Detection of anthropogenic dust using CALIPSO lidar measurements
暂无分享,去创建一个
[1] Carl Sagan,et al. Anthropogenic Albedo Changes and the Earth's Climate , 1979, Science.
[2] S. H. Melfi,et al. Lidar observations of vertically organized convection in the planetary boundary layer over the ocean , 1985 .
[3] Nick Middleton,et al. A geography of dust storms in South‐West Asia , 1986 .
[4] R. Stull. An Introduction to Boundary Layer Meteorology , 1988 .
[5] Allen B. White,et al. Boundary-layer depth and entrainment zone characterization with a boundary-layer profiler , 1994 .
[6] Inez Y. Fung,et al. Contribution to the atmospheric mineral aerosol load from land surface modification , 1995 .
[7] Remo Guidieri. Res , 1995, RES: Anthropology and Aesthetics.
[8] C. Justice,et al. Satellite remote sensing of fires during the SAFARI campaign using NOAA Advanced Very High Resolution Radiometer data , 1996 .
[9] Irina N. Sokolik,et al. Direct radiative forcing by anthropogenic airborne mineral aerosols , 1996, Nature.
[10] P. Bhartia,et al. Global distribution of UV-absorbing aerosols from Nimbus 7/TOMS data , 1997 .
[11] A. Belward,et al. The IGBP-DIS global 1km land cover data set, DISCover: First results , 1997 .
[12] S. Palm,et al. Inference of marine atmospheric boundary layer moisture and temperature structure using airborne lidar and infrared radiometer data , 1998 .
[13] P. Jones,et al. Representing Twentieth-Century Space–Time Climate Variability. Part I: Development of a 1961–90 Mean Monthly Terrestrial Climatology , 1999 .
[14] R. Stull,et al. Meteorology for Scientists and Engineers , 1999 .
[15] M. Chin,et al. Sources and distributions of dust aerosols simulated with the GOCART model , 2001 .
[16] O. Torres,et al. ENVIRONMENTAL CHARACTERIZATION OF GLOBAL SOURCES OF ATMOSPHERIC SOIL DUST IDENTIFIED WITH THE NIMBUS 7 TOTAL OZONE MAPPING SPECTROMETER (TOMS) ABSORBING AEROSOL PRODUCT , 2002 .
[17] Weihong Qian,et al. Variations of the Dust Storm in China and its Climatic Control , 2002 .
[18] N. Mahowald,et al. Understanding the 30‐year Barbados desert dust record , 2002 .
[19] Jie Xuan,et al. Characterization of sources and emission rates of mineral dust in Northern China , 2002 .
[20] Alan H. Strahler,et al. Global land cover mapping from MODIS: algorithms and early results , 2002 .
[21] N. Mahowald,et al. A less dusty future? , 2003 .
[22] David M. Winker,et al. Use of probability distribution functions for discriminating between cloud and aerosol in lidar backscatter data , 2004 .
[23] C. Moulin,et al. Evidence of the control of summer atmospheric transport of African dust over the Atlantic by Sahel sources from TOMS satellites (1979–2000) , 2004 .
[24] David M. Winker,et al. Fully automated analysis of space-based lidar data: an overview of the CALIPSO retrieval algorithms and data products , 2004, SPIE Remote Sensing.
[25] I. Tegen,et al. Relative importance of climate and land use in determining present and future global soil dust emission , 2004 .
[26] T. Zhao,et al. Sensitivity of Asian dust storm to natural and anthropogenic factors , 2004 .
[27] T. D. Mitchell,et al. An improved method of constructing a database of monthly climate observations and associated high‐resolution grids , 2005 .
[28] Zhibao Dong,et al. Control of dust emissions by geomorphic conditions, wind environments and land use in northern China: An examination based on dust storm frequency from 1960 to 2003 , 2006 .
[29] Patrick Minnis,et al. Possible influences of Asian dust aerosols on cloud properties and radiative forcing observed from MODIS and CERES , 2006 .
[30] Patrick Minnis,et al. Satellite‐based assessment of possible dust aerosols semi‐direct effect on cloud water path over East Asia , 2006 .
[31] Bruce A. Wielicki,et al. Global statistics of liquid water content and effective number concentration of water clouds over ocean derived from combined CALIPSO and MODIS measurements , 2018 .
[32] Zhaoyan Liu,et al. The depolarization - attenuated backscatter relation: CALIPSO lidar measurements vs. theory. , 2007, Optics express.
[33] Fuzhong Weng,et al. Detection of Asia dust storms using multisensor satellite measurements , 2007 .
[34] D. Winker,et al. Initial performance assessment of CALIOP , 2007 .
[35] Anup K. Prasad,et al. Aerosol radiative forcing over the Indo-Gangetic plains during major dust storms , 2007 .
[36] Zhaoyan Liu,et al. Airborne dust distributions over the Tibetan Plateau and surrounding areas derived from the first year of CALIPSO lidar observations , 2008 .
[37] D. Winker,et al. A height resolved global view of dust aerosols from the first year CALIPSO lidar measurements , 2008 .
[38] Lei Zhang,et al. An overview of the Semi-arid Climate and Environment Research Observatory over the Loess Plateau , 2008 .
[39] Jianping Huang,et al. Estimation of Asian dust aerosol effect on cloud radiation forcing using Fu-Liou radiative model and CERES measurements , 2008 .
[40] Mark A. Vaughan,et al. The Retrieval of Profiles of Particulate Extinction from Cloud-Aerosol Lidar Infrared Pathfinder Satellite Observations (CALIPSO) Data: Algorithm Description , 2009 .
[41] K. Stamnes,et al. CALIPSO/CALIOP Cloud Phase Discrimination Algorithm , 2009 .
[42] D. Winker,et al. The CALIPSO Automated Aerosol Classification and Lidar Ratio Selection Algorithm , 2009 .
[43] Jaakko Kukkonen,et al. Comparison of CALIOP level 2 aerosol subtypes to aerosol types derived from AERONET inversion data , 2009 .
[44] Qiang Fu,et al. Dust aerosol vertical structure measurements using three MPL lidars during 2008 China-U.S. joint dust field experiment , 2010, Journal of Geophysical Research.
[45] Patrick Minnis,et al. Dust aerosol effect on semi-arid climate over Northwest China detected from A-Train satellite measurements , 2010 .
[46] M. Friedl,et al. Mapping global urban areas using MODIS 500-m data: new methods and datasets based on 'urban ecoregions'. , 2010 .
[47] Raymond M. Hoff,et al. Validation of Goddard Earth Observing System-version 5 MERRA planetary boundary layer heights using CALIPSO , 2010 .
[48] Patrick Minnis,et al. Detection of dust aerosol by combining CALIPSO active lidar and passive IIR measurements , 2010 .
[49] J. Curry,et al. Interactions of Arctic Aerosols with Land-Cover and Land-Use Changes in Northern Eurasia and their Role in the Arctic Climate System , 2010 .
[50] S. H. Park,et al. Relative impact of windblown dust versus anthropogenic fugitive dust in PM2.5 on air quality in North America , 2010 .
[51] Damien Sulla-Menashe,et al. MODIS Collection 5 global land cover: Algorithm refinements and characterization of new datasets , 2010 .
[52] D. Winker,et al. THE CALIPSO CLOUD AND AEROSOL DISCRIMINATION : VERSION 3 ALGORITHM AND TEST RESULTS , 2010 .
[53] M. Schulz,et al. Increase in African dust flux at the onset of commercial agriculture in the Sahel region , 2010, Nature.
[54] Sandy P. Harrison,et al. Preferential dust sources: A geomorphological classification designed for use in global dust-cycle models , 2011 .
[55] D. Jugder,et al. Change of the Asian dust source region deduced from the composition of anthropogenic radionuclides in surface soil in Mongolia , 2011 .
[56] Yan Yin,et al. East Asian Studies of Tropospheric Aerosols and their Impact on Regional Climate (EAST‐AIRC): An overview , 2011 .
[57] Michael Schulz,et al. Global dust model intercomparison in AeroCom phase I , 2011 .
[58] Jianping Huang,et al. DUST AND BLACK CARBON IN SEASONAL SNOW ACROSS NORTHERN CHINA , 2011 .
[59] Mark E. Miller,et al. Dust: small-scale processes with global consequences , 2011 .
[60] Tianle Yuan,et al. Aerosols from Overseas Rival Domestic Emissions over North America , 2012, Science.
[61] Jianping Huang,et al. Enhanced cold-season warming in semi-arid regions , 2012 .
[62] A. Scott Denning,et al. Estimates of North American summertime planetary boundary layer depths derived from space-borne lidar , 2012 .
[63] Ming Zhao,et al. Global‐scale attribution of anthropogenic and natural dust sources and their emission rates based on MODIS Deep Blue aerosol products , 2012 .
[64] Q. Fu,et al. For the depolarization of linearly polarized light by smoke particles , 2013 .
[65] L. Ruby Leung,et al. Modeling the transport and radiative forcing of Taklimakan dust over the Tibetan Plateau: A case study in the summer of 2006 , 2013 .
[66] Zhanqing Li,et al. Climate effects of dust aerosols over East Asian arid and semiarid regions , 2014 .
[67] Beidou Zhang,et al. Comparisons of PBL heights derived from CALIPSO and ECMWF reanalysis data over China , 2015 .