Cleaning up nitrogen pollution may reduce future carbon sinks

Baojing Gu, Xiaotang Ju, Yiyun Wu, Jan Willem Erisman, Albert Bleeker, Stefan Reis, Mark A. Sutton, Shu Kee Lam, Pete Smith, Oene Oenema, Rognvald I. Smith, Xuehe Lu, Xinyue Ye, Deli Chen

Research output: Contribution to journalArticleAcademicpeer-review

10 Citations (Scopus)

Abstract

Biosphere carbon sinks are crucial for reducing atmospheric carbon dioxide (CO2) concentration to mitigate global warming, but are substantially affected by the input of reactive nitrogen (Nr). Although the effects of anthropogenic CO2 emission and nitrogen deposition (indicated by Nr emission to atmosphere) on carbon sink have been studied, it is unclear how their ratio (C/N) changes with economic development and how such change alters biosphere carbon sinks. Here, by compiling datasets for 132 countries we find that the C/N ratio continued to increase despite anthropogenic CO2 and Nr emissions to atmosphere both showing an asymmetric para-curve with economic growth. The inflection points of CO2 and Nr emissions are found at around $15,000 gross domestic product per capita worldwide. Economic growth promotes the use of Nr and energy, while at the same time increases their use efficiencies, together resulting in occurrences of inflection points of CO2 and Nr emissions. Nr emissions increase slower but decrease faster than that of CO2 emissions before and after the inflection point, respectively. It implies that there will be relatively more anthropogenic CO2 emission but less N deposition with economic growth. This may limit biosphere carbon sink because of relative shortage of Nr. This finding should be integrated/included in global climate change modelling. Efforts, such as matching N deposition with carbon sequestration on regional scale, to manage CO2 and Nr emissions comprehensively to maintain a balance are critical.
Original languageEnglish
Pages (from-to)56-66
JournalGlobal Environmental Change
Volume48
DOIs
Publication statusPublished - 1 Jan 2018

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carbon sink
pollution
nitrogen
biosphere
economic growth
cleaning up
gross domestic product
atmosphere
shortage
Gross Domestic Product
carbon sequestration
climate change
global climate
global warming
economic development
carbon dioxide
energy
efficiency

Keywords

  • Carbon sink
  • Climate change
  • CO emission
  • Economic development
  • Nitrogen deposition
  • Stoichiometry

Cite this

Gu, B., Ju, X., Wu, Y., Erisman, J. W., Bleeker, A., Reis, S., ... Chen, D. (2018). Cleaning up nitrogen pollution may reduce future carbon sinks. Global Environmental Change, 48, 56-66. https://doi.org/10.1016/j.gloenvcha.2017.10.007
Gu, Baojing ; Ju, Xiaotang ; Wu, Yiyun ; Erisman, Jan Willem ; Bleeker, Albert ; Reis, Stefan ; Sutton, Mark A. ; Lam, Shu Kee ; Smith, Pete ; Oenema, Oene ; Smith, Rognvald I. ; Lu, Xuehe ; Ye, Xinyue ; Chen, Deli. / Cleaning up nitrogen pollution may reduce future carbon sinks. In: Global Environmental Change. 2018 ; Vol. 48. pp. 56-66.
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abstract = "Biosphere carbon sinks are crucial for reducing atmospheric carbon dioxide (CO2) concentration to mitigate global warming, but are substantially affected by the input of reactive nitrogen (Nr). Although the effects of anthropogenic CO2 emission and nitrogen deposition (indicated by Nr emission to atmosphere) on carbon sink have been studied, it is unclear how their ratio (C/N) changes with economic development and how such change alters biosphere carbon sinks. Here, by compiling datasets for 132 countries we find that the C/N ratio continued to increase despite anthropogenic CO2 and Nr emissions to atmosphere both showing an asymmetric para-curve with economic growth. The inflection points of CO2 and Nr emissions are found at around $15,000 gross domestic product per capita worldwide. Economic growth promotes the use of Nr and energy, while at the same time increases their use efficiencies, together resulting in occurrences of inflection points of CO2 and Nr emissions. Nr emissions increase slower but decrease faster than that of CO2 emissions before and after the inflection point, respectively. It implies that there will be relatively more anthropogenic CO2 emission but less N deposition with economic growth. This may limit biosphere carbon sink because of relative shortage of Nr. This finding should be integrated/included in global climate change modelling. Efforts, such as matching N deposition with carbon sequestration on regional scale, to manage CO2 and Nr emissions comprehensively to maintain a balance are critical.",
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Gu, B, Ju, X, Wu, Y, Erisman, JW, Bleeker, A, Reis, S, Sutton, MA, Lam, SK, Smith, P, Oenema, O, Smith, RI, Lu, X, Ye, X & Chen, D 2018, 'Cleaning up nitrogen pollution may reduce future carbon sinks' Global Environmental Change, vol. 48, pp. 56-66. https://doi.org/10.1016/j.gloenvcha.2017.10.007

Cleaning up nitrogen pollution may reduce future carbon sinks. / Gu, Baojing; Ju, Xiaotang; Wu, Yiyun; Erisman, Jan Willem; Bleeker, Albert; Reis, Stefan; Sutton, Mark A.; Lam, Shu Kee; Smith, Pete; Oenema, Oene; Smith, Rognvald I.; Lu, Xuehe; Ye, Xinyue; Chen, Deli.

In: Global Environmental Change, Vol. 48, 01.01.2018, p. 56-66.

Research output: Contribution to journalArticleAcademicpeer-review

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AU - Gu, Baojing

AU - Ju, Xiaotang

AU - Wu, Yiyun

AU - Erisman, Jan Willem

AU - Bleeker, Albert

AU - Reis, Stefan

AU - Sutton, Mark A.

AU - Lam, Shu Kee

AU - Smith, Pete

AU - Oenema, Oene

AU - Smith, Rognvald I.

AU - Lu, Xuehe

AU - Ye, Xinyue

AU - Chen, Deli

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KW - Carbon sink

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