Precipitation susceptibility in marine stratocumulus and shallow cumulus from airborne measurements

Eunsil Jung; Bruce A. Albrecht; Armin Sorooshian; Paquita Zuidema; Haflidi H. Jonsson

doi:10.5194/acp-16-11395-2016

Precipitation susceptibility in marine stratocumulus and shallow cumulus from airborne measurements

Eunsil Jung
, Bruce A. Albrecht
, Armin Sorooshian
, Paquita Zuidema
, Haflidi H. Jonsson

University of Miami
University of Arizona
Naval Postgraduate School

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Precipitation tends to decrease as aerosol concentration increases in warm marine boundary layer clouds at fixed liquid water path (LWP). The quantitative nature of this relationship is captured using the precipitation susceptibility (So) metric. Previously published works disagree on the qualitative behavior of So in marine low clouds: So decreases monotonically with increasing LWP or cloud depth (H) in stratocumulus clouds (Sc), while it increases and then decreases in shallow cumulus clouds (Cu). This study uses airborne measurements from four field campaigns on Cu and Sc with similar instrument packages and flight maneuvers to examine if and why So behavior varies as a function of cloud type. The findings show that So increases with H and then decreases in both Sc and Cu. Possible reasons for why these results differ from those in previous studies of Sc are discussed.

Original language	English
Pages (from-to)	11395-11413
Number of pages	19
Journal	Atmospheric Chemistry and Physics
Volume	16
Issue number	17
DOIs	https://doi.org/10.5194/acp-16-11395-2016
State	Published - 14 Sep 2016

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title = "Precipitation susceptibility in marine stratocumulus and shallow cumulus from airborne measurements",

abstract = "Precipitation tends to decrease as aerosol concentration increases in warm marine boundary layer clouds at fixed liquid water path (LWP). The quantitative nature of this relationship is captured using the precipitation susceptibility (So) metric. Previously published works disagree on the qualitative behavior of So in marine low clouds: So decreases monotonically with increasing LWP or cloud depth (H) in stratocumulus clouds (Sc), while it increases and then decreases in shallow cumulus clouds (Cu). This study uses airborne measurements from four field campaigns on Cu and Sc with similar instrument packages and flight maneuvers to examine if and why So behavior varies as a function of cloud type. The findings show that So increases with H and then decreases in both Sc and Cu. Possible reasons for why these results differ from those in previous studies of Sc are discussed.",

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T1 - Precipitation susceptibility in marine stratocumulus and shallow cumulus from airborne measurements

AU - Jung, Eunsil

AU - Albrecht, Bruce A.

AU - Sorooshian, Armin

AU - Zuidema, Paquita

AU - Jonsson, Haflidi H.

PY - 2016/9/14

Y1 - 2016/9/14

N2 - Precipitation tends to decrease as aerosol concentration increases in warm marine boundary layer clouds at fixed liquid water path (LWP). The quantitative nature of this relationship is captured using the precipitation susceptibility (So) metric. Previously published works disagree on the qualitative behavior of So in marine low clouds: So decreases monotonically with increasing LWP or cloud depth (H) in stratocumulus clouds (Sc), while it increases and then decreases in shallow cumulus clouds (Cu). This study uses airborne measurements from four field campaigns on Cu and Sc with similar instrument packages and flight maneuvers to examine if and why So behavior varies as a function of cloud type. The findings show that So increases with H and then decreases in both Sc and Cu. Possible reasons for why these results differ from those in previous studies of Sc are discussed.

AB - Precipitation tends to decrease as aerosol concentration increases in warm marine boundary layer clouds at fixed liquid water path (LWP). The quantitative nature of this relationship is captured using the precipitation susceptibility (So) metric. Previously published works disagree on the qualitative behavior of So in marine low clouds: So decreases monotonically with increasing LWP or cloud depth (H) in stratocumulus clouds (Sc), while it increases and then decreases in shallow cumulus clouds (Cu). This study uses airborne measurements from four field campaigns on Cu and Sc with similar instrument packages and flight maneuvers to examine if and why So behavior varies as a function of cloud type. The findings show that So increases with H and then decreases in both Sc and Cu. Possible reasons for why these results differ from those in previous studies of Sc are discussed.

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EP - 11413

JO - Atmospheric Chemistry and Physics

JF - Atmospheric Chemistry and Physics

IS - 17

ER -

Precipitation susceptibility in marine stratocumulus and shallow cumulus from airborne measurements

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