This study uses airborne data from multiple field campaigns off the California coast to determine the extent to which a size distribution parameter and a cloud water chemical measurement can capture the effect of giant cloud condensation nuclei (GCCN), specifically sea salt, on marine stratocumulus cloud properties. The two GCCN proxy variables, near-surface particle number concentration for diameters >5 mu m and cloud water chloride concentration, are significantly correlated (95% confidence) with each other, and both exhibit expected relationships with other parameters (e.g., surface wind) that typically coincide with sea salt emissions. Factors influencing the relationship between these two GCCN proxy measurements include precipitation r...
This study examines large oceangoing ships as a source of giant cloud condensation nuclei (D_p > 2 µ...
Atmospheric aerosols are widely recognized to give rise to a substantial radiative forcing to the cl...
The influence of aerosol particles on the Earth's climate is a major driver of scientific uncertaint...
This study uses airborne data from multiple field campaigns off the California coast to determine th...
The article of record as published may be found at http://dx.doi.org/10.1002/2016JD026019This study ...
This study uses airborne field data from the MONterey Aerosol Research Campaign (MONARC northeast Pa...
To study the effect of giant cloud condensation nuclei (GCCN) on precipitation processes in stratocu...
The aerosol at elevated sites in the South Coast Air Basin in California is a mixture of sea salt an...
In this paper impacts of nss-sulfate, sea-salt and organic particles on microphysical properties of ...
The largest uncertainty in quantifying global anthropogenic radiative forcing is linked to interacti...
Aerosol–cloud interactions are the largest source of uncertainty in quantifying anthropogenic radiat...
The most basic aspect of cloud formation is condensational growth onto cloud condensation nuclei (CC...
Increased Cloud Condensation Nuclei (CCN) load due to anthropogenic activity might lead to non-preci...
This study uses airborne cloud water composition measurements to characterize the vertical structure...
Marine stratocumulus clouds often become decoupled from the vertical layer immediately above the oce...
This study examines large oceangoing ships as a source of giant cloud condensation nuclei (D_p > 2 µ...
Atmospheric aerosols are widely recognized to give rise to a substantial radiative forcing to the cl...
The influence of aerosol particles on the Earth's climate is a major driver of scientific uncertaint...
This study uses airborne data from multiple field campaigns off the California coast to determine th...
The article of record as published may be found at http://dx.doi.org/10.1002/2016JD026019This study ...
This study uses airborne field data from the MONterey Aerosol Research Campaign (MONARC northeast Pa...
To study the effect of giant cloud condensation nuclei (GCCN) on precipitation processes in stratocu...
The aerosol at elevated sites in the South Coast Air Basin in California is a mixture of sea salt an...
In this paper impacts of nss-sulfate, sea-salt and organic particles on microphysical properties of ...
The largest uncertainty in quantifying global anthropogenic radiative forcing is linked to interacti...
Aerosol–cloud interactions are the largest source of uncertainty in quantifying anthropogenic radiat...
The most basic aspect of cloud formation is condensational growth onto cloud condensation nuclei (CC...
Increased Cloud Condensation Nuclei (CCN) load due to anthropogenic activity might lead to non-preci...
This study uses airborne cloud water composition measurements to characterize the vertical structure...
Marine stratocumulus clouds often become decoupled from the vertical layer immediately above the oce...
This study examines large oceangoing ships as a source of giant cloud condensation nuclei (D_p > 2 µ...
Atmospheric aerosols are widely recognized to give rise to a substantial radiative forcing to the cl...
The influence of aerosol particles on the Earth's climate is a major driver of scientific uncertaint...