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Ammonia volatilization from urea in rice fields with zero-drainage water management

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  • Li, Hua
  • Liang, Xinqiang
  • Chen, Yingxu
  • Tian, Guangming
  • Zhang, Zhijian

Abstract

Three field experiments located at Yuhang (YH), Changshu (CS), and Jiaxing (JX) Agricultural Research Stations in the Taihu region of China were conducted to elucidate ammonia volatilization (AV) during rice growing seasons through 'zero-drainage water management', combined with sound irrigation, rainfall forecasting and field drying. The experiment at each site had five N rates (0-360 kg N/ha in 90 kg increments). AV was measured by the continuous airflow enclosure method. Results show that AV was completed within 10-12 days after urea application. The peak values of AV rates after the first topdressing (AF1) at N360 treatment could reach 11.2, 9.0, and 8.5 kg N/ha day within 2-4 days at the YH, CS, and JX sites, respectively. It was only necessary to maintain a higher water level during the first 'flooding-drying' cycle after the AF1. The seasonal averages of the total AV fluxes accounted for 4.4-15.5%, 4.4-12.6%, and 4.6-10.9% of the applied urea at the YH, CS, and JX sites, respectively, suggesting that the zero-drainage water management with flooding-drying cycles was effective for controlling AV. This study also speculates that the total AV flux during the rice season was more N rates and seasons related than sites.

Suggested Citation

  • Li, Hua & Liang, Xinqiang & Chen, Yingxu & Tian, Guangming & Zhang, Zhijian, 2008. "Ammonia volatilization from urea in rice fields with zero-drainage water management," Agricultural Water Management, Elsevier, vol. 95(8), pages 887-894, August.
    • Handle: RePEc:eee:agiwat:v:95:y:2008:i:8:p:887-894
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    Cited by:

    1. Xu, Junzeng & Peng, Shizhang & Yang, Shihong & Wang, Weiguang, 2012. "Ammonia volatilization losses from a rice paddy with different irrigation and nitrogen managements," Agricultural Water Management, Elsevier, vol. 104(C), pages 184-192.
    2. Sharmiladevi, R. & Ravikumar, V., 2021. "Simulation of nitrogen fertigation schedule for drip irrigated paddy," Agricultural Water Management, Elsevier, vol. 252(C).
    3. Berlin, M. & Suresh Kumar, G. & Nambi, Indumathi M., 2014. "Numerical modelling on transport of nitrogen from wastewater and fertilizer applied on paddy fields," Ecological Modelling, Elsevier, vol. 278(C), pages 85-99.
    4. Li, Yong & Šimůnek, Jirka & Zhang, Zhentin & Jing, Longfei & Ni, Lixiao, 2015. "Evaluation of nitrogen balance in a direct-seeded-rice field experiment using Hydrus-1D," Agricultural Water Management, Elsevier, vol. 148(C), pages 213-222.
    5. Jung, Jae-Woon & Yoon, Kwang-Sik & Choi, Dong-Ho & Lim, Sang-Sun & Choi, Woo-Jung & Choi, Soo-Myung & Lim, Byung-Jin, 2012. "Water management practices and SCS curve numbers of paddy fields equipped with surface drainage pipes," Agricultural Water Management, Elsevier, vol. 110(C), pages 78-83.
    6. Zhao, G.J. & Hörmann, G. & Fohrer, N. & Li, H.P. & Gao, J.F. & Tian, K., 2011. "Development and application of a nitrogen simulation model in a data scarce catchment in South China," Agricultural Water Management, Elsevier, vol. 98(4), pages 619-631, February.
    7. Qi, Dongliang & Yan, Jun & Zhu, Jianqiang, 2020. "Effect of a reduced fertilizer rate on the water quality of paddy fields and rice yields under fishpond effluent irrigation," Agricultural Water Management, Elsevier, vol. 231(C).

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