Showing Results for
From:Atmospheric Chemistry and Physics (Vol. 21, Issue 14) Peer-ReviewedOzone is expected to fully recover from the chlorofluorocarbon (CFC) era by the end of the 21st century. Furthermore, because of anthropogenic climate change, a cooler stratosphere decelerates ozone loss reactions and is...
From:Atmospheric Chemistry and Physics (Vol. 21, Issue 14) Peer-ReviewedWe developed incremental reactivity (IR) scales for 116 volatile organic compounds (VOCs) in a Chinese megacity (Guangzhou) and elucidated their application in calculating the ozone (O.sub.3) formation potential (OFP) in...
From:Atmospheric Chemistry and Physics (Vol. 21, Issue 14) Peer-ReviewedWe investigate the effect of water content and oxidative age on ice nucleation using 100 nm monodisperse particles of boreal forest secondary organic aerosol (SOA) surrogates. Ice nucleation experiments are conducted in...
From:Atmospheric Chemistry and Physics (Vol. 21, Issue 14) Peer-ReviewedThis study evaluates the impact of satellite soil moisture (SM) data assimilation (DA) on regional weather and ozone (O.sub.3) modeling over the southeastern US during the summer. Satellite SM data are assimilated into...
Choose how you want to be alerted when new results for your search become available.
Subscribe to Gale's RSS feed to get content delivered to your favorite RSS aggregator. Copy and paste the URL below into your reader:
Tell us where to send the alert and how often you want to receive it