This expedition will feature exploration of the Emperor Seamount Chain while researching biodiversity and its drivers. Using currents, mapping, and radio isotopes to track water masses – as well as genetic sampling of corals – the team will determine the driving force behind coral distribution in this region.
This expedition will feature exploration of the Emperor Seamount Chain while researching biodiversity and its drivers. Using currents, mapping, and radio isotopes to track water masses – as well as genetic sampling of corals – the team will determine the driving force behind coral distribution in this region.
This expedition will feature exploration of the Emperor Seamount Chain while researching biodiversity and its drivers. Using currents, mapping, and radio isotopes to track water masses – as well as genetic sampling of corals – the team will determine the driving force behind coral distribution in this region.
On March 7, 2018 at 8:05 PM local time, a meteorite broke up over the coast of Washington state, raining extraterrestrial rocks down into the ocean. This meteorite fall was detected by weather radars from the nationwide NEXRAD radar network, which recorded images of the falling rocks and data showing that they were composed of an unusually tough meteorite of unknown composition.
This expedition will feature exploration of the Emperor Seamount Chain while researching biodiversity and its drivers. Using currents, mapping, and radio isotopes to track water masses – as well as genetic sampling of corals – the team will determine the driving force behind coral distribution in this region.
Methane is a more potent greenhouse gas than carbon dioxide, but exists at far lower concentrations in the atmosphere. Many think of methane as a free-floating gas so it can be a surprise to learn that nearly one-fifth of the Earth’s methane is stored beneath the ocean’s waters in marine sediments in the form of gas hydrate.
The Gulf of California is a young ocean undergoing changes including active seafloor spreading, early rifting, and large-scale hydrothermal activity. The rare combination of geological dynamics present in the Gulf of California makes it an ideal place to advance our understanding of deep ocean hydrothermal ecosystems.
Aboard R/V Falkor, Dr. Ken Rubin and his research team will visit one of the most active underwater volcano sites in the world, the Meta Volcano group. There they will work to obtain a detailed geological understanding of up to 12 different submarine volcanoes, attempting to do this across a suite of volcanos for the very first time.
Aboard R/V Falkor, Dr. Ken Rubin and his research team will visit one of the most active underwater volcano sites in the world, the Meta Volcano group. There they will work to obtain a detailed geological understanding of up to 12 different submarine volcanoes, attempting to do this across a suite of volcanos for the very first time.
The Phoenix Islands Protected Area (PIPA) is the largest and deepest UNESCO World Heritage Site on Earth. Approximately the size of California, PIPA was the first Marine Protected Area (MPA) of its kind. In October, Dr. Erik Cordes (Temple University) and his team will explore never seen before seamounts and atolls within PIPA with R/V Falkor and ROV SuBastian.
