Accurately predicting the weather - at short and long time scales - is among the most complex and important challenges faced by science. Protecting the nation’s security and economic well-being will increasingly rely on improved skill in forecasting weather, weather-driven events like floods and droughts, and long-term shifts in weather, ocean and sea-ice patterns.
Changes in summer Arctic wind patterns contribute not only to an unprecedented loss of Arctic sea ice, but could also bring about shifts in North American and European weather.
NOAA meteorologists like Matt Brewer with the Air Resources Laboratory are improving short-term wind forecasts, developing the science necessary for the country to increase reliance on renewable energy.
NOAA Hurricane Hunters are flying back-to-back missions to study the newly developed Tropical Storm Hermine in the Gulf of Mexico, capturing its evolution from a cluster of thunderstorms into a tropical storm. Getting data during such transitions can help improve hurricane models which currently don’t predict transitions well. Our understanding of the physical processes of early storm development remains limited, largely because there are few observations.
Meteorologist, research scientist, amateur storm chaser, award winner, journal editor, mentor, and advisor—Adam Clark from NOAA’s National Severe Storms Laboratory (NSSL) never misses an opportunity to help advance the science behind severe weather prediction and forecasting.
Understanding the mysterious Madden-Julian Oscillation
Advancing knowledge of air quality interactions with weather and climate
Informing Texas with climate data and information
Predicting rapidly-developing droughts based on plant stress
Understanding the ocean's changing chemistry
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