Adaptation
Building resilience
to climate change
 
Mitigation
Moving towards
low carbon societies
 
REDD+
Reducing Emissions
from Deforestation
and forest Degradation
Finance
New finance models
for the green economy
 
 
 

New research shows that two thirds of soot pollution in South Asia comes from biomass combustion
23/ 01/ 2009

	 New research shows that two thirds of soot pollution in South Asia comes from biomass combustionSwedish and Indian researchers constrain the sources of climate and health-afflicting soot pollution over South Asia


Stockholm, 23 January 2009 - A gigantic brownish haze from various burning and combustion processes is blanketing India and surrounding land and oceans during the winter season. This soot-laden Brown Cloud is affecting South Asian climate as much or more than carbon dioxide and cause premature deaths of 100 000s annually, yet its sources have been poorly understood. In this week's issue of Science Örjan Gustafsson and colleagues at Stockholm University and in India use a novel carbon-14 method to constrain that two-thirds of the soot particles are from biomass combustion such as in household cooking and in slash-and-burn agriculture.

Brown Clouds, covering large parts of South and East Asia, originate from burning of wood, dung and crop residue as well as from industrial processes and traffic. Previous studies had left it unclear as to the relative source contributions of biomass versus fossil fuel combustion.
Combustion-derived soot particles are key components of the Brown Cloud in Asia. The soot absorbs sunlight and thereby heats the atmosphere while cooling Earth's surface by shading.

The net effect of soot on climate warming in South Asia is rivaling that of carbon dioxide.
The Swedish-Indian team managed to address the uncertainty of the soot sources by the first-ever microscale measurements of natural C-14 (half-life of 5700 years) of atmospheric soot particles intercepted on a mountain top in western India and outside SW India on the Hanimaadhoo island of the Maldives. Their results, presented in the Science article, demonstrated that the brown cloud soot was persistently about two-thirds from burning of contemporary biomass (C-14 "alive") and one-third from fossil fuel combustion (C-14 "dead").

These findings provide a direction for actions to curb emissions of Brown Clouds. Örjan
Gustafsson, a professor of biogeochemistry at Stockholm University and leader of the study, says that the clear message is that efforts should not be limited to car traffic and coal-fired power plants but calls on fighting poverty and spreading India-appropriate green technology to limit emissions from small-scale biomass burning. "More households in South Asia need to be given the possibility to cook food and get heating without using open fires of wood and dung" says Gustafsson.

The rewards of decreasing soot emissions from biomass combustion may be rapid and sizeable. Globally, soot accounts for roughly half the warming potential of carbon dioxide. While carbon dioxide levels in the atmosphere respond on a sluggish 100 yr timescale to reductions in emissions, Brown Cloud soot particles only reside in the atmosphere for days-weeks raising the hope for a rapid response of the climate system.

Several additional positive effects would result from a reduction on Brown Cloud soot particle emissions. A recent report by the United Nations Environment Program, Atmospheric Brown Clouds: Regional Assessment Report with Focus on Asia (http://www.rrcap.unep.org/abc/impact/) outlines severe effects including melting of the Himalayan glaciers and weather systems becoming more extreme. The Brown Cloud is also having impact on agriculture and air quality in Asia. Henning Rodhe, a professor of chemical meteorology at Stockholm University, vice-chair of the UNEP Atmospheric Brown Cloud
Program and also co-author of the Science article, states that the report finds that 340 000 people in China and India die each year from cardiovascular and respiratory diseases that can be traced to human-induced emissions of combustion particles. "The impact on health alone is a strong reason to reduce these Brown Clouds" says Rodhe.

For further information please contact: Professor Örjan Gustafsson, Department of Applied Environmental Science and the Bert Bolin
Climate Research Centre, Stockholm University orjan.gustafsson@itm.su.se or +46-70-3247317.
Professor Henning Rodhe, Department of Meteorology and the Bert Bolin Climate Research
Centre, Stockholm University rodhe@misu.su.se or +46-8-164342.
Reporters may contact the AAAS-Science SciPak team at +1-202-326-6440 or scipak@aaas.org
to receive an official version of the Science paper during the embargo.

For pictures: Contact Stockholm University Press Office at +46 (0)8-164090 or press@su.se

Further Resources
Atmospheric Brown Clouds: Regional Assessment Report with focus on Asia (2008)
INDOEX - Indian Ocean Experiment
Wide Spread and Complex Climatic Changes Outlined in New UNEP Project Atmospheric Brown Cloud Report
Article in Science magazine