INDOEX Research News Release


INDOEX Researchers Document the Impact of Pollutants
on Climate Processes over the Tropical Indian Ocean


March 19, 1999



An international group of over 150 scientists is conducting a field experiment to study how air pollution affects climate processes over the tropical Indian Ocean. Asia and the Indian subcontinent, which together have a population of over 2 billion people, emit large quantities of pollutants that can be carried to the Indian Ocean during the northern hemisphere winter by monsoon winds from the northeast. The Indian Ocean Experiment (INDOEX) is investigating how these pollutants are transported through the atmosphere and how they affect the atmospheric composition and solar radiation processes over the ocean. A major objective is to estimate the climate effects of manmade airborne particles.

Preliminary results show that air pollutants dramatically impact this region. Scientists were suprised to find that a dense brownish pollution haze extended from the ocean surface to 1 to 3 km altitude. The haze layer covered much of the research area almost constantly during the 6-week intensive experiment. The affected area includes most of the northern Indian Ocean including the Arabian Sea, much of the Bay of Bengal, and the equatorial Indian Ocean to about 5 degrees south of the equator. The haze is caused by high concentrations of small particles, also known as aerosols, with sizes mostly less than a few micrometers in diameter. The haze particles are primarily composed of soot, sulfates, nitrates, organic particles, fly ash and mineral dust. Because of this pollution, visibility over the open ocean was often under 10 km, a range that is typically found near polluted sources regions of the United States and Europe.

The haze layer also contains relatively high concentrations of gases including carbon monoxide, various organic compounds, and sulfur dioxide. The concentrations of these gases are conclusive evidence that the haze layer is caused by pollution.

Haze particles scatter solar radiation, a process that reduces the amount of sunlight reaching the ocean surface, thus reducing the amount of solar energy that would otherwise heat the earth-atmosphere system. In the polluted INDOEX region, the haze particles reduce the solar radiation absorbed the ocean surface by as much as 10%.

The airborne particles over the northern Indian Ocean are unusually dark because they contain large amounts of soot and other materials from incompletely burned fuels and wastes. Dark aerosols lead to the increased absorption of solar radiation, a process that can affect the dynamic properties of the atmosphere in ways that could alter weather and climate.

The pollution aerosols can affect both visibility and cloud formation because water vapor condenses on the pollution particles. Over the Arabian Sea and perhaps in other regions of the northern Indian Ocean, low-level clouds are typically imbedded in haze so that they are often obscured. Scientists are trying to estimate to what extent the haze layer is altering cloud properties such as the concentrations of cloud droplets, the development of rainfall, and cloud brightness. Changes in cloud brightness are important in climate processes because these can alter the amount of radiation that is reflected back to space.

INDOEX scientists were surprised to find such a dense pollution haze layer derived from sources at least a thousand or more kilometers away.

The scientists suggest that the pollution events observed in INDOEX may be symptomatic of large-scale pollution transport that may be occurring in other regions of the earth.

In contrast to the situation over the northern Indian Ocean, the lower atmosphere over the southern Indian Ocean remains remarkably clean, thanks to the InterTropical Convergence Zone (ITCZ) which is found around 5-10 degrees south of the equator at this time of the year. A narrow zone of deep and towering thunderstorms forming over the warmest part of the equatorial ocean, the ITCZ intercepts polluted air masses and removes much of the pollution in rainfall. But the ITCZ clouds can also move substantial amounts of pollutants into the upper atmosphere where they can be spread over large areas.

INDOEX is the first major international program to study the transport and effects of pollutants between their source and their removal over this remote ocean region. Most atmospheric pollution transport studies have focused on ocean regions that are impacted by emissions from North America and Europe.

Airborne particles over the Indian Ocean appear to be markedly different from those over North America and Europe where advanced pollution control technologies remove much of the dark material and yield particles that are relatively "white" which can have a very different effect on radiative processes. Thus the impact of Asian pollution particles on climate processes appears fundamentally different from that of American and European pollution particles. INDOEX will provide a wealth of important and unique data for global climate modeling purposes to assess the impact on climate.

These measurements in the Indian Ocean are also important because they characterize emissions from the rapidly emerging economies in this region. We might expect to see increasing emissions of pollutants over the Indian Ocean and in other parts of the globe as similar economies continue to grow.

INDOEX is a cooperative program involving scientists from the United States, Europe, India, and the Maldives. Activities involve four research aircraft, two oceanographic ships, several surface stations, balloons, and a wide range of satellites. The center of operations is on Male International Airport where the aircraft are based. The experiment began in early February 1999 and will continue through the end of March 1999.

Acknowledgements: Each national institution will acknowledge their respective national agencies funding INDOEX.
(The US-INDOEX program receives support from the National Science Foundation (NSF), the Department of Energy (DOE), and the National Oceanic and Atmospheric Administration (NOAA)).

INDOEX International Project Office
Male International Airport, Maldives

This press release was prepared by some of the principal investigators participating in INDOEX.