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Transformation of the nitrogen cycle: recent trends, questions, and potential solutions.

Author(s): James N Galloway, Alan R. Townsend, Jan Willem Erisman, Mateete Bekunda, Zucong Cai, John Freney, Luiz A Martinelli, Sybil P. Seitzinger, Mark A. Sutton

Publication date: 2008-05-16

Journal: Science (New York, N.Y.)

Keywords: Agriculture, trends, Animals, Atmosphere, Climate, Commerce, Ecosystem, Environment, Fossil Fuels, Human Activities, Humans, Industry, Interdisciplinary Communication, Nitrogen, analysis, metabolism, Nitrogen Fixation, Reactive Nitrogen Species, chemistry, Tropical Climate

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Abstract

Humans continue to transform the global nitrogen cycle at a record pace, reflecting an increased combustion of fossil fuels, growing demand for nitrogen in agriculture and industry, and pervasive inefficiencies in its use. Much anthropogenic nitrogen is lost to air, water, and land to cause a cascade of environmental and human health problems. Simultaneously, food production in some parts of the world is nitrogen-deficient, highlighting inequities in the distribution of nitrogen-containing fertilizers. Optimizing the need for a key human resource while minimizing its negative consequences requires an integrated interdisciplinary approach and the development of strategies to decrease nitrogen-containing waste.

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Most cited references 24

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An Earth-system perspective of the global nitrogen cycle.

Nicolas Gruber, James N. Galloway (2008)

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Nitrogen Cycles: Past, Present, and Future

J. Galloway, F. Dentener, D. G. Capone … (2004)

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Food for thought: lower-than-expected crop yield stimulation with rising CO2 concentrations.

Stephen P Long, Elizabeth Ainsworth, Andrew D. B. Leakey … (2006)

Model projections suggest that although increased temperature and decreased soil moisture will act to reduce global crop yields by 2050, the direct fertilization effect of rising carbon dioxide concentration ([CO2]) will offset these losses. The CO2 fertilization factors used in models to project future yields were derived from enclosure studies conducted approximately 20 years ago. Free-air concentration enrichment (FACE) technology has now facilitated large-scale trials of the major grain crops at elevated [CO2] under fully open-air field conditions. In those trials, elevated [CO2] enhanced yield by approximately 50% less than in enclosure studies. This casts serious doubt on projections that rising [CO2] will fully offset losses due to climate change.

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PubMed ID:: 18487183

DOI:: 10.1126/science.1136674

ScienceOpen disciplines: Chemistry

Keywords: Agriculture,trends,Animals,Atmosphere,Climate,Commerce,Ecosystem,Environment,Fossil Fuels,Human Activities,Humans,Industry,Interdisciplinary Communication,Nitrogen,analysis,metabolism,Nitrogen Fixation,Reactive Nitrogen Species,chemistry,Tropical Climate

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ScienceOpen disciplines: Chemistry

Transformation of the nitrogen cycle: recent trends, questions, and potential solutions.

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Most cited references 24

An Earth-system perspective of the global nitrogen cycle.

Nitrogen Cycles: Past, Present, and Future

Food for thought: lower-than-expected crop yield stimulation with rising CO2 concentrations.

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Journal

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