New study measures evolution of the North Atlantic Meridional Overturning Circulation (AMOC) since 1980
New study expands the understanding of contemporary decadal variability in the AMOC.
Advancing scientific understanding of climate, improving society’s ability to plan and respond
Advancing scientific understanding of climate, improving society’s ability to plan and respond
New study expands the understanding of contemporary decadal variability in the AMOC.
New study highlights the application of Neural Network Ensembles in detecting relationships within Earth system models.
New research, funded partly by CVP, reveals some of the drivers of MJO bias in the HiRAM model.
Understanding Madden-Julian Oscillation (MJO) model bias Read More »
A new study by CVP-funded scientists sheds light into diurnal wind patterns in the tropical oceans.
Study: Describing diurnal wind patterns in the tropical oceans Read More »
This new study aims to advance decadal prediction models by exploring regionally-dependent coupled sea-surface dynamics at work in the Atlantic and Pacific in initialized prediction ensembles.
New research finds that internal atmospheric variability plays a role alongside anthropogenic greenhouse gases in the warming of the upper Arctic Ocean over the last forty years.
Summertime Atmospheric Processes Play a Role in Arctic Ocean Warming Read More »
New publications, one on CO2 outgassing and the other on ocean-air feedbacks, contribute to the pre-field modeling studies in support of Tropical Pacific Observing System (TPOS) 2020.
Two New Pre-Field Studies in Support of TPOS 2020 Read More »
New CVP-funded research identifies which of several new reanalysis datasets may be the most useful for better studying and simulating the tropical intraseasonal oscillation (ISO).
New research illuminates the processes behind marine heatwaves during a time when the Atlantic is undergoing increased warming and more frequent extreme events.
Investigating the Processes behind Marine Heatwaves Read More »
This study is the first to construct a detailed description of a specific ocean property—mixed layer depth—and its seasonal cycle for the Northeast U.S. continental shelf.
The First Mixed Layer Depth Climatology Over the Northeast U.S. Continental Shelf Read More »