Not exact matches
Ajay Kalra of the Desert Research Institute in Las Vegas has identified several regions of the Pacific Ocean
where changes in
sea surface temperature appear to be statistically linked to the Colorado River's streamflow.
Sea surface temperature change after doubling of atmospheric CO2 concentration in a scenario
where CO2 increases by 1 % every year.
A conceptual model is presented
where, through a number of synergistic processes and positive feedbacks,
changes in the ultraviolet / blue flux alter the dimethyl sulphide flux to the atmosphere, and in turn the number of cloud condensation nuclei, cloud albedo, and thus
sea surface temperature.
Type 3 downscaling is applied, for example, for seasonal forecasts
where slowly
changing anomalies in the
surface forcing (such as
sea surface temperature) provide real - world information to constrain the downscaling results.
Because the GISS analysis combines available
sea surface temperature records with meteorological station measurements, we test alternative choices for the ocean data, showing that global
temperature change is sensitive to estimated
temperature change in polar regions
where observations are limited.
Concerning decadal
changing trends of CO2 content in atmosphere I have expressed that they are caused by
changing temperatures of
sea surface water on the seasurface areas
where seasurface CO2 sinks are.
With El Nino or La Nina, the
changes in
sea surface temperatures change the areas
where convection, thunderstorms, tropical storms etc, occur systematically.
Total solar irradiance
changes, though of small magnitude, do appear to affect
sea surface temperatures (SSTs), most obviously at latitudes
where cloud cover is small and irradiance is abundant, such as the Northern Hemisphere subtropics during summer.