The predictor is winter (Jan - Feb - Mar)
near global sea surface temperature.
Not exact matches
Based on the results of the causality tests, the author concludes that it is
global near -
surface air
temperature that influences
sea surface temperature, and not the other way around — which supports the
global warming - induced increase in hurricane intensity.
Here, the author draws causality relationships between
global mean
near -
surface air
temperatures and Atlantic
sea surface temperatures and hurricane power dissipation indexes using statistical causality tests.
Using a statistical model based on winter
near -
global sea surface temperatures, Tivy shows high concentrations of ice remaining throughout the NWP region.
These advances include the
near -
global three - dimensional sampling by the Argo array of
temperature and salinity profiling floats and spaceborne measurements of
sea surface salinity using the European Space Agency's Soil Moisture and Ocean Salinity (SMOS) spacecraft and NASA's Aquarius mission aboard the Argentine SAC - D spacecraft (which ceased operations in June 2015).
Here tests for causality using the
global mean
near -
surface air
temperature (GT) and Atlantic
sea -
surface temperature (SST) records during the Atlantic hurricane season are applied.