The regulatory role of endogenous iron on greenhouse gas emissions under intensive nitrogen fertilization in subtropical soils of China View Full Text


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Article Info

DATE

2018-03-10

AUTHORS

Jiangpei Han, Liangsheng Shi, Yakun Wang, Zhuowei Chen, Laosheng Wu

ABSTRACT

Anaerobic batch experiments were conducted to study the regulatory role of endogenous iron in greenhouse gas emissions under intensive nitrogen fertilization in subtropical soils of China. Fe2+, Fe3+, and NO3−-N dynamics and N2O, CH4, and CO2 emissions, as well as the relationships between N fertilizer, endogenous iron, and greenhouse gas emissions were investigated. The emissions of N2O increased to different extents from all the test soils by N1 (260 mg N kg−1) application compared with N0. After 24 days of anaerobic incubation, the cumulative emissions of N2O from red soils in De’an (DR) were significantly higher than that from paddy soils in De’an (DP) and Qujialing (QP) under N1. However, N application enhanced CH4 and CO2 emissions from the red soils slightly but inhibited the emissions from paddy soils. The maximal CH4 and CO2 emission fluxes occurred in DP soil without N input. Pearson’s correlation analysis showed that there were significant correlations (P < 0.01) between Fe2+ and Fe3+, NO3−-N, (N2O + N2)-N concentrations in DP soil, implying that Fe2+ oxidation was coupled with nitrate reduction accompanied by (N2O + N2)-N emissions and the endogenous iron played a regulatory role in greenhouse gas emissions mainly through the involvement in denitrification. The proportion of the electrons donated by Fe2+ used for N2O production in denitrification in DP soil was approximately 37.53%. Moreover, positive correlations between Fe2+ and CH4, CO2 were found in both DR and QP soils, suggesting that endogenous iron might regulate the anaerobic decomposition of organic carbon to CH4 and CO2 in the two soils. Soil pH was also an important factor controlling greenhouse gas emissions by affecting endogenous iron availability and C and N transformation processes. More... »

PAGES

14511-14520

References to SciGraph publications

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  • 2016-08-16. Impacts of continuous excessive fertilization on soil potential nitrification activity and nitrifying microbial community dynamics in greenhouse system in JOURNAL OF SOILS AND SEDIMENTS
  • 2013-01-23. Review of denitrification in tropical and subtropical soils of terrestrial ecosystems in JOURNAL OF SOILS AND SEDIMENTS
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  • 2016-11-21. Mitigating effects of ex situ application of rice straw on CH4 and N2O emissions from paddy-upland coexisting system in SCIENTIFIC REPORTS
  • 2001-07. Nitrous oxide and methane emissions from different soil suspensions: effect of soil redox status in BIOLOGY AND FERTILITY OF SOILS
  • 2000-01. Rice, microbes and methane in NATURE
  • 2014-10-28. Effects of rice straw, biochar and mineral fertiliser on methane (CH4) and nitrous oxide (N2O) emissions from rice (Oryza sativa L.) grown in a rain-fed lowland rice soil of Cambodia: a pot experiment in PADDY AND WATER ENVIRONMENT
  • 2011-07-13. Increased soil emissions of potent greenhouse gases under increased atmospheric CO2 in NATURE
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    PUBMED

    https://www.ncbi.nlm.nih.gov/pubmed/29525872


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