone strategy was introduced aimed at reducing overall pollution in the Bay by focusing on incremental, short-term commitments from each of the Bay jurisdictions. The National Research Council (NRC) established the Committee on the Evaluation of Chesapeake Bay Program Implementation for Nutrient Reduction in Improve Water Quality in 2009 in response to a request from the EPA. The committee was charged to assess the framework used by the states and the CBP for tracking nutrient and sediment control practices that are implemented in the Chesapeake Bay watershed and to evaluate the two-year milestone strategy. The committee was also to assess existing adaptive management strategies and to recommend improvements that could help CBP to meet its nutrient and sediment reduction goals. The committee did not attempt to identify every possible strategy that could be implemented but instead focused on approaches that are not being implemented to their full potential or that may have substantial, unrealized potential in the Bay watershed. Because many of these strategies have policy or societal implications that could not be fully evaluated by the committee, the strategies are not prioritized but are offered to encourage further consideration and exploration among the CBP partners and stakeholders.
Author : Scott W. Ator
Publisher : Geological Survey (USGS)
Page : 27 pages
File Size : 50,13 MB
Release : 2011
Category : Chesapeake Bay Watershed
ISBN : 9781411332621
Spatially Referenced Regression on Watershed Attributes (SPARROW) was used to provide empirical estimates of the sources, fate, and transport of total nitrogen (TN) and total phosphorus (TP) in the Chesapeake Bay watershed, and the mean annual TN and TP flux to the bay and in each of 80,579 nontidal tributary stream reaches. Restoration efforts in recent decades have been insufficient to meet established standards for water quality and ecological conditions in Chesapeake Bay. The bay watershed includes 166,000 square kilometers of mixed land uses, multiple nutrient sources, and variable hydrogeologic, soil, and weather conditions, and bay restoration is complicated by the multitude of nutrient sources and complex interacting factors affecting the occurrence, fate, and transport of nitrogen and phosphorus from source areas to streams and the estuary. Effective and efficient nutrient management at the regional scale in support of Chesapeake Bay restoration requires a comprehensive understanding of the sources, fate, and transport of nitrogen and phosphorus in the watershed, which is only available through regional models. The current models, Chesapeake Bay nutrient SPARROW models, version 4 (CBTN_v4 and CBTP_v4), were constructed at a finer spatial resolution than previous SPARROW models for the Chesapeake Bay watershed (versions 1, 2, and 3), and include an updated timeframe and modified sources and other explantory terms.