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

POS Panel 2022 on a balcony

Call for New 2023 US CLIVAR Panel Members

Apply to join one of the US CLIVAR Panels that formulate science goals and implementation strategies, catalyze and coordinate activities, and work with agencies and international partners to advance the progress of the climate research.

A flier for an AMS Town Hall

US CLIVAR at AMS 2023: Town Hall on the Air-Sea Transition Zone

Please join us for a Town Hall to preview the Air-Sea Transition Zone Study Group's observing and modeling strategy and provide feedback.

A flyer advertising a topic at AGU 2022

US CLIVAR at Fall AGU 2022: Mesoscale and Submesoscale Ocean-Atmosphere Interactions and Influence on Earth’s Climate

Be sure to stop by one of the Air-Sea Interactions Working Group's sessions at Fall AGU 2022 in-person or online.

A flyer advertising a Town Hall at AGU 2022

US CLIVAR at Fall AGU 2022: Town Hall on the Air-Sea Transition Zone

Please join us for a Town Hall to preview the Air-Sea Transition Zone Study Group's observing and modeling strategy and provide feedback.

Research Highlights

See all Research Highlights

Schematic diagram of the AMOC delayed oscillator, i.e., the delayed feedback of the revised Stommel’s Two-Box Model.

A simple conceptual model for the multidecadal AMOC variability and associated two-way interactions with the Arctic salinity anomaly

July 28, 2022

The impact of AMOC slowdown on marine heatwave duration estimated from CCSM4 simulations.

The weakened Atlantic Meridional Overturning Circulation changes marine heatwaves

February 14, 2022

Section of Table 1 of Rugenstein and Armour 2021 describing three possibilities of defining radiative feedbacks and their applications.

The many different flavors of radiative feedbacks

December 14, 2021

Schematic showing the energy balance for the entire atmosphere north of 40°N in the climates with and without a vigorous AMOC.

Ocean circulation and extreme winter weather

November 12, 2021

Upcoming Webinars

Process Study Webinar Series

Date:

March 28, 2023

Title: S-MODE: the Sub-Mesoscale Ocean Dynamics Experiment

Presenter(s):

J. Tom Farrar, Woods Hole Oceanographic Institution

Process Study Webinar Series

Date:

March 28, 2023

Title: S-MODE: the Sub-Mesoscale Ocean Dynamics Experiment

Presenter(s):

J. Thomas Farrar, Woods Hole Oceanographic Institution