Stanford scientists help shed light on key component of China's pollution problem
Study reveals scale of nitrogen's effect on people and ecosystems.
It's no secret that China is faced with some of the world's worst pollution. Until now, however, information on the magnitude, scope and impacts of a major contributor to that pollution – human-caused nitrogen emissions – was lacking.
A new study co-authored by Stanford Woods Institute biologist Peter Vitousek reveals that amounts of nitrogen (from industry, cars and fertilizer) deposited on land and water in China by way of rain, dust and other carriers increased by 60 percent annually from the 1980s to the 2000s, with profound consequences for the country's people and ecosystems.
Xuejun Liu and Fusuo Zhang at China Agricultural University in Beijing led the study, which is part of an ongoing collaboration with Stanford aimed at reducing agricultural nutrient pollution while increasing food production in China – a collaboration that includes Vitousek and Pamela Matson, a Stanford Woods Institute senior fellow and dean of the School of Earth Sciences.
The researchers analyzed all available data on bulk nitrogen deposition from monitoring sites throughout China from 1980 to 2010.
During the past 30 years, China has become by far the largest creator and emitter of nitrogen globally. The country's use of nitrogen as a fertilizer increased about threefold from the 1980s to 2000s, while livestock numbers and coal combustion increased about fourfold, and the number of automobiles about twentyfold (all of these activities release reactive nitrogen into the environment).
Increased levels of nitrogen have led to a range of deleterious impacts including decreased air quality, acidification of soil and water, increased greenhouse gas concentrations and reduced biological diversity.
"All these changes can be linked to a common driving factor: strong economic growth, which has led to continuous increases in agricultural and non-agricultural reactive nitrogen emissions and consequently increased nitrogen deposition," the study's authors write.
Researchers found highly significant increases in bulk nitrogen deposition since the 1980s in China's industrialized North, Southeast and Southwest. Nitrogen levels on the North China Plain are much higher than those observed in any region in the United States and are comparable to the maximum values observed in the United Kingdom and the Netherlands when nitrogen deposition was at its peak in the 1980s.
China's rapid industrialization and agricultural expansion have led to continuous increases in nitrogen emissions and nitrogen deposition. China's production and use of nitrogen-based fertilizers is greater than that of the United States and the European Union combined. Because of inefficiencies, more than half of that fertilizer is lost to the environment in gaseous or dissolved forms.
China's nitrogen deposition problem could be brought under control, the study's authors state, if the country's environmental policy focused on improving efficiency in agricultural use of nitrogen and reducing nitrogen emissions from all sources, including industry and transit.
Rob Jordan is the communications writer for the Stanford Woods Institute for the Environment.
Peter Vitousek, Stanford Woods Institute for the Environment: (650) 725-1866, email@example.com
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