Bottles, bits of plastic, and a discarded lawn chair were among items pulled from Whalebone Bay and Mullet Bay during the annual Ocean Conservancy international coastal clean up on September 16, sponsored locally by Ernst and Young in partnership with Keep Bermuda Beautiful.
Twice a day on Bermuda—and at weather stations around the world—meteorologists launch huge helium or hydrogen-filled weather balloons equipped with sensors that monitor temperature, moisture, and pressure in the atmosphere. The data generated by balloon launches are then transmitted globally by weather services and assimilated into computer models, which meteorologists use to forecast the weather.
Not long after sunrise on July 24, a BIOS-operated ocean glider named Jack climbed slowly from a depth of nearly a half-mile offshore Bermuda toward the sea surface as it’s sensors collected and measured ocean properties, including temperature, salinity, oxygen, chlorophyll, and currents. It was a routine operation for Jack, an airplane-shaped vehicle that has traveled a similar path thousands of times over the past two years for BIOS researchers in the Sargasso Sea.
Sitting in a math lecture at the University of Cambridge in England last winter, Scott Li was focused on the course and completing his term work during his third year in the Department of Applied Mathematics and Theoretical Physics. That is, until a researcher in the university’s Department of Earth Sciences walked in at the end of the lecture to encourage students to apply for the Cawthorn Cambridge Internship at BIOS.
In the Southern Ocean, cold surface water sinks to about 1,500 feet (500 meters) and travels in the dark for thousands of miles before resurfacing, some 40 years later, near the equator in the Pacific, Atlantic, and Indian ocean basins. Scientists call this major water mass the Sub-Antarctic Mode Water, or SAMW, and it is regarded as a powerhouse of a mixer in the oceans. It’s also critical to marine life; when it warms and rises into the sunlit subtropical and tropical waters, the nutrients it contains are estimated to fuel up to 75 percent of the microscopic plants growing there.
Forty public school teachers took part in two-day training at BIOS in late October as part of the 2017 Bermuda Union of Teachers annual professional development conference. The workshop, offered under the Mid-Atlantic Robotics IN Education (MARINE) program, introduced participants to components of the beginner Remotely Operated Vehicle (ROV) competition, including the construction of simple circuits and soldering.
A group of BIOS researchers and educators had the opportunity to share their marine science knowledge and experience with nearly 10,000 young people around the world this fall, all without ever stepping foot off Bermuda.
Registration opened Oct. 1 for middle school team participation in the popular Remotely Operated Vehicle (ROV) Challenge, sponsored by the Mid Atlantic Robotics IN Education (MARINE) program. This year’s program, hosted by BIOS, will become a regional partner with the Marine Advanced Technology Education Center (MATE), which challenges students to apply physics, math, electronics, and engineering lessons to the marine environment.
BIOS’s Risk Prediction Initiative (RPI) is undertaking new research focused on hurricane risk specific to Bermuda, in addition to its traditional focus on global catastrophic risk.