Events
For West Campus Faculty, Staff, and Students
Fall and Winter Term Schedule, 2007-8
Tuesday, 3/4/08, 403 WCC, 10:30 am – 11:30 am
What’s This NSF Thing, Broader Impact??
2008 Mar 13 is the deadline for comments on the current CMOP Data Policy.
Comments and questions should be directed to the data standards working group: dswg@stccmop.org
For your reference, the existing data policy is online at:
http://www.stccmop.org/cmop/data_policy
Deadline for Yr 2 Annual Reports, Individual
Phil Barrett, Executive Director -->
EBS Research Symposium
March 14, 2008, 11:00 a.m. - 1:00 p.m.
Cooley Science Center Building, 2nd floor lounge area
OGI School of Science and Engineering
2008 Mar 21 is the Deadline for Yr 2 Institutional reports.
Questions should be directed to the Senior Management Team.
Release of 1st draft of Yr 2 Ann. Report for Internal review. Deadline for internal feedback/comments on Yr 2 report is 3/26.
Questions should be directed to the Senior Management Team.
The deadline for CMOP Year 3-4 proposals (revised 3/5/08).
Any questions, please contact Phil Barrett.
Deadline for internal comments on 1st Draft of Yr 2 report is 3/26.
Questions should be directed to the Senior Management Team.
Suspended Particulate Matter (SPM) Transport of Polycyclic Aromatic Hydrocarbons (PAHs) in the Columbia River and its Estuary
Paul Clayton Building—Room 401
Release 2nd Draft of Annual Report for Senior Management Team Review.
Senior Management Team (SMT) meeting to finalize CMOP Year 2 Report
Submit Yr 2 Annual Report to NSF, with placeholder Yr 3 requested budget.
The goals of R/V Wecoma operations are:
1. Mooring recovery and placement at station NH-10 along the Newport Hydroline.
2. Occupy a grid of stations over the Oregon and Washington continental shelf and slope to measure hydrographic (T, S, pressure), bio-optical (chlorophyll fluorescence, light transmission) and chemical (nitrate, dissolved oxygen) parameters. Combine these data with ADCP measurements of subsurface velocity to explore biophysical interactions.
3. Collect water samples for membrane lipid and DNA- and RNA-based microbial community analyses, primary and secondary production rates and water chemistry studies across environmental gradients in pelagic environments of the Columbia River estuary, the Columbia River plume, the Columbia River at Beaver Army Dock and along established sampling lines along the Oregon and Washington coasts.
Location: OHSU Auditorium, Old Library Building.
Via Videostream at OGI: Paul Clayton Bldg, Rm 401
Via Webcast: http://media.ohsu.edu/ramgen/broadcast/croet.rm
Kenneth Olden, PhD, ScD, LHD, former Director, National Institute of Environmental Health Sciences, will address the theme of diversity.
Topic: "Improving the Local Climate for Underserved Populations in Academia."
The goals of R/V Wecoma operations are:
1. Mooring recovery and placement at station NH-10 along the Newport Hydroline.
2. Occupy a grid of stations over the Oregon and Washington continental shelf and slope to measure hydrographic (T, S, pressure), bio-optical (chlorophyll fluorescence, light transmission) and chemical (nitrate, dissolved oxygen) parameters. Combine these data with ADCP measurements of subsurface velocity to explore biophysical interactions.
3. Collect water samples for membrane lipid and DNA- and RNA-based microbial community analyses, primary and secondary production rates and water chemistry studies across environmental gradients in pelagic environments of the Columbia River estuary, the Columbia River plume, the Columbia River at Beaver Army Dock and along established sampling lines along the Oregon and Washington coasts.
The goals of R/V Wecoma operations are:
1. Mooring recovery and placement at station NH-10 along the Newport Hydroline.
2. Occupy a grid of stations over the Oregon and Washington continental shelf and slope to measure hydrographic (T, S, pressure), bio-optical (chlorophyll fluorescence, light transmission) and chemical (nitrate, dissolved oxygen) parameters. Combine these data with ADCP measurements of subsurface velocity to explore biophysical interactions.
3. Collect water samples for membrane lipid and DNA- and RNA-based microbial community analyses, primary and secondary production rates and water chemistry studies across environmental gradients in pelagic environments of the Columbia River estuary, the Columbia River plume, the Columbia River at Beaver Army Dock and along established sampling lines along the Oregon and Washington coasts.
The goals of R/V Wecoma operations are:
1. Mooring recovery and placement at station NH-10 along the Newport Hydroline.
2. Occupy a grid of stations over the Oregon and Washington continental shelf and slope to measure hydrographic (T, S, pressure), bio-optical (chlorophyll fluorescence, light transmission) and chemical (nitrate, dissolved oxygen) parameters. Combine these data with ADCP measurements of subsurface velocity to explore biophysical interactions.
3. Collect water samples for membrane lipid and DNA- and RNA-based microbial community analyses, primary and secondary production rates and water chemistry studies across environmental gradients in pelagic environments of the Columbia River estuary, the Columbia River plume, the Columbia River at Beaver Army Dock and along established sampling lines along the Oregon and Washington coasts.
The goals of R/V Wecoma operations are:
1. Mooring recovery and placement at station NH-10 along the Newport Hydroline.
2. Occupy a grid of stations over the Oregon and Washington continental shelf and slope to measure hydrographic (T, S, pressure), bio-optical (chlorophyll fluorescence, light transmission) and chemical (nitrate, dissolved oxygen) parameters. Combine these data with ADCP measurements of subsurface velocity to explore biophysical interactions.
3. Collect water samples for membrane lipid and DNA- and RNA-based microbial community analyses, primary and secondary production rates and water chemistry studies across environmental gradients in pelagic environments of the Columbia River estuary, the Columbia River plume, the Columbia River at Beaver Army Dock and along established sampling lines along the Oregon and Washington coasts.
The goals of R/V Wecoma operations are:
1. Mooring recovery and placement at station NH-10 along the Newport Hydroline.
2. Occupy a grid of stations over the Oregon and Washington continental shelf and slope to measure hydrographic (T, S, pressure), bio-optical (chlorophyll fluorescence, light transmission) and chemical (nitrate, dissolved oxygen) parameters. Combine these data with ADCP measurements of subsurface velocity to explore biophysical interactions.
3. Collect water samples for membrane lipid and DNA- and RNA-based microbial community analyses, primary and secondary production rates and water chemistry studies across environmental gradients in pelagic environments of the Columbia River estuary, the Columbia River plume, the Columbia River at Beaver Army Dock and along established sampling lines along the Oregon and Washington coasts.
The goals of R/V Wecoma operations are:
1. Mooring recovery and placement at station NH-10 along the Newport Hydroline.
2. Occupy a grid of stations over the Oregon and Washington continental shelf and slope to measure hydrographic (T, S, pressure), bio-optical (chlorophyll fluorescence, light transmission) and chemical (nitrate, dissolved oxygen) parameters. Combine these data with ADCP measurements of subsurface velocity to explore biophysical interactions.
3. Collect water samples for membrane lipid and DNA- and RNA-based microbial community analyses, primary and secondary production rates and water chemistry studies across environmental gradients in pelagic environments of the Columbia River estuary, the Columbia River plume, the Columbia River at Beaver Army Dock and along established sampling lines along the Oregon and Washington coasts.
Finalize Individual Year 3-4 allocations (tentative).
Comments or questions may be directed to Phil Barrett.
The goals of R/V Wecoma operations are:
1. Mooring recovery and placement at station NH-10 along the Newport Hydroline.
2. Occupy a grid of stations over the Oregon and Washington continental shelf and slope to measure hydrographic (T, S, pressure), bio-optical (chlorophyll fluorescence, light transmission) and chemical (nitrate, dissolved oxygen) parameters. Combine these data with ADCP measurements of subsurface velocity to explore biophysical interactions.
3. Collect water samples for membrane lipid and DNA- and RNA-based microbial community analyses, primary and secondary production rates and water chemistry studies across environmental gradients in pelagic environments of the Columbia River estuary, the Columbia River plume, the Columbia River at Beaver Army Dock and along established sampling lines along the Oregon and Washington coasts.
The Department of Environmental and Biomolecular Systems is hosting the annual Alumni Dinner at the Bridgeport Brewpub.
External Advisory Board input (tentative) (for CMOP Year 3 allocations?)
Questions should be directed to the Senior Management Team.
Request Institutional Year 3 detailed budgets.
Questions may be directed to the Senior Management Team
Deadline for Institutional Year 3 detailed budgets.
Questions may be directed to the Senior Management Team
Submit Year 3 Requested budget to NSF.
Questions may be directed to the Senior Management Team
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
Roger Barga, Ph.D. from Microsoft Research to present on May 29th
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
CMOP Wecoma Cruise
Chief Scientist: Tawnya Peterson
Byron Crump leads the planning meeting for the July research cruises on Monday June 16th from 10am to 12am. Revised plan for the Wecoma on CRUISE web page.
CMOP Room: CSC 7212
Videoconference Meeting Room: 1013
National Science Foundation (NSF) Site Visit to the Center for Coastal Margin Observation and Prediction.
JUNE 26 (Thursday)
LOCATION
Oregon Health and Science University
OHSU/OGI School of Science & Engineering
20000 NW Walker Road, Beaverton, OR 97006
NSF SITE VISIT
June 27, 2008 (Friday)
LOCATION
Courtyard Marriott – Portland Downtown/Lloyd Center
435 NE Wasco Street
Portland, Oregon 97232
Jim Lerczak, Ph.D. from OSU to present on June 30th
CMOP Barnes Cruise
Chief Scientist: Joe Needoba
CMOP Barnes Cruise
Chief Scientist: Joe Needoba
CMOP Barnes Cruise
Chief Scientist: Joe Needoba
