[HTML][HTML] Absorbing aerosols and summer monsoon evolution over South Asia: An observational portrayal
Abstract The South Asian haze builds up from December to May, is mostly of anthropogenic
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
[PDF][PDF] Absorbing Aerosols and Summer Monsoon Evolution over South Asia: An Observational Portrayal
M BOLLASINA, S NIGAM, KM LAU - 2008 - researchgate.net
ABSTRACT The South Asian haze builds up from December to May, is mostly of
anthropogenic origin, and absorbs part of the solar radiation. The influence of interannual …
anthropogenic origin, and absorbs part of the solar radiation. The influence of interannual …
Absorbing Aerosols and Summer Monsoon Evolution over South Asia: An Observational Portrayal.
M Bollasina, S Nigam, KM Lau - Journal of Climate, 2008 - search.ebscohost.com
Abstract The South Asian haze builds up from December to May, is mostly of anthropogenic
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
[PDF][PDF] Absorbing Aerosols and Summer Monsoon Evolution over South Asia: An Observational Portrayal
M BOLLASINA, S NIGAM, KM LAU - 2008 - Citeseer
ABSTRACT The South Asian haze builds up from December to May, is mostly of
anthropogenic origin, and absorbs part of the solar radiation. The influence of interannual …
anthropogenic origin, and absorbs part of the solar radiation. The influence of interannual …
Absorbing aerosols and summer monsoon evolution over South Asia: an observational portrayal.
M Bollasina, S Nigam, KM Lau - 2008 - cabidigitallibrary.org
Abstract The South Asian haze builds up from December to May, is mostly of anthropogenic
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
Absorbing Aerosols and Summer Monsoon Evolution over South Asia: An Observational Portrayal
M Bollasina, S Nigam, KM Lau - Journal of Climate, 2008 - cir.nii.ac.jp
抄録< jats: title> Abstract</jats: title>< jats: p> The South Asian haze builds up from
December to May, is mostly of anthropogenic origin, and absorbs part of the solar radiation …
December to May, is mostly of anthropogenic origin, and absorbs part of the solar radiation …
Absorbing Aerosols and Summer Monsoon Evolution over South Asia: An Observational Portrayal
M Bollasina, S Nigam, KM Lau - Journal of Climate, 2008 - search.proquest.com
Abstract The South Asian haze builds up from December to May, is mostly of anthropogenic
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
Absorbing aerosols and summer monsoon evolution over South Asia: An observational portrayal
M Bollasina, S Nigam, KM Lau - Journal of Climate, 2008 - hero.epa.gov
Abstract The South Asian haze builds up from December to May, is mostly of anthropogenic
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
[引用][C] Absorbing Aerosols and Summer Monsoon Evolution over South Asia: An Observational Portrayal
M BOLLASINA, S NIGAM, KM LAU - Journal of climate, 2008 - pascal-francis.inist.fr
Absorbing Aerosols and Summer Monsoon Evolution over South Asia : An Observational
Portrayal CNRS Inist Pascal-Francis CNRS Pascal and Francis Bibliographic Databases …
Portrayal CNRS Inist Pascal-Francis CNRS Pascal and Francis Bibliographic Databases …
Absorbing aerosols and summer monsoon evolution over South Asia: An observational portrayal
M Bollasina, S Nigam, KM Lau - Journal of Climate, 2008 - research.ed.ac.uk
Abstract The South Asian haze builds up from December to May, is mostly of anthropogenic
origin, and absorbs part of the solar radiation. The influence of interannual variations of …
origin, and absorbs part of the solar radiation. The influence of interannual variations of …