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Design, Development and Field Evaluation of Manual-Operated Applicators for Deep Placement of Fertilizer in Puddled Rice Fields

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Abstract

Deep placement of urea increases nitrogen use efficiency, rice yields, and farm profitability compared to conventional broadcast urea. However, labor shortages for deep placement pose constraints for wider adoption. Therefore, two types of manual-operated applicators, an “injector-type” (non-continuous operation) and “push-type single row” (continuous operation), were designed during 2011–2015 to deep-place fertilizer briquettes in puddled rice fields. The design of the single-row applicator was improved from a double-row design developed earlier by the Bangladesh Agriculture Research Institute. In particular, the width of the furrow opener and skid was modified to ensure the precision placement of urea briquettes (UB) to 5–7-cm soil depth and coverage of the briquettes with soil. The single-row applicator has two cage wheels and one fertilizer hopper; the double-row applicator featured one cage wheel and two hoppers. This modification reduced the weight of the single-row applicator to 4.5 kg compared to the 10.0-kg double-row applicator. The injector-type applicator, which has four mechanisms—feeding, metering, delivery, and placement—weighs 1.5 kg. Field testing across different sites and seasons showed that the push-type applicator significantly reduced the labor requirement to 15–20 h/ha compared to the injector-type applicator or hand placement (28–50 h/ha). Applicators consistently placed UB at proper depth (5–7 cm) and spacing under most rice field conditions. Grain yields of applicator-placed UB were similar to hand-placed UB. There was no significant difference in grain yields between the two applicators when compared to yields achieved following hand placement.

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Acknowledgements

The United States Agency for International Development (USAID) provided support for this research through the Accelerating Agriculture Productivity Improvement (AAPI, cooperative agreement number AID-388-A-10-00002) project. The author would like to thank RFL, Bangladesh, for the help provided during the design of the applicators and all AAPI project staff for their cooperation in the field experiment. The author is grateful to Grahame Hunter, Ishrat Jahan, and Dr. Upendra Singh for their critical review, comments, and suggestions while preparing this manuscript.

Author’s Contribution

MAW took part in engineering design of applicators, setup of field experiments, data collection, and preparation of draft manuscript. YKG performed data analysis and writing manuscript. ATMZ and MAH carried out engineering design of applicators.

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Authors and Affiliations

  1. Accelerating Agriculture Productivity Improvement (AAPI) Project, International Fertilizer Development Center (IFDC), House 4B, Road 62, Gulshan 2, Dhaka, Bangladesh

    Md. Abdul Wohab & Yam Kanta Gaihre

  2. Bangladesh Agricultural University, Mymensingh, Bangladesh

    A. T. M. Ziauddin

  3. Bangladesh Agriculture Research Institute, Gazipur, Bangladesh

    M. A. Hoque

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  1. Md. Abdul Wohab
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  2. Yam Kanta Gaihre
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  3. A. T. M. Ziauddin
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  4. M. A. Hoque
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Correspondence to Yam Kanta Gaihre.

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Authors declared no conflict of interest.

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Wohab, M.A., Gaihre, Y.K., Ziauddin, A.T.M. et al. Design, Development and Field Evaluation of Manual-Operated Applicators for Deep Placement of Fertilizer in Puddled Rice Fields. Agric Res 6, 259–266 (2017). https://doi.org/10.1007/s40003-017-0267-5

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  • DOI: https://doi.org/10.1007/s40003-017-0267-5

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