Dissolved Oxygen Assessment in the Chesapeake Bay Seminar
This meeting is open to the public. Unless otherwise noted, it may be recorded for internal use.
Date and Time
Tuesday, May 7, 2013 from 10:00am - 3:30pm
Purpose
The Chesapeake Bay Program’s, Scientific, Technical Assessment and Reporting Team’s, Tidal Monitoring and Analysis Workgroup is hosting a seminar to survey Dissolved Oxygen Assessment Methods used throughout the Bay watershed by the Chesapeake Bay scientific community. The objective of this seminar is to bring awareness to the different approaches used for Dissolved Oxygen assessment and the lessons that may be learned from those methodologies. Materials will be posted as they become available. Contact Lea Rubin (lrubin@chesapeakebay.net) with questions. Conference Line: (866) 299-3188 Code: 267-985-6222 Web Conference: https://epa.connectsolutions.com/doseminar/Location
U.S. Fish and Wildlife Service (The Chesapeake Bay Field Office) 177 Admiral Cochrane Drive Annapolis, MD 21401 Directions: From Washington D.C: take Route 50 East towards Bay Bridge. Take Exit 22 for Government Park (Route 665/ Aris T. Allen Blvd). Follow directions below: From Baltimore: take Interstate 97. Stay to right for Route 665/Aris T. Allen Blvd. Follow directions below: From Eastern Shore: take Route 50 west to Exit 22 Route 665/Aris T. Allen Blvd. Follow directions below: From Route 665 exit: Bear to the right onto Riva Road. Turn left at the first stop light onto Admiral Cochrane Drive. Turn left at US Fish & Wildlife Service sign, then turn left into visitor parking area. Main entrance is in middle of two story tan brick building.Related Files
Meeting materials will be posted as they become available.
Agenda
Supporting Documents
- R. Murphy - kriging-based interpolation [PDF, 5.5 MB]
- M. Trice - using the Chesapeake bay program interpolator (part 1) [PDF, 840.2 KB]
- M. Trice - review of water quality mapping dissolved oxygen temporal standardization(part 2) [PDF, 293.7 KB]
- M. Trice - continuous monitoring dissolved oxygen criteria ( part 3) [PDF, 952.9 KB]
- Y. Lee - using monitoring data and water quality model simulation to observe summerhypoxia [PDF, 5.2 MB]
- M. Friedrichs - combing observations and numerical model results to improveestimates of hypoxic volume [PDF, 3.3 MB]
- M. Scully - using circulation models to understand the role of physical processes incontrolling inter-annual variations of hypoxia [PDF, 929.5 KB]
- J. Testa - a combination of quantitative data analysis, regional (coarse-scale)budget models, and 3-d hydrodynamic-biogeochemical models [PDF, 17.5 MB]