New study supported by COM, CVP, and GOMO partnership quantifies and characterizes the sampling error for satellite observations of sea surface salinity to be used for Earth system applications.
A new CVP- and MAPP- supported study published in Science Advances provides a new understanding of how tropical storm systems can be represented in climate models.
New modeling framework supported by CVP uses Hurricane Harvey as a case study to improve the predictability over the next seventy years of precipitation and flooding due to hurricanes and climate change.
A research team supported by CVP produces a new modeling study to improve predictability of air-sea interactions of the Meiyu front, a meteorological zone which separates Arctic from tropical climatic zones in the Pacific Ocean.
CVP-funded research uses observations from the ATOMIC field campaign to improve the understanding and emphasize the importance of small scale air-sea fluxes in the tropical Atlantic.
Home
AMOC Mechanisms & Decadal Predictability
Decadal Variability & Predictability
DYNAMO
Tropical Convection
Years of Maritime Continent and PISTON Campaign
Tropical Pacific Observing System (TPOS) Process Studies Webinar Series
Sign up for updates
Dr. Sandy Lucas CVP Program Manager P: 301-734-1253 E:
Jose Algarin CVP Program Specialist E:
Americans’ health, security and economic wellbeing are tied to climate and weather. Every day, we see communities grappling with environmental challenges due to unusual or extreme events related to climate and weather.