Ocean science

A machine-learning technique developed at MIT combs through global ocean data to find commonalities between marine locations, based on interactions between phytoplankton species. Using this approach, researchers have determined that the ocean can be split into over 100 types of “provinces,” and 12 “megaprovinces,” that are distinct in their ecological makeup.

Machine learning helps map global ocean communities

An MIT-developed technique could aid in tracking the ocean’s health and productivity.

May 29, 2020

Search-and-rescue algorithm identifies hidden “traps” in ocean waters

Method may help quickly identify regions where objects — and missing people — may have converged.

May 26, 2020

Scientists prepare to deploy an underway CTD from the back deck of a research vessel.

Towable sensor free-falls to measure vertical slices of ocean conditions

Instrument may help scientists assess the ocean’s response to climate change.

May 20, 2020

A glimpse into the microscale world in the ocean: marine bacteria (green and cyan) feed on nutrients exuding from a genetically modified phytoplankton (orange). These bacteria release a substance called DMS that contributes to cloud formation.

Researchers explore ocean microbes’ role in climate effects

When they encounter nutrient oases in the marine desert, marine bacteria release a gas involved in climate regulation.

April 23, 2020

This visualization shows the Gulf Stream's sea surface currents and and temperatures.

Staring into the vortex

MIT researchers describe factors governing how oceans and atmospheres move heat around on Earth and other planetary bodies.

March 19, 2020

On Maui (shown here) and Hawaii’s other islands, MIT researchers find that the rate of coastal erosion depends on the size of the average wave.

Scientists quantify how wave power drives coastal erosion

The average power of waves hitting a coastline can predict how fast that coast will erode.

March 16, 2020

The composition and location of rock strata help scientists date when biomarkers were formed and deposited. Offshore in Zumaia, Basque Country (Spain), variations in the thickness and composition of sedimentary rocks show periodic changes in the Earth's orbit and tilt, affecting how much sunlight reaches Earth’s surface. This is near the Cretaceous-Paleogene boundary, associated with a mass exti...

How biomarkers can record and reconstruct climate trends

Scientists reveal the genes and proteins controlling the chemical structures underpinning paleoclimate proxies.

December 4, 2019

A representation of the global ocean clustered by similar characteristics.

Machine learning identifies links between world’s oceans

Maike Sonnewald adapts a method that identifies areas of the global ocean with similar physics, revealing global dynamical regimes.

March 20, 2019

Sallie “Penny” Chisholm awarded the 2019 Crafoord Prize

Institute Professor honored for discovering Prochlorococcus, the most abundant photosynthesizing organism on Earth.

January 22, 2019

Maryam Rashed Alshehhi is a visiting assistant professor from the United Arab Emirates.

Oil and water: Studying pressing environmental dilemmas in the Middle East

Visiting Assistant Professor Maryam Rashed Alshehhi models a region with freshwater shortages, oil spills, and frequent dust storms.

December 26, 2018

MIT professors Raffaele Ferrari and John Marshall, along with colleagues from Caltech, NASA's Jet Propulsion Lab, and the Naval Postgraduate School, envision a revolution in climate modeling using data assimilation and machine learning.

New climate model to be built from the ground up

Scientists and engineers will collaborate in a new Climate Modeling Alliance to advance climate modeling and prediction.

December 12, 2018

Building the ultimate record of the ocean

Carl Wunsch continues to expand his foundational framework for understanding the behavior of worldwide oceans as a whole.

November 21, 2018

A large pool of meltwater over sea ice in the Beaufort Sea

Arctic ice sets speed limit for major ocean current

Long-term melting may lead to release of huge volumes of cold, fresh water into the North Atlantic, impacting global climate.

October 17, 2018

Edward Doddridge, a postdoc in the Department of Earth, Atmospheric and Planetary Sciences at MIT, co-developed a model to investigate the mechanism behind phytoplankton growth within subtropical gyres.

How phytoplankton survive in ocean gyres with low nutrient supplies

Model of nutrient recycling may explain longstanding mystery.

September 14, 2018

MIT Media Lab researchers have designed a system that allows underwater and airborne sensors to directly share data. An underwater transmitter directs a sonar signal to the water’s surface, causing tiny vibrations that correspond to the 1s and 0s transmitted. Above the surface, a highly sensitive receiver reads these minute disturbances and decodes the sonar signal.

Wireless communication breaks through water-air barrier

In a novel system developed by MIT researchers, underwater sonar signals cause vibrations that can be decoded by an airborne receiver.

August 22, 2018

MIT News | Massachusetts Institute of Technology

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