US CLIVAR Climate Variability and Predictability Program

Who We Are

US CLIVAR is a national research program with a mission to foster understanding and prediction of climate variability and change on intraseasonal-to-centennial timescales, through observations and modeling with emphasis on the role of the ocean and its interaction with other elements of the Earth system, and to serve the climate community and society through the coordination and facilitation of research on outstanding climate questions.

Our Research

The ocean plays a key role in providing a major long-term "memory" for the climate system, generating or enhancing variability on a range of climatic timescales. Understanding the ocean's role in climate variability is therefore crucial for quantifying and harnessing the predictability inherent to the Earth system. US CLIVAR-led research has played a substantial role in advancing understanding of, and skill in predicting climate variability and change.

Science and Research Challenges

Cracked earth

Subseasonal-to-
Seasonal Prediction

Forest

Decadal Variability
and Predictability

Flooding in neighborhood

Climate Change

Tornado and lightning

Climate and Extreme
Events

Ice in polar landscape

Polar Climate Changes

Fish swimming undersea

Climate and Marine
Carbon/Biogeochemistry

Coast with cliffs and waves

Climate at the Coasts

Announcements

See all announcements

July Newsgram

July Newsgram

The latest news, meetings, jobs, and funding opportunities for the climate science community.

CLIVAR-relevant sessions at 2021 AGU Fall Meeting

Abstracts are due August 4, 2021.

102nd AMS Meeting, CLIVAR Sessions of Interest

Abstracts submissions extended to September 1.

Request for public comments on best practices document for commercial Earth observations

Written input is due June 30, 2021.

Research Highlights

See all Research Highlights

Schematic of long-term mean AMOC pathways overlapped with sections.

The anatomy of the long-term mean AMOC at northern high latitudes

June 15, 2021

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How does the Deep Western Boundary Current “leak”?

May 24, 2021

Time series of the Niño-3.4 SST index (°C) in observations (black curves) and ensemble-mean forecasts (colored curves) composited for 10 1-yr El Niño, 5 2-yr El Niño, 4 1-yr La Niña, 8 2-yr La Niña, 4 2-yr La Niña following strong El Niño, and 4 2-yr La Niña following moderate El Niño events during 1954–2015.

Predicting the duration of El Niño and La Niña events with multiyear lead time

April 23, 2021

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Record-high Beaufort Sea freshwater content could alter local and global ocean circulations

April 8, 2021

Upcoming Webinars

There are no upcoming Webinars at this time.