NOAA/AOML hurricane scientists attended the Aviation Week and Science Technology Laureate Awards in Washington D.C. to receive Aviation Week magazine’s prestigious Laureate award for Dual Defense Use. The NOAA/Raytheon team was recognized for using Coyote Unmanned Aircraft Systems (UAS) during missions into Hurricane Maria, to help track and model hurricanes.
NOAA AOML scientists attended the Aviation Week and Science Technology Laureate Awards in Washington D.C. to receive Aviation Week magazine’s prestigious Laureate award for Dual Defense Use. The NOAA/Raytheon team was recognized for using Raytheon Coyote Unmanned Aircraft Systems (UAS) to track and model hurricanes.
AOML oceanographers Christopher Meinen and Molly Baringer participated in the development of a new thirteen-year-long record of the daily Atlantic ocean overturning that has recently been released. This project is a collaboration between a large team of researchers at NOAA, at the University of Miami ,and at the National Oceanography Centre in Southampton, United Kingdom.
A new analysis of heat wave patterns appearing in Nature Climate Change focuses on four regions of the United States where human-caused climate change will ultimately overtake natural variability as the main driver of heat waves. Climate change will drive more frequent and extreme summer heat waves in the Western United States by late 2020’s, the Great Lakes region by mid 2030’s, and in the northern and southern Plains by 2050’s and 2070’s, respectively.
“These are the years that climate change outweighs natural variability as the cause of heat waves in these regions,” said Hosmay Lopez, a meteorologist at NOAA’s Atlantic Oceanographic Meteorological Laboratory and the University of Miami’s Rosenstiel School Cooperative Institute for Marine and Atmospheric Studies and lead author of the study. “Without human influence, half of the extreme heat waves projected to occur in the future wouldn’t happen.”
Each year, AOML scientists have the opportunity to bring their children to work, where they are taught about different aspects of the research being performed within the three divisions of AOML. This year, the children partook in lessons and activities in the subjects of buoyancy, density, ocean currents and circulation, marine debris, ecosystem based management, and ocean observations.
Scientists strategically deployed the gliders during the peak of hurricane season, from July through November 2017, collecting data in regions where hurricanes commonly travel and intensify. The gliders continually gathered temperature and salinity profile data, generating more than 4,000 profiles to enhance scientific understanding of the air-sea interaction processes that drive hurricane intensification.
The manuscript “An enhanced PIRATA data set for tropical Atlantic ocean-atmosphere research”, by Greg Foltz, Claudia Schmid, and Rick Lumpkin, was accepted for publication in Journal of Climate. It describes a new set of daily time series (ePIRATA) that is based on the measurements from 17 moored buoys of the Prediction and Research Moored Array in the Tropical Atlantic (PIRATA).
AOML scientists recently returned from the first cruise of 2018. As part of the South Florida Project, regional surveys over the southwest Florida shelf and the Florida Keys reef tract are routinely performed aboard the R/V F.G. Walton Smith on a bimonthly basis, to keep a watchful eye over sensitive marine habitats found in the region. Sampling methodologies include discrete sampling and flow through measurements of water quality and chemistry, and biological oceanographic parameters.
Researchers at AOML, NESDIS CoastWatch, and the University of Miami are currently exploring how the distribution of marine debris is affected by both ocean currents and wind. During a recent experiment, scientists deployed several prototype drifters in the Florida Current off the coast of Miami to simulate commonly found debris of varying weights and shapes. These drifters carry GPS transmitters that provide their location four times per day.
Researchers at NOAA AOML have released a new tropical Atlantic data set that includes several enhancements to improve data accuracy and data collection in the tropical Atlantic. The new data set is called enhanced PIRATA, or ePIRATA, and provides continuous records of upper-ocean temperature, salinity, and currents, together with meteorological data such as winds, humidity, and solar radiation. ePIRATA should prove valuable in better analyzing ocean and atmospheric processes in the tropical Atlantic.
PIRATA, the Prediction and Research Moored Array in the Tropical Atlantic, is a multinational observation network, established to improve knowledge and understanding of ocean-atmosphere variability in the tropical Atlantic. It is a joint project of Brazil, France and the United States of America, motivated by fundamental scientific issues and by societal needs for improved prediction of climate variability and its impact on the countries surrounding the tropical Atlantic basin. PIRATA provides measurements at 18 locations throughout the tropical Atlantic
