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Keeping an eye on ocean acidification in Chesapeake Bay(图)
ocean acidification Chesapeake Bay
2017/9/5
A research team, led by University of Delaware professor Wei-Jun Cai, has identified a zone of water that is increasing in acidity in the Chesapeake Bay.The team analyzed little studied factors that p...
Scientific requirements for ecosystem-based management in the restoration of Chesapeake Bay and Coastal Louisiana
Ecosystem-based management Integration Sustainability
2016/5/19
Ecosystem-based management requires integration of multiple system components and uses, identifying and striving for sustainable
outcomes, precaution in avoiding deleterious actions, and adaptation b...
Pfiesteria and the Chesapeake Bay.
Science and integrated drainage basin-coastal management:the Chesapeake Bay and the Mississippi Delta
basin-coastal management the Mississippi Delta
2016/5/19
Science and integrated drainage basin-coastal management:the Chesapeake Bay and the Mississippi Delta.
Measuring the health of the Chesapeake Bay: toward integration and prediction
health of the Chesapeake Bay integration prediction
2016/5/19
Measuring the health of the Chesapeake Bay: toward integration and prediction.
Future consequences of climate change for the Chesapeake Bay ecosystem and its fisheries
climate change Chesapeake Bay ecosystem
2016/5/18
Future consequences of climate change for the Chesapeake Bay ecosystem and its fisheries.
Chesapeake Bay eutrophication: scientific understanding, ecosystem restoration and challenges for agriculture
ecosystem restoration challenges
2016/5/18
Chesapeake Bay eutrophication: scientific understanding, ecosystem restoration and challenges for agriculture.
Nutrient loading and meteorological conditions explain interannual variability of hypoxia in Chesapeake Bay
Nutrient loading meteorological conditions Chesapeake Bay
2014/4/2
We use geostatistical universal kriging and conditional realizations to provide the first quantitative estimates,
with robust estimates of uncertainties, of the seasonal and interannual variability i...
Seasonal and interannual change in a Chesapeake Bay eelgrass community: Insights into biotic and abiotic control of community structure
Seasonal and interannual change Chesapeake Bay eelgrass community Insights into biotic abiotic control of community structure
2014/4/17
We characterized the seasonal and interannual variation in macrophytes, epiphytes, invertebrate herbivores, small demersal predators, and physicochemical characteristics of an eelgrass (Zostera marina...
Non-Tidal Variability in the Chesapeake Bay and Potomac River:Evidence for Non-Local Forcing
Non-Tidal Variability Chesapeake Bay Potomac River Non-Local Forcing
2009/2/23
Non-tidal variability in the Chesapeake Bay and Potomac River, and its relation to atmospheric forcing, is examined from two-month sea level and bottom current measurements. The dominant sea level flu...
Wind-Driven Circulation in the Chesapeake Bay, Winter, 1975
Wind-Driven Circulation Chesapeake Bay
2009/2/13
Nontidal circulation in Chesapeake Bay was examined from one-month current records at 50 and 200 km from the entrance. The monthly mean flow was basically a two-layered circulation; in addition, there...
Subtidal Sea Level Variations in the Chesapeake Bay and Relations to Atmospheric Forcing
Subtidal Sea Level Atmospheric Forcing Chesapeake Bay
2009/2/13
Subtidal sea level variations in the Chesapeake Bay were examined over a one-year period for evidence of wind-driven barotropic circulation. The major transport occurred at time scales of 3–5 days, wh...
Wind-Induced Destratification in Chesapeake Bay
Wind-Induced Destratification Chesapeake Bay
2009/1/9
Multiyear continuous observations of velocity and salinity in the Chesapeake Bay indicate that wind-induced destratification occurs frequently from early fall through midspring over large areas of the...
Tidal marshes as a source of optically and chemically distinctive colored dissolved organic matter in the Chesapeake Bay
Tidal marshes optically chemically distinctive colored dissolved organic matter the Chesapeake Bay
2014/4/21
The role of tidal marshes as a source of dissolved organic carbon (DOC) and colored dissolved organic matter (CDOM) for adjacent estuarine waters was studied in the Rhode River subestuary of the Chesa...
Tidal marshes as a source of optically and chemically distinctive colored dissolved organic matter in the Chesapeake Bay
Tidal marshes as a source of optically and chemically distinctive colored dissolved organic matter in the Chesapeake Bay
2014/4/18
The role of tidal marshes as a source of dissolved organic carbon (DOC) and colored dissolved organic matter (CDOM) for adjacent estuarine waters was studied in the Rhode River subestuary of the Chesa...