GSTDTAP  > 气候变化
DOI10.1002/2017JD027187
Using Long-Term Satellite Observations to Identify Sensitive Regimes and Active Regions of Aerosol Indirect Effects for Liquid Clouds Over Global Oceans
Zhao, Xuepeng1; Liu, Yangang2; Yu, Fangquan3; Heidinger, Andrew K.4
2018-01-16
发表期刊JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES
ISSN2169-897X
EISSN2169-8996
出版年2018
卷号123期号:1页码:457-472
文章类型Article
语种英语
国家USA
英文摘要

Long-term (1981-2011) satellite climate data records of clouds and aerosols are used to investigate the aerosol-cloud interaction of marine water cloud from a climatology perspective. Our focus is on identifying the regimes and regions where the aerosol indirect effects (AIEs) are evident in long-term averages over the global oceans through analyzing the correlation features between aerosol loading and the key cloud variables including cloud droplet effective radius (CDER), cloud optical depth (COD), cloud water path (CWP), cloud top height (CTH), and cloud top temperature (CTT). An aerosol optical thickness (AOT) range of 0.13 < AOT < 0.3 is identified as the sensitive regime of the conventional first AIE where CDER is more susceptible to AOT than the other cloud variables. The first AIE that manifests as the change of long-term averaged CDER appears only in limited oceanic regions. The signature of aerosol invigoration of water clouds as revealed by the increase of cloud cover fraction (CCF) and CTH with increasing AOT at the middle/high latitudes of both hemispheres is identified for a pristine atmosphere (AOT < 0.08). Aerosol invigoration signature is also revealed by the concurrent increase of CDER, COD, and CWP with increasing AOT for a polluted marine atmosphere (AOT > 0.3) in the tropical convergence zones. The regions where the second AIE is likely to manifest in the CCF change are limited to several oceanic areas with high CCF of the warm water clouds near the western coasts of continents. The second AIE signature as represented by the reduction of the precipitation efficiency with increasing AOT is more likely to be observed in the AOT regime of 0.08 < AOT < 0.4. The corresponding AIE active regions manifested themselves as the decline of the precipitation efficiency are mainly limited to the oceanic areas downwind of continental aerosols. The sensitive regime of the conventional AIE identified in this observational study is likely associated with the transitional regime from the aerosol-limited regime to the updraft-limited regime identified for aerosol-cloud interaction in cloud model simulations.


Plain Language Summary Long-term satellite observations of cloud and aerosol have been used to investigate the aerosol effect on marine water cloud from the perspective of climatology. Identifying the regimes and regions where the aerosol effect may manifest clearly in a sense of long-term average over the global oceans is the focus of this study. Several sensitive regimes of aerosol loading and active regions of aerosol effect on the cloud have been identified for the first time in long-term averages of cloud and aerosol variables over the global oceans. The results of this study based on the long-term averaged satellite observation are valuable for the evaluation and improvement of the aerosol effect on cloud in global climate models, which are only evaluated and assessed so far against instantaneous or short-term averaged observations.


领域气候变化
收录类别SCI-E
WOS记录号WOS:000423433500026
WOS关键词BOUNDARY-LAYER CLOUDS ; PHYSICAL-PROPERTIES ; SEASONAL-VARIATION ; CONVECTIVE CLOUDS ; CALIFORNIA COAST ; MICROPHYSICAL PROPERTIES ; INVIGORATION ; AVHRR ; PRECIPITATION ; ALGORITHM
WOS类目Meteorology & Atmospheric Sciences
WOS研究方向Meteorology & Atmospheric Sciences
引用统计
文献类型期刊论文
条目标识符http://119.78.100.173/C666/handle/2XK7JSWQ/32404
专题气候变化
作者单位1.NOAA, NESDIS, Natl Ctr Environm Informat, Silver Spring, MD 20910 USA;
2.Brookhaven Natl Lab, Environm & Climate Sci Dept, Upton, NY 11973 USA;
3.SUNY Albany, Atmospher Sci Res Ctr, Albany, NY 12222 USA;
4.NOAA, NESDIS, Ctr Satellite Applicat & Res, Madison, WI USA
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GB/T 7714
Zhao, Xuepeng,Liu, Yangang,Yu, Fangquan,et al. Using Long-Term Satellite Observations to Identify Sensitive Regimes and Active Regions of Aerosol Indirect Effects for Liquid Clouds Over Global Oceans[J]. JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES,2018,123(1):457-472.
APA Zhao, Xuepeng,Liu, Yangang,Yu, Fangquan,&Heidinger, Andrew K..(2018).Using Long-Term Satellite Observations to Identify Sensitive Regimes and Active Regions of Aerosol Indirect Effects for Liquid Clouds Over Global Oceans.JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES,123(1),457-472.
MLA Zhao, Xuepeng,et al."Using Long-Term Satellite Observations to Identify Sensitive Regimes and Active Regions of Aerosol Indirect Effects for Liquid Clouds Over Global Oceans".JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES 123.1(2018):457-472.
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