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Integrated Plant Nutrient Systems Improve Rice Yields without Affecting Greenhouse Gas Emissions from Lowland Rice Cultivation

Author

Listed:
  • S. M. Mofijul Islam

    (Soil Science Division, Bangladesh Rice Research Institute, Gazipur 1701, Bangladesh)

  • Yam Kanta Gaihre

    (International Fertilizer Development Center, Muscle Shoals, AL 35661, USA)

  • Md. Rafiqul Islam

    (Soil Science Division, Bangladesh Rice Research Institute, Gazipur 1701, Bangladesh)

  • Amina Khatun

    (Rice Farming System Division, Bangladesh Rice Research Institute, Gazipur 1701, Bangladesh)

  • Aminul Islam

    (Soil Science Division, Bangladesh Rice Research Institute, Gazipur 1701, Bangladesh)

Abstract

Efficient management of fertilizers and irrigation could mitigate greenhouse gas (GHG) emissions and increase crop yields. Field experiments were conducted to determine the effects of an integrated plant nutrient system (IPNS) and water regime—alternate wetting and drying (AWD) and continuous flooding (CF)—on GHG emissions and rice yield. Fertilizer treatments included control (no N), prilled urea (PU), urea deep placement (UDP), and IPNS (50% N from poultry litter and 50% N from PU). Gas sampling and analysis were performed using a closed-chamber technique and gas chromatography. IPNS produced significantly ( p < 0.05) higher seasonal total methane (CH 4 ) emissions (9–15%) compared to the UDP treatment, but the emissions with IPNS were similar to those of PU. IPNS had an interaction effect with the water regime on nitrogen oxide (N 2 O) emissions. IPNS produced more emissions than PU under AWD, but their emissions were similar under CF irrigation. IPNS produced a significantly higher total global warming potential (GWP) than UDP but a GWP similar to the PU treatment in both Aus (pre-monsoon) and Aman (wet) seasons. AWD irrigation reduced the total GWP by 8% over CF without yield reductions. IPNS significantly increased rice yields compared to broadcast PU but yields were similar to those of UDP. These findings suggest that both IPNS and UDP could be effective in increasing crop yields without increasing GHG emissions.

Suggested Citation

  • S. M. Mofijul Islam & Yam Kanta Gaihre & Md. Rafiqul Islam & Amina Khatun & Aminul Islam, 2022. "Integrated Plant Nutrient Systems Improve Rice Yields without Affecting Greenhouse Gas Emissions from Lowland Rice Cultivation," Sustainability, MDPI, vol. 14(18), pages 1-14, September.
    • Handle: RePEc:gam:jsusta:v:14:y:2022:i:18:p:11338-:d:911300
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    References listed on IDEAS

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    1. Liang, Kaiming & Zhong, Xuhua & Huang, Nongrong & Lampayan, Rubenito M. & Pan, Junfeng & Tian, Ka & Liu, Yanzhuo, 2016. "Grain yield, water productivity and CH4 emission of irrigated rice in response to water management in south China," Agricultural Water Management, Elsevier, vol. 163(C), pages 319-331.
    2. Islam, S.M. Mofijul & Gaihre, Yam Kanta & Biswas, Jatish Chandra & Jahan, Md. Sarwar & Singh, Upendra & Adhikary, Sanjoy Kumar & Satter, M. Abdus & Saleque, M.A., 2018. "Different nitrogen rates and methods of application for dry season rice cultivation with alternate wetting and drying irrigation: Fate of nitrogen and grain yield," Agricultural Water Management, Elsevier, vol. 196(C), pages 144-153.
    3. Paul L. E. Bodelier & Peter Roslev & Thilo Henckel & Peter Frenzel, 2000. "Stimulation by ammonium-based fertilizers of methane oxidation in soil around rice roots," Nature, Nature, vol. 403(6768), pages 421-424, January.
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