From BASE-ASIA toward 7-SEAS: A satellite-surface perspective of boreal spring biomass-burning aerosols and clouds in Southeast Asia

[1]  J. Reid,et al.  Size resolved measurements of springtime aerosol particles over the northern South China Sea , 2013 .

[2]  Xinyi Dong,et al.  Impact assessment of biomass burning on air quality in Southeast and East Asia during BASE-ASIA , 2013 .

[3]  B. Holben,et al.  Origin, transport, and vertical distribution of atmospheric pollutants over the northern South China Sea during the 7-SEAS/Dongsha Experiment , 2013 .

[4]  B. Huebert,et al.  Characteristics and Composition of Atmospheric Aerosols in Phimai, Central Thailand During BASE-ASIA , 2013 .

[5]  R. Gautam,et al.  Characterization of Aerosols over the Indochina Peninsula from Satellite-Surface Observations During Biomass Burning Pre-Monsoon Season , 2013 .

[6]  M. Cheng,et al.  An Overview of Regional Experiments on Biomass Burning Aerosols and Related Pollutants in Southeast Asia: From BASE-ASIA and the Dongsha Experiment to 7-SEAS , 2013 .

[7]  Judith C. Chow,et al.  Constraining aerosol optical models using ground-based, collocated particle size and mass measurements in variable air mass regimes during the 7-SEAS/Dongsha experiment , 2013 .

[8]  Chung-te Lee,et al.  Aerosol chemical properties and related pollutants measured in Dongsha Island in the northern South China Sea during 7-SEAS/Dongsha Experiment , 2013 .

[9]  J. Herman,et al.  Satellite detection of smoke aerosols over a snow/ice surface by TOMS , 2013 .

[10]  Soo Chin Liew,et al.  Observing and understanding the Southeast Asian aerosol system by remote sensing: An initial review and analysis for the Seven Southeast Asian Studies (7SEAS) program , 2013 .

[11]  M. Nunez,et al.  Aerosol Optical Properties at Four Sites in Thailand , 2012 .

[12]  R. Gautam,et al.  Global and regional trends of aerosol optical depth over land and ocean using SeaWiFS measurements from 1997 to 2010 , 2012 .

[13]  Brent N. Holben,et al.  Global and regional evaluation of over-land spectral aerosol optical depth retrievals from SeaWiFS , 2012 .

[14]  N. C. Hsu,et al.  Can Asian dust trigger phytoplankton blooms in the oligotrophic northern South China Sea? , 2012 .

[15]  Alexander Smirnov,et al.  SeaWiFS Ocean Aerosol Retrieval (SOAR): Algorithm, validation, and comparison with other data sets , 2012 .

[16]  Jaakko Kukkonen,et al.  A review of operational, regional-scale, chemical weather forecasting models in Europe , 2012 .

[17]  H. Grassl,et al.  A search for large‐scale effects of ship emissions on clouds and radiation in satellite data , 2011 .

[18]  K. Lau,et al.  A novel nonintrusive method to resolve the thermal dome effect of pyranometers: Radiometric calibration and implications , 2011 .

[19]  N. C. Hsu,et al.  Evaluating the influences of biomass burning during 2006 BASE-ASIA: a regional chemical transport modeling , 2011 .

[20]  Can Li,et al.  First detailed observations of long-range transported dust over the northern South China Sea , 2011 .

[21]  Eric M. Wilcox,et al.  Direct and semi-direct radiative forcing of smoke aerosols over clouds , 2011 .

[22]  B. Holben,et al.  Susceptibility of aerosol optical thickness retrievals to thin cirrus contamination during the BASE‐ASIA campaign , 2011 .

[23]  M. Christensen,et al.  Microphysical and macrophysical responses of marine stratocumulus polluted by underlying ships: Evidence of cloud deepening , 2011 .

[24]  J. Randerson,et al.  Global fire emissions and the contribution of deforestation, savanna, forest, agricultural, and peat fires (1997-2009) , 2010 .

[25]  J. Lelieveld,et al.  Atmospheric pollutant outflow from southern Asia: a review , 2010 .

[26]  S. K. Akagi,et al.  Emission factors for open and domestic biomass burning for use in atmospheric models , 2010 .

[27]  S. Martin,et al.  Sources and properties of Amazonian aerosol particles , 2010 .

[28]  J. Perlwitz,et al.  Cloud Cover Increase with Increasing Aerosol Absorptivity: A Counterexample to the Conventional Semidirect Aerosol Effect , 2010 .

[29]  S. Tsay,et al.  A novel nonintrusive method to resolve the thermal dome effect of pyranometers: Instrumentation and observational basis , 2010 .

[30]  Daniel T. Dawson,et al.  Comparison of Evaporation and Cold Pool Development between Single-moment and Multi-moment Bulk Microphysics Schemes in Idealized Simulations of Tornadic Thunderstorms , 2009 .

[31]  B. Stevens,et al.  Untangling aerosol effects on clouds and precipitation in a buffered system , 2009, Nature.

[32]  D. Chang,et al.  Estimates of biomass burning emissions in tropical Asia based on satellite-derived data , 2009 .

[33]  Sundar A. Christopher,et al.  Global Monitoring and Forecasting of Biomass-Burning Smoke: Description of and Lessons From the Fire Locating and Modeling of Burning Emissions (FLAMBE) Program , 2009, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing.

[34]  M. Lebsock,et al.  On the precipitation susceptibility of clouds to aerosol perturbations , 2009 .

[35]  Martin Wild,et al.  Global dimming and brightening: A review , 2009 .

[36]  M. Nunez,et al.  Investigation of aerosol optical properties in Bangkok and suburbs , 2009 .

[37]  Robert Wood,et al.  Satellite-derived direct radiative effect of aerosols dependent on cloud cover , 2009 .

[38]  P. Gupta,et al.  A Multisensor satellite-based assessment of biomass burning aerosol radiative impact over Amazonia , 2008 .

[39]  R. Dickinson,et al.  Interannual variability of smoke and warm cloud relationships in the Amazon as inferred from MODIS retrievals , 2007 .

[40]  W. Hao,et al.  The Tropical Forest and Fire Emissions Experiment: overview and airborne fire emission factor measurements , 2007 .

[41]  W. Hao,et al.  The tropical forest and fire emissions experiment: Trace gases emitted by smoldering logs and dung from deforestation and pasture fires in Brazil , 2007 .

[42]  Robert F. Cahalan,et al.  3‐D aerosol‐cloud radiative interaction observed in collocated MODIS and ASTER images of cumulus cloud fields , 2007 .

[43]  E. Vermote,et al.  Second‐generation operational algorithm: Retrieval of aerosol properties over land from inversion of Moderate Resolution Imaging Spectroradiometer spectral reflectance , 2007 .

[44]  kwang-yul kim,et al.  ENSO Impact on the Space–Time Evolution of the Regional Asian Summer Monsoons , 2007 .

[45]  Y. Hong,et al.  The TRMM Multisatellite Precipitation Analysis (TMPA): Quasi-Global, Multiyear, Combined-Sensor Precipitation Estimates at Fine Scales , 2007 .

[46]  Michael D. King,et al.  Deep Blue Retrievals of Asian Aerosol Properties During ACE-Asia , 2006, IEEE Transactions on Geoscience and Remote Sensing.

[47]  M. Deeter,et al.  Satellite-observed pollution from Southern Hemisphere biomass burning. , 2006 .

[48]  C. Justice,et al.  Global distribution and seasonality of active fires as observed with the Terra and Aqua Moderate Resolution Imaging Spectroradiometer (MODIS) sensors , 2006 .

[49]  Yoram J. Kaufman,et al.  Dust and pollution aerosols over the Negev desert, Israel: Properties, transport, and radiative effect , 2006 .

[50]  D. Byun,et al.  Review of the Governing Equations, Computational Algorithms, and Other Components of the Models-3 Community Multiscale Air Quality (CMAQ) Modeling System , 2006 .

[51]  M. Yau,et al.  A Multimoment Bulk Microphysics Parameterization. Part II: A Proposed Three-Moment Closure and Scheme Description , 2005 .

[52]  Meinrat O. Andreae,et al.  Strong present-day aerosol cooling implies a hot future , 2005, Nature.

[53]  P. Novelli,et al.  Long‐range transport of Siberian biomass burning emissions and impact on surface ozone in western North America , 2004 .

[54]  Michael D. King,et al.  Aerosol properties over bright-reflecting source regions , 2004, IEEE Transactions on Geoscience and Remote Sensing.

[55]  M. Andreae,et al.  Smoking Rain Clouds over the Amazon , 2004, Science.

[56]  Ilan Koren,et al.  Measurement of the Effect of Amazon Smoke on Inhibition of Cloud Formation , 2004, Science.

[57]  G. Carmichael,et al.  Biomass burning in Asia: Annual and seasonal estimates and atmospheric emissions , 2003 .

[58]  J. Janowiak,et al.  The Version 2 Global Precipitation Climatology Project (GPCP) Monthly Precipitation Analysis (1979-Present) , 2003 .

[59]  B. Holben,et al.  Calibration and validation of retrieved aerosol properties based on AERONET and SKYNET , 2003 .

[60]  Peter J. Lamb,et al.  African Droughts and Dust Transport to the Caribbean: Climate Change Implications , 2003, Science.

[61]  Paul J. Crutzen,et al.  New Directions: Atmospheric Brown “Clouds”☆ , 2003 .

[62]  Martin Wild,et al.  Inaugural Article by a Recently Elected Academy Member , 2003 .

[63]  J. Privette,et al.  Africa burning: A thematic analysis of the Southern African Regional Science Initiative (SAFARI 2000) , 2003 .

[64]  J. Herman,et al.  Radiative impacts from biomass burning in the presence of clouds during boreal spring in southeast Asia , 2003 .

[65]  Stéphane Laroche,et al.  Polarimetric Doppler weather radar: principles and applications , 2002 .

[66]  V. Ramanathan,et al.  Aerosols, Climate, and the Hydrological Cycle , 2001, Science.

[67]  Yoram J. Kaufman,et al.  Analysis of smoke impact on clouds in Brazilian biomass burning regions: An extension of Twomey's approach , 2001 .

[68]  Alexander Smirnov,et al.  Characterization of the optical properties of biomass burning aerosols in Zambia during the 1997 ZIBBEE field campaign , 2001 .

[69]  K. Noone,et al.  The Monterey Area Ship Track Experiment , 2000 .

[70]  V. Ramanathan,et al.  Reduction of tropical cloudiness by soot , 2000, Science.

[71]  J. D. Wheeler,et al.  Aerosol backscatter fraction and single scattering albedo: Measured values and uncertainties at a coastal station in the Pacific Northwest , 1999 .

[72]  A. Smirnov,et al.  AERONET-a federated instrument network and data archive for aerosol Characterization , 1998 .

[73]  K. Lau,et al.  Climatology and interannual variability of the southeast asian summer monsoon , 1997 .

[74]  M. Garstang,et al.  Horizontal and vertical transport of air over southern Africa , 1996 .

[75]  P. Bhartia,et al.  Detection of biomass burning smoke from TOMS measurements , 1996 .

[76]  S. Klein,et al.  The Seasonal Cycle of Low Stratiform Clouds , 1993 .

[77]  P. Crutzen,et al.  Biomass Burning in the Tropics: Impact on Atmospheric Chemistry and Biogeochemical Cycles , 1990, Science.

[78]  Paul W. Stackhouse,et al.  The Relevance of the Microphysical and Radiative Properties of Cirrus Clouds to Climate and Climatic Feedback , 1990 .

[79]  B. Albrecht Aerosols, Cloud Microphysics, and Fractional Cloudiness , 1989, Science.

[80]  T. L. Wolfe,et al.  An assessment of the impact of pollution on global cloud albedo , 1984 .

[81]  Fumito Ito,et al.  Current Status and Future Directions , 2013 .

[82]  A. Loftus A triple-moment bulk hail microphysics scheme to investigate the sensitivities of hail to aerosols , 2012 .

[83]  J. Prospero Caribbean: Climate Change Implications African Droughts and Dust Transport to the , 2009 .

[84]  J. Kiehl,et al.  Atmospheric brown clouds: impacts on South Asian climate and hydrological cycle. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[85]  W. Cotton,et al.  RAMS 2001: Current status and future directions , 2003 .

[86]  Alexander Khain,et al.  Microphysics, Radiation and Surface Processes in the Goddard Cumulus Ensemble (GCE) Model , 2003 .

[87]  T. Eck,et al.  A review of biomass burning emissions, part II: Intensive physical properties of biomass burning particles , 2022 .