A new climate-projection project that will spotlight extreme sea level events along the U.S. East Coast, zeroing in on the Atlantic Meridional Overturning Circulation as a key player in influencing mean sea level variations and weather events.
New research evaluates how changing climate may affect fish catch, fish distributions, and food web structure in the upper 600 meters of the ocean.
A newly published dataset provides insights into the oceanographic conditions within the Olympic Coast National Marine Sanctuary (OCNMS) over nearly two decades, shedding light on marine heat waves, seasonal upwelling, hypoxia, and ocean acidification.
The researchers are not just contributing to research, they are connecting and building scientific communities focused on improving our understanding of Arctic marine ecosystems.
Researchers have found that late-20th-century hurricane frequency aligns statistically with patterns seen over the past thousand years, challenging common assumptions about recent trends.
A new study finds that most of New York City's organic pollutants come from secondary sources; they are created through chemical transformations in the atmosphere rather than emitted directly from a source.
Sustainable tourism focuses on minimizing the negative impacts of tourism for the benefit of future generations. Regenerative tourism seeks to leave the destination better than it was while improving the quality of life of the local community.
A new study estimates the Atlantic Meridional Overturning Circulation (AMOC) and heat transport at 22.5°S in the South Atlantic, demonstrating the importance of sustained in situ observations to monitor the state of the AMOC.
Observations and measurements collected by the ocean robot can detect sudden changes in ocean conditions not captured by satellites and boost forecast accuracy with improved data.
A new study finds that the location of the Madden–Julian Oscillation affects where precipitation-rich warm conveyor belts occur over the Pacific Ocean.