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Verification of Soil Test Based Phosphorous Calibration Study for Bread Wheat (Triticum Aestivum L.) Production in Horo District, Oromia Regional State, Ethiopia

Received: 23 September 2020     Accepted: 9 October 2020     Published: 26 October 2020
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Abstract

On-farm verification trial of soil test based crop response phosphorous calibration study for bread wheat production was conducted in 2019/20 main cropping season in the Horo District of the Horo Guduru Wollega Zone. The trial was initiated to verify phosphorus critical level and requirement factor for bread wheat production in Horo District. The treatments were the control (without phosphorus fertilizer), farmers practice (blanket recommendation) and soil test based recommended phosphorus fertilizer rate (RR). The trial was conducted on six farmers’ field across the district. Plot size was 10m * 10m. Soil data before planting and yield data were collected throughout the trial. Soil reaction pH (H2O) of all the sites ranged from 4.73 to 5.42 and available P ranges from 1.4 to 12.6ppm. Soil acidity of the experimental sites were amended with lime. Bread wheat grain and biomass yield (kg/ha) were high and significantly (p< 0.01) affected by different fertilizer rates used as treatments. The highest grain yield (2875 kg/ha) was resulted with soil test based phosphorus fertilizer rate recommendation. Economically optimum N (46 kg/ha), critical level phosphorus (10 ppm) and phosphorus requirement factor (11.03 kg/ha) for bread wheat production in the district were gained and recommended during the calibration study. It was significantly higher than the grain yield gained from the farmers’ practice (2119.4 kg/ha) and control/without phosphorus fertilizer (1647.2 kg/ha). Similarly, soil test based phosphorus fertilizer rate recommendation was economically optimum and feasible for bread wheat production in the district.

Published in Advances in Biochemistry (Volume 8, Issue 3)
DOI 10.11648/j.ab.20200803.12
Page(s) 52-56
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2020. Published by Science Publishing Group

Keywords

Bread Wheat, Horo, Phosphorus Fertilizer, Recommendation

References
[1] Agegnehu, G. and Bekele, T., 2005. On-farm integrated soil fertility management in wheat on Nitisols of central Ethiopian highlands. Ethiopian Journal of Natural Resources, 7 (2), pp. 141-155.
[2] Agegnehu, G. and B. Lakew, 2013. Soil test phosphorous calibration for malt barley production on Nitisols of Ethiopian highlands. Trop. Agric. 90: 177-187.
[3] Bekele, T., Ashagrie, A., Tulema, B., and G. Gebre Kidan, 1996. “Soil fertility management in Barley.” In Barley research in Ethiopia: past work and future prospects edited by H. Gebre, van J. Leur, 92-99. IAR/ICARDA, Addis Ababa, Ethiopia.
[4] CSA (Central Statistical Agency). 2016. Agricultural sample survey report on area and production of major crops: Private peasant holdings in meher season of 2015/2016 (Vol. I, No. 584). CSA, Addis Abeba, Ethiopia.
[5] CIMMYT (International Maize and Wheat Improvement Center). 1998. From agronomic data to farmer recommendations: An economic workbook. CIMMYT, Mexico.
[6] David, M. E. and J. T. David, 2012. Modeling an Improvement in phosphorous utilization in Tropical Agriculture. Journal of Sustainable Agriculture, 36: 18-35.
[7] Dejene Getahun, Dereje Girma, Abreham Feyisa, Ajema Lemma, and Lello Dejene. 2020. Verification of Soil Test Crop Response Based Phosphorus Recommendation on Bread Wheat (Triticum Aestivum L.) in Yaya Gulele District of North Shewa Zone, Oromia. International Journal of Applied Agricultural Sciences. Vol. 6, No. 3, pp. 52-56. doi: 10.11648/j.ijaas.20200603.14.
[8] EthioSIS (Ethiopian Soil Information System), 2015. http://www.ata.gov.et/highlighteddeliverables/ethiopiansoil-information-system-ethiosis/. Accessed 15 June 2020.
[9] FAO (Food and Agriculture Organization), 1990. www.fao.org/ag/AGP/AGPC /doc/counprof/ ethiopia/ethiopia.htm. Accessed 20 March, 2020.
[10] Frossard, E., Condron, L. M., Oberson, A., Sinaj, S., and Fardeau, J. C. 2000. Processes governing phosphorus availability in temperate soils. Journal of Environmental Quality 29: 15-23.
[11] Karltun, E., Mulugeta Lemenih and Motuma Tolera. 2013. Comparing Farmers' Perception of Soil Fertility Change with Soil Properties and Crop Performance in Beseku, Ethiopia. Land degradation and development, 24: 228-235.
[12] Regassa, H. and Agegnehu, G. 2011. “Potentials and limitations of acid soils in highlands of Ethiopia: A review.” In Barley research and development in Ethiopia edited by B. Mulatu and S. Grando, 103-112. ICARDA, Aleppo, Syria.
[13] Roy, R. N., Finck, A., Blair, G. J, and Tandon, H. 2006. Plant nutrition for food security. A guide for integrated nutrient management. FAO Fertilizer and Plant Nutrition Bulletin 16: 368.
[14] Scoones, I. and Toulmin, C., 1999. Policies for soil fertility management in Africa. Policies for soil fertility management in Africa.
[15] SAS (Statistical Analysis System) Institute. 2004. SAS/STAT user’s guide. Proprietary software version 9.00. SAS Institute, Inc., Cary, NC.
[16] Taffesse A. S, Dorosh. P, Asrat. S, 2011. Crop Production in Ethiopia: Regional Patterns and Trends. Development Strategy and Governance Division, International Food Policy Research Institute, Ethiopia Strategy Support Program II, Working Paper No. 0016.
[17] Tekalign T. 1991. Soil, plant, water, fertilizer, animal manure and compost analysis. Working Document No. 13. International Livestock Research Center for Africa, Addis Ababa.
[18] Zeleke, G., G. Agegnehu, D. Abera and S. Rashid, 2010. Fertilizer and soil fertility potential in Ethiopia: Constraints and opportunities for enhancing the system. Washington, DC: IFPRI.
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  • APA Style

    Temesgen Chimdessa, Chalsissa Takele. (2020). Verification of Soil Test Based Phosphorous Calibration Study for Bread Wheat (Triticum Aestivum L.) Production in Horo District, Oromia Regional State, Ethiopia. Advances in Biochemistry, 8(3), 52-56. https://doi.org/10.11648/j.ab.20200803.12

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    ACS Style

    Temesgen Chimdessa; Chalsissa Takele. Verification of Soil Test Based Phosphorous Calibration Study for Bread Wheat (Triticum Aestivum L.) Production in Horo District, Oromia Regional State, Ethiopia. Adv. Biochem. 2020, 8(3), 52-56. doi: 10.11648/j.ab.20200803.12

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    AMA Style

    Temesgen Chimdessa, Chalsissa Takele. Verification of Soil Test Based Phosphorous Calibration Study for Bread Wheat (Triticum Aestivum L.) Production in Horo District, Oromia Regional State, Ethiopia. Adv Biochem. 2020;8(3):52-56. doi: 10.11648/j.ab.20200803.12

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  • @article{10.11648/j.ab.20200803.12,
      author = {Temesgen Chimdessa and Chalsissa Takele},
      title = {Verification of Soil Test Based Phosphorous Calibration Study for Bread Wheat (Triticum Aestivum L.) Production in Horo District, Oromia Regional State, Ethiopia},
      journal = {Advances in Biochemistry},
      volume = {8},
      number = {3},
      pages = {52-56},
      doi = {10.11648/j.ab.20200803.12},
      url = {https://doi.org/10.11648/j.ab.20200803.12},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ab.20200803.12},
      abstract = {On-farm verification trial of soil test based crop response phosphorous calibration study for bread wheat production was conducted in 2019/20 main cropping season in the Horo District of the Horo Guduru Wollega Zone. The trial was initiated to verify phosphorus critical level and requirement factor for bread wheat production in Horo District. The treatments were the control (without phosphorus fertilizer), farmers practice (blanket recommendation) and soil test based recommended phosphorus fertilizer rate (RR). The trial was conducted on six farmers’ field across the district. Plot size was 10m * 10m. Soil data before planting and yield data were collected throughout the trial. Soil reaction pH (H2O) of all the sites ranged from 4.73 to 5.42 and available P ranges from 1.4 to 12.6ppm. Soil acidity of the experimental sites were amended with lime. Bread wheat grain and biomass yield (kg/ha) were high and significantly (p< 0.01) affected by different fertilizer rates used as treatments. The highest grain yield (2875 kg/ha) was resulted with soil test based phosphorus fertilizer rate recommendation. Economically optimum N (46 kg/ha), critical level phosphorus (10 ppm) and phosphorus requirement factor (11.03 kg/ha) for bread wheat production in the district were gained and recommended during the calibration study. It was significantly higher than the grain yield gained from the farmers’ practice (2119.4 kg/ha) and control/without phosphorus fertilizer (1647.2 kg/ha). Similarly, soil test based phosphorus fertilizer rate recommendation was economically optimum and feasible for bread wheat production in the district.},
     year = {2020}
    }
    

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  • TY  - JOUR
    T1  - Verification of Soil Test Based Phosphorous Calibration Study for Bread Wheat (Triticum Aestivum L.) Production in Horo District, Oromia Regional State, Ethiopia
    AU  - Temesgen Chimdessa
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    T2  - Advances in Biochemistry
    JF  - Advances in Biochemistry
    JO  - Advances in Biochemistry
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    EP  - 56
    PB  - Science Publishing Group
    SN  - 2329-0862
    UR  - https://doi.org/10.11648/j.ab.20200803.12
    AB  - On-farm verification trial of soil test based crop response phosphorous calibration study for bread wheat production was conducted in 2019/20 main cropping season in the Horo District of the Horo Guduru Wollega Zone. The trial was initiated to verify phosphorus critical level and requirement factor for bread wheat production in Horo District. The treatments were the control (without phosphorus fertilizer), farmers practice (blanket recommendation) and soil test based recommended phosphorus fertilizer rate (RR). The trial was conducted on six farmers’ field across the district. Plot size was 10m * 10m. Soil data before planting and yield data were collected throughout the trial. Soil reaction pH (H2O) of all the sites ranged from 4.73 to 5.42 and available P ranges from 1.4 to 12.6ppm. Soil acidity of the experimental sites were amended with lime. Bread wheat grain and biomass yield (kg/ha) were high and significantly (p< 0.01) affected by different fertilizer rates used as treatments. The highest grain yield (2875 kg/ha) was resulted with soil test based phosphorus fertilizer rate recommendation. Economically optimum N (46 kg/ha), critical level phosphorus (10 ppm) and phosphorus requirement factor (11.03 kg/ha) for bread wheat production in the district were gained and recommended during the calibration study. It was significantly higher than the grain yield gained from the farmers’ practice (2119.4 kg/ha) and control/without phosphorus fertilizer (1647.2 kg/ha). Similarly, soil test based phosphorus fertilizer rate recommendation was economically optimum and feasible for bread wheat production in the district.
    VL  - 8
    IS  - 3
    ER  - 

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Author Information
  • Oromia Agricultural Research Institute, Nekemte Soil Research Center, Oromia, Ethiopia

  • Oromia Agricultural Research Institute, Nekemte Soil Research Center, Oromia, Ethiopia

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