We also develop cross-sensor retrieval techniques (e.g., combined infrared and microwave cloud property retrievals) and exploit extensive
atmospheric modeling capabilities for simulation of radiometrically - correct test scene data.
Not exact matches
The potential role of ocean variability in the sub-seasonal
atmospheric variability is another line of research that is increasing its visibility with the advancement of high - resolution ocean
modeling capabilities.
His work will span and further integrate PNNL's extensive measurement
capabilities, including the
Atmospheric Measurements Laboratory, and the laboratory's diverse programs in
atmospheric and climate
modeling.
PNNL is using an integrative research approach that draws on our depth and breadth of
capabilities in
atmospheric chemistry, climate physics,
modeling, and measurement to address critical scientific questions related to the role of aerosols in the climate system.
Here we assess the
capability of ground - based observations and a high - resolution (1.3 km) mesoscale
atmospheric transport
model to determine a change in greenhouse gas emissions over time from a metropolitan region.
PNNL researchers are expanding knowledge of fundamental
atmospheric processes, developing state - of - the - art
modeling capabilities, and improving understanding of how human and natural systems interact.
One recent study, for example, presented a thorough and careful scrutiny of hundreds of peer - reviewed scientific publications evaluating the accuracy and
capability of climate
models to simulate the response of a number of important climatic phenomena to rising
atmospheric CO2 concentrations.
Throughout its life, the USGCRP has created and maintained a mix of
atmospheric, oceanic, land, and space - based observing systems; gained new theoretical knowledge of Earth System processes; advanced understanding of the complexity of the Earth System through predictive
modeling; promoted advances in computational
capabilities, data management, and information sharing; and developed and harnessed an expert scientific workforce.
10 - 14 June 2013: CFMIP / EUCLIPSE Meeting on Cloud Processes and Climate Feedback, Hamburg, GERMANY Focus: Clouds and precipitation in a changing climate; Coupling between cloud processes and the
atmospheric circulation; Ability of
models to simulate cloud processes, and the impact of errors on
model predictive
capabilities