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Soil Science and Plant Nutrition Volume 67, 2021 - Issue 6
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Environment

Effects of controlled release N fertilizers and reduced application rate on nitrous oxide emissions from soybean fields converted from rice paddies

Hiroyuki Hasukawaa Agricultural Technology Promotion Center of Shiga Prefecture, Omihachiman, JapanCorrespondence[email protected]
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,
Yumi Inodaa Agricultural Technology Promotion Center of Shiga Prefecture, Omihachiman, JapanView further author information
,
Takayuki Takayamaa Agricultural Technology Promotion Center of Shiga Prefecture, Omihachiman, JapanView further author information
,
Kunihiko Takehisaa Agricultural Technology Promotion Center of Shiga Prefecture, Omihachiman, JapanView further author information
,
Shigeto Sudob NARO Institute for Agro-Environmental Science, Tsukuba, JapanView further author information
,
Hiroko Akiyamab NARO Institute for Agro-Environmental Science, Tsukuba, JapanView further author information
&
Junta Yanaic Graduate School of Life and Environmental Sciences, Kyoto Prefectural University, Kyoto, JapanView further author information
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Pages 716-726 | Received 28 Jun 2021, Accepted 23 Nov 2021, Published online: 31 Dec 2021

References

  • Adviento-Borbe, M. A. A., M. L. Haddix, D. L. Binder, D. T. Walters, and A. Dobermann. 2007. “Soil Greenhouse Gas Fluxes and Global Warming Potential in Four High-yielding Maize Systems.” Global Change Biology 13 (9): 1972–1988. doi:10.1111/j.1365-2486.2007.01421.x.
  • Aguilera, E., L. Lassaletta, A. Sanz-Cobena, J. Garnier, and A. Vallejo. 2013. “The Potential of Organic Fertilizers and Water Management to Reduce N2O Emissions in Mediterranean Climate Cropping Systems. A Review.” Agriculture, Ecosystems & Environment 164: 32–52. doi:10.1016/j.agee.2012.09.006.
  • Akiyama, H., and H. Tsuruta. 2002. “Effect of Chemical Fertilizer Form on N2O, NO and NO2 Fluxes from Andisol Field.” Nutrient Cycling in Agroecosystems 63 (2/3): 219–230. doi:10.1023/A:1021102925159.
  • Akiyama, H., and H. Tsuruta. 2003. “Nitrous Oxide, Nitric Oxide, and Nitrogen Dioxide Fluxes from Soils after Manure and Urea Application.” Journal of Environmental Quality 32 (2): 423–431. doi:10.2134/jeq2003.4230.
  • Akiyama, H., X. Yan, and K. Yagi. 2006. “Estimations of Emission Factors for Fertilizer-induced Direct N2O Emissions from Agricultural Soils in Japan: Summary of Available Data.” Soil Science and Plant Nutrition 52 (6): 774–787. doi:10.1111/j.1747-0765.2006.00097.x.
  • Akiyama, H., X. Yan, and K. Yagi. 2010. “Evaluation of Effectiveness of Enhanced-efficiency Fertilizers as Mitigation Options for N2O and NO Emissions from Agricultural Soils: Meta-analysis.” Global Change Biology 16 (6): 1837–1846. doi:10.1111/j.1365-2486.2009.02031.x.
  • FAO, ISRIC, ISSS. 2006. “World Reference Base for Soil Resources 2006, A Framework for International Classification Correlation and Communication”, World Soil Resources Reports 103, pp. 1–128. Rome, Italy.
  • FAO. 2020: “FAOSTAT Database”. 2020, Available online: http://faostat.fao.org/
  • Furuhata, M., K. Adachi, and S. Ohono. 2011. “Influence of Field Drainage on Dry Matter and Seed Production of Soybean in the Hokuriku District of Japan.” Japanese Journal of Crop Science 80 (1): 65–72. in Japanese with English summary. doi:10.1626/jcs.80.65.
  • Hasukawa, H., S. Toritsuka, Y. Takahashi, S. Sudo, N. Oura, K. Nishina, and T. Sano. 2017. “Effect of Controlled Release Fertilizer on Nitrous Oxide Emission from Gray Lowland Soil of a Wheat–soybean Cropping System.” Japanese Journal of Soil Science and Plant Nutrition 88: 109–119. in Japanese with English summary.
  • Hasukawa, H., Y. Inoda, S. Toritsuka, S. Sudo, N. Oura, T. Sano, Y. Shirato, and J. Yanai. 2021. “Effect of Paddy-upland Rotation System on the Net Greenhouse Gas Balance as the Sum of Methane and Nitrous Oxide Emissions and Soil Carbon Storage: A Case in Western Japan.” Agriculture 11 (1): 52. doi:10.3390/agriculture11010052.
  • Hasukawa, H., Y. Takahashi, S. Toritsuka, S. Sudo, and K. Nishina. 2013. “Influence of Different Soil Management Methods during the Non-irrigation Period on Annual Greenhouse Gas Emissions from Rice Paddies.” Japanese Journal of Soil Science and Plant Nutrition 84: 462–472. in Japanese with English summary.
  • IFA 2016: “IFA Statistics”. International Fertilizer Industry Association (IFA), Paris, France. Accessed April, 2021. http://www.fertilizer.org/Statistics
  • Intergovernmental Panel on Climate Change (IPCC). 2007. Couplings between Changes in the Climate System and Biogeochemistry. New York: Cambridge Univ. Press.
  • Intergovernmental Panel on Climate Change (IPCC). 2006. “2006 IPCC Guidelines for National Greenhouse Gas Inventories.” In Agriculture, Forestry and Other Land Use, edited by E. Eggleston, L. Buendia, K. Miwa, T. Ngara, and K. Tanabe, Vol. 4, 11.1-11.54. Kanagawa, Japan: Institute for Global Environmental Strategies.
  • Kokubun, M. 2013. “Genetic and Cultural Improvement of Soybean for Waterlogged Conditions in Asia.” Field Crops Research 152: 3–7. doi:10.1016/j.fcr.2012.09.022.
  • Kusa, K., T. Sawamoto, R. Hu, Hatano, R. et al. 2010. “Comparison of N2O and CO2 Concentrations and Fluxes in the Soil Profile between a Gray Lowland Soil and an Andosol.” Soil Science and Plant Nutrition 56 (1): 186–199. DOI:10.1111/j.1747-0765.2009.00439.x.
  • Mosier, A. R., A. D. Halvorson, C. A. Reule, and X. J. J. Liu. 2006. “Net Global Warming Potential and Greenhouse Gas Intensity in Irrigated Cropping Systems in Northeastern Colorado.” Journal of Environmental Quality 35 (4): 1584–1598. doi:10.2134/jeq2005.0232.
  • Nanzyo, M. 1997. “V. 12 Available Nitrogen”. Analysis Methods of Soil Environment, edited by. T. Konno. 262–273. Hakuyusha, Tokyo. Japanese Society of Soil Science and Plant Nutrition.
  • Nishina, K., S. Sudo, K. Yagi, Sano, T., Takata, Y., Obara, H., Eguchi, S., Oura, N., Yano, S., Ohkoshi, S., et al. 2015. “Multi-site Monitoring for $$\hbox {N}_2\hbox {O}$$ N 2 O Emission Factors of Synthetic Fertilizer in Various Soils with Different Redoximorphic Features across Japan.” Nutrient Cycling in Agroecosystems 103 (1): 87–99. DOI:10.1007/s10705-015-9723-4.
  • Noda, S. 2001. “Application and Use of Fertilizers for the Reduction of Nitrous Oxide Emissions from Upland Soils.” Japanese Journal of Soil Science and Plant Nutrition 72: 575–581. in Japanese with English summary.
  • Paustian, K., J. Lehmann, S. Ogle, D. Reay, G. P. Robertson, and P. Smith. 2016. “Climate-smart Soils.” Nature 532 (7597): 49–57. doi:10.1038/nature17174.
  • R Core Team. 2017. R: A Language and Environment for Statistical Computing. Vienna, Austria: R Foundation for Statistical Computing.
  • Shcherbak, I., N. Millar, and G. Philip Robertson. 2014. “Global Metaanalysis of the Nonlinear Response of Soil Nitrous Oxide (N2O) Emissions to Fertilizer Nitrogen.” Proceedings of the National Academy of Sciences of the United States of America 111 (25): 9199–9204. doi:10.1073/pnas.1322434111.
  • Shiga Prefectural Government. 2012. Guidelines for Wheat and Soybeans Cultivation that Sell, 1–177. Shiga Prefectural Government, Otsu. in Japanese.
  • Shimada, S. 2013. “A New Framework for Study of Irrigated Paddy Rice and Upland Crops Rotation Farming and Its Relation to Soil and Plant Nutrition Science. 2. Expectations of Integrated Manuring Technology for Productive Soybean Cultivation on Drained Paddy Fields”. Japanese Journal of Soil Science and Plant Nutrition. 84. 208–214. in Japanese.
  • Smith, K. A., T. Ball, F. Conen, K. E. Dobbie, J. Massheder, and A. Rey. 2003. “Exchange of Greenhouse Gases between Soil and Atmosphere: Interactions of Soil Physical Factors and Biological Processes.” European Journal of Soil Science 54 (4): 779–791. doi:10.1046/j.1351-0754.2003.0567.x.
  • Snyder, C. S., T. W. Bruulsema, and T. L. Jensen. 2007. Greenhouse Gas Emissions from Cropping Systems and the Influence of Fertilizer Management – A Literature Review. Norcross, GA: International Plant Nutrition Institute.
  • Soil Environment Analysis Method Editing Committee. 1997. Soil Environmental Analysis, 1–427. Hakuyusha, Tokyo. Japanese Society of Soil Science and Plant Nutrition.
  • Soil Nutrient Measurement Method Committee. 1983. Soil Nutrient Analysis, 1–440. Yokendo, Tokyo. Agriculture, Forestry and Fisheries Technology Council.
  • Sudo, S. 2012. “Recent Advances in Research on Soil Redox Recations: Chasing Redox Recation in Soil. 3. Measurement Method of Greenhouse Gas Emission from Agricultural Field by Gas Chromatograph”. Japanese Journal of Soil Science and Plant Nutrition. 83. 599–605. in Japanese.
  • Takakai, F., M. Takeda, K. Kon, Inoue, K., Nakagawa, S., Sasaki, K., Chida, A., Sekiguchi, K., Takahashi, T., Sato, T., et al. 2010. “Effect of Preceding Compost Application on the Nitrogen Budget in an Upland Soybean Field Converted from a Rice Paddy Field on Gray Lowland Soil in Akita, Japan.” Soil Science and Plant Nutrition 56 (5): 760–772. DOI:10.1111/j.1747-0765.2010.00503.x.
  • Tamura, Y. 2000. “Development of Method of Producing High-Yielding Soybean Crops with Nitrogen Fixation in the Northern Area of Tohoku District.” Bulletin of the National Agricultural Research Center of Tohoku Region Station 97: 1–73. in Japanese with English summary.
  • Van Groenigen, J. W., G. L. Velthof, O. Oenema, K. J. Van Groenigen, and C. V. Kessel. 2010. “Towards an Agronomic Assessment of N2O Emissions: A Case Study for Arable Crops.” European Journal of Soil Science 61 (6): 903–913. doi:10.1111/j.1365-2389.2009.01217.x.
  • Venterea, R. T., B. Maharjan, and M. S. Dolanet. 2011. “Fertilizer Source and Tillage Effects on Yield-Scaled Nitrous Oxide Emissions in a Corn Cropping System.” Journal of Environmental Quality 40 (5): 1521–1531. doi:10.2134/jeq2011.0039.
  • Venterea, R. T., J. A. Coulter, and M. S. Dolanet. 2016. “Evaluation of Intensive “4R” Strategies for Decreasing Nitrous Oxide Emissions and Nitrogen Surplus in Rainfed Corn.” Journal of Environmental Quality 45 (4): 1186–1195. doi:10.2134/jeq2016.01.0024.
  • Yagi, K. 1997. “Greenhouse Gas Generation-absorption”. Soil Environmental Analysis, 129–138. Hakuyusha, Tokyo. Japanese Society of Soil Science and Plant Nutrition.

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