Thursday, November 30, 2006
Reducing air pollution could increase rice harvests in India, suggests new UC study
Scripps Institution of Oceanography / University of California, San DiegoNew research from the University of California indicates that reductions of human-generated air pollution could create unexpected agricultural benefits in one of the world's poorest regions. These new findings appear Monday, Dec. 4, in the journal Proceedings of the National Academy of Sciences (PNAS).
Rice harvests increased dramatically in India during the "Green Revolution" of the 1960s and 1970s, making the country self-sufficient in its staple food. Harvest growth has slowed since the mid-1980s, however, raising concerns that food shortages could recur in this densely populated and poor nation. Several explanations for the slowdown have been proposed, but until now, none took into account the complex interactions of two pollution-related sources of climate change: atmospheric brown clouds (ABCs), which form from soot and other fine particles in the air (collectively termed aerosols), and the better-known problem of global warming caused by greenhouse gases such as carbon dioxide.
In this image, taken Feb. 5, 2006, by NASA's Aqua satellite, a pale band of haze covers northern India, just south of the Himalaya. Haze also intrudes into the skies of southern Nepal and Bangladesh. A study by UC researchers
In the PNAS paper, Maximilian Auffhammer at UC Berkeley's College of Natural Resources, and V. "Ram" Ramanathan and Jeffrey Vincent, researchers at UC San Diego, analyze historical data on Indian rice harvests and examine the combined effects of atmospheric brown clouds and greenhouse gases on growing conditions. They find that the combined effects were negative and were greater after the mid-1980s than before, coinciding with the observed slowdown in harvest growth. They estimate that harvests would have been 20 to 25 percent higher during some years in the 1990s if the negative climate impacts had not occurred.
Previous research by an international scientific team led by Ramanathan, professor of atmospheric sciences at Scripps Institution of Oceanography, found that brown clouds have made the Indian subcontinent drier and cooler. Although this suggests the existence of a climatic tradeoff, with reductions in aerosols potentially unleashing a stronger warming trend, the current study indicates that joint reductions in the two types of pollutants would, in fact, benefit Indian rice farmers. This is because reductions in aerosols would enhance rainfall, while reductions in greenhouse gases would reduce the higher nighttime temperatures that can negatively affect the growth of the rice plant.
"Greenhouse gases and aerosols in brown clouds are known to be competing factors in global warming," said Ramanathan. "The major finding of this interdisciplinary study is that their effects on rice production are additive, which is clearly an unwelcome surprise."
Peter Timmer, senior fellow at the Center for Global Development, an independent, non-profit think tank in Washington, D.C., added that the study "links a sophisticated model of agricultural production in India to climate and pollution models, with the critical finding that 'brown cloud' pollution has already cost India millions of tons of food production."
The researchers noted that the impact of ABCs and greenhouse gases on agriculture provides another incentive for controlling air pollution in heavily polluted Asia. "Air pollution control measures in India have been motivated mainly by concern about the health of residents of the urban areas where most of the pollution is generated," said Vincent, an economist and environmental research director at the UC Institute on Global Conflict and Cooperation (IGCC). "Our study provides an additional motivation related to the economic health of poor rural areas."
Auffhammer, UC Berkeley assistant professor of agricultural and resource economics, added that "while this study focuses on India's rain-fed states, ABCs exist throughout Asia's main rice-producing countries, many of which have experienced decreasing growth rates in harvests, too. Furthering our understanding of how air pollution affects agricultural output is very important to ensure food security in the world's most populous region."
The paper is the result of a three-year collaboration between Auffhammer, Ramanathan and Vincent. Their work was supported in part by the Giannini Foundation, the National Science Foundation, the National Oceanic and Atmospheric Administration and IGCC.
University of California Institute on Global Conflict and Cooperation (IGCC)
Since 1983, the UC Institute on Global Conflict and Cooperation (IGCC) has facilitated innovative research into the causes of international conflict and cooperation. As a research unit serving the entire UC system, IGCC has the capacity to build project teams from all 10 UC campuses and the UC-managed Lawrence Livermore and Los Alamos national laboratories.
IGCC builds bridges between the theory and practice of international policy, injecting fresh ideas into the process by establishing the intellectual foundations for effective policymaking, and providing ways for UC faculty and students to interact with policymakers at home and abroad through its collaborative, multi-campus projects.
IGCC is committed to educating the next generation of international problem-solvers and peacemakers through its research and teaching activities. The institute is one of the largest sources of dissertation and fellowship support for international studies students in the United States.
For more information on IGCC and its programs, visit igcc.ucsd.edu
Scripps Institution of Oceanography:scripps.ucsd.edu
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Scripps Institution of Oceanography, at University of California, San Diego, is one of the oldest, largest and most important centers for global science research and education in the world. The National Research Council has ranked Scripps first in faculty quality among oceanography programs nationwide Now in its second century of discovery, the scientific scope of the institution has grown to include biological, physical, chemical, geological, geophysical and atmospheric studies of the earth as a system. Hundreds of research programs covering a wide range of scientific areas are under way today in 65 countries. The institution has a staff of about 1,300, and annual expenditures of approximately $155 million from federal, state and private sources. Scripps operates one of the largest U.S. academic fleets with four oceanographic research ships and one research platform for worldwide exploration.
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