IWTC VI: 1.3 Air-Sea Interactions and Oceanic Influences Lynn K. Nick Shay Committee: P. Black, D. Barbary, M. Donelan, K. Emanuel, I. Ginis, C. Lozano,
© University of Reading 2007 11 September 2007 Sharing and Visualizing Environmental Data using Virtual Globes Jon Blower, Alastair.
Observation Plans in Indian Ocean Jianping Li 1), Yu Weidong 2) and Guoxiong Wu 1) 1) LASG, Institute of Atmospheric Physics (IAP), Chinese Academy of.
Class Meets: Wednesday 10:30am-1:15pm Office Hours Whenever my door is open By appointment Emails: use subject CLIM713 Course Website: kpegion/teaching/clim713
OCN331 Goals: Qualitative & Quantitative Joint Commitment re OCN331 Reading Materials—On-Line Lectures & Discussions –Rec. read chapters; –Access/bring.
Yukio Masumoto (RIGC, JAMSTEC). Outline Indian Ocean Observing System - Background and present status Examples of key phenomena observed by IndOOS.
Calculating the amount of atmospheric carbon dioxide absorbed by the oceans Helen Kettle & Chris Merchant School of GeoSciences, University of Edinburgh,
COORDINATION WITH INTERNATIONAL PROGRAMS AND AGENCIES P. Drobinski & P. Lionello International coll. & funding.
A Brief Introduction to CIMAS The CIMAS Vision: To serve as a center of excellence in Earth Systems Science and the human interactions with the Earth.
Improvements to the Equatorial Pacific Cold Tongue Region in an OGCM
C A S I X Centre for observation of Air-Sea Interactions and fluXes (A NERC Centre of Excellence in Earth Observation) Nick Hardman-Mountford, Jim Aiken.
1 AESOP: Assessing the Effects of Submesoscale Ocean Parameterizations Scott Harper Code 322, Physical Oceanography Office of Naval Research [email protected].