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Biological Nitrogen Fixation of Cowpea in a No-Till Intercrop under Contrasting Rainfed Agro-Ecological Environments

Author

Listed:
  • Elizabeth Tlou Mogale

    (Department of Plant Production, Soil Science and Agricultural Engineering, University of Limpopo, Polokwane 0727, South Africa
    Risk and Vulnerability Science Centre (RSVC), University of Limpopo, Polokwane 0727, South Africa)

  • Kwabena Kingsley Ayisi

    (Department of Plant Production, Soil Science and Agricultural Engineering, University of Limpopo, Polokwane 0727, South Africa
    Risk and Vulnerability Science Centre (RSVC), University of Limpopo, Polokwane 0727, South Africa)

  • Lawrence Munjonji

    (Department of Plant Production, Soil Science and Agricultural Engineering, University of Limpopo, Polokwane 0727, South Africa
    Risk and Vulnerability Science Centre (RSVC), University of Limpopo, Polokwane 0727, South Africa)

  • Yehenew Getachew Kifle

    (Department of Math and Statistics, University of Maryland Baltimore County, Baltimore, MD 21250, USA)

Abstract

Nitrogen (N) availability under no-till intercropping systems has not been widely investigated in diverse agro-ecological regions in Limpopo Province. Two seasons of rainfed experiments were conducted during 2018/19 and 2020/21 in a 2 × 4 × 2 factorial design to measure the biological nitrogen fixation (BNF) ability of cowpea in an intercropping system with four grain sorghum cultivars at two test locations, Ofcolaco and Syferkuil, of Limpopo Province using the natural abundance technique. The cowpea nitrogen isotope composition (δ 15 N‰) ranged from 0.2 ‰ to 4‰ at Ofcolaco, whereas at Syferkuil, the range was 2 ‰ to 7 ‰. The N derived from air (Ndfa) was from 35% to 92% at Ofcolaco and 4% to 70% at Syferkuil during the two cropping seasons. The amount of N 2 fixed across locations and seasons ranged from 1 kg ha −1 to 71 kg ha −1 . In the intercropping system, cowpea fixed more N at higher densities compared with lower densities at the two experimental sites. Biomass was significantly correlated with N accumulated by cowpea (r 2 > 0.9) at all locations and across seasons. N accumulated in sole cultures was 30% more at Ofcolaco and 36% more at Syferkuil compared with binary cultures. Furthermore, the treatment combination, cowpea density, as well as cropping system, significantly affected N fixation and accumulation. For high productivity, cowpea intercrop with grain sorghum cultivar Enforcer is recommended, as both crops complemented each other when intercropped. The research should investigate further the root distribution and biomass production of sorghum and cowpea, as well as their impact on N intake.

Suggested Citation

  • Elizabeth Tlou Mogale & Kwabena Kingsley Ayisi & Lawrence Munjonji & Yehenew Getachew Kifle, 2023. "Biological Nitrogen Fixation of Cowpea in a No-Till Intercrop under Contrasting Rainfed Agro-Ecological Environments," Sustainability, MDPI, vol. 15(3), pages 1-15, January.
  • Handle: RePEc:gam:jsusta:v:15:y:2023:i:3:p:2244-:d:1046635
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    References listed on IDEAS

    as
    1. Tlou E. Mogale & Kingsley K. Ayisi & Lawrence Munjonji & Yehenew G. Kifle, 2022. "Yield Responses of Grain Sorghum and Cowpea in Binary and Sole Cultures under No-Tillage Conditions in Limpopo Province," Agriculture, MDPI, vol. 12(5), pages 1-18, May.
    2. K. M. Atikur Rahman & Dunfu Zhang, 2018. "Effects of Fertilizer Broadcasting on the Excessive Use of Inorganic Fertilizers and Environmental Sustainability," Sustainability, MDPI, vol. 10(3), pages 1-15, March.
    3. Lu Wu & Thomas H. Misselbrook & Liping Feng & Lianhai Wu, 2020. "Assessment of Nitrogen Uptake and Biological Nitrogen Fixation Responses of Soybean to Nitrogen Fertiliser with SPACSYS," Sustainability, MDPI, vol. 12(15), pages 1-17, July.
    4. Martin K. van Ittersum, 2016. "Crop Yields and Global Food Security. Will Yield Increase Continue to Feed the World?," European Review of Agricultural Economics, Oxford University Press and the European Agricultural and Applied Economics Publications Foundation, vol. 43(1), pages 191-192.
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