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Optimization of Productivity of Fodder Crops with Green Conveyor System in the Context of Climate Instability in the North Kazakhstan Region

Author

Listed:
  • Altyn Shayakhmetova

    (Agrotechnological Faculty, M. Kozybayev North Kazakhstan University, Petropavl 150000, Kazakhstan)

  • Aldiyar Bakirov

    (Agrotechnological Faculty, M. Kozybayev North Kazakhstan University, Petropavl 150000, Kazakhstan
    Technical Faculty, S. Seifullin Kazakh Agrotechnical Research University, Zhenis Avenue, 62, Astana 010000, Kazakhstan)

  • Inna Savenkova

    (Agrotechnological Faculty, M. Kozybayev North Kazakhstan University, Petropavl 150000, Kazakhstan)

  • Beybit Nasiyev

    (Institute of Agrotechnology, Zhangir Khan West Kazakhstan Agrarian-Technical University, Uralsk 090000, Kazakhstan)

  • Murat Akhmetov

    (Agrotechnological Faculty, M. Kozybayev North Kazakhstan University, Petropavl 150000, Kazakhstan)

  • Azamat Useinov

    (Agrotechnological Faculty, M. Kozybayev North Kazakhstan University, Petropavl 150000, Kazakhstan)

  • Akerke Temirbulatova

    (Agrotechnological Faculty, M. Kozybayev North Kazakhstan University, Petropavl 150000, Kazakhstan)

  • Nurbolat Zhanatalapov

    (Institute of Agrotechnology, Zhangir Khan West Kazakhstan Agrarian-Technical University, Uralsk 090000, Kazakhstan)

  • Askhat Bekkaliyev

    (Institute of Agrotechnology, Zhangir Khan West Kazakhstan Agrarian-Technical University, Uralsk 090000, Kazakhstan)

  • Fariza Mukanova

    (Agrotechnological Faculty, M. Kozybayev North Kazakhstan University, Petropavl 150000, Kazakhstan)

  • Mariya Auzhanova

    (Department of Agriculture and Bioresources, Kokshetau Shoqan Ualikhanov University, Abay Street, 76, Kokshetau 020000, Kazakhstan)

Abstract

One of the main challenges in modern animal husbandry in North Kazakhstan is ensuring an uninterrupted supply of sufficient fodder crops. This research, conducted from 2019 to 2023, aimed to develop strategies for cultivating environmentally sustainable fodder crops capable of providing a stable fodder crop base under the changing climatic conditions of the North Kazakhstan region. The studies included analysis of air temperature and precipitation data as well as monitoring of fodder grass mixtures within a green fodder conveyor system. Different sowing dates for fodder crops and mixtures were selected for the development of the conveyor system. The range of experimental variants included fodder crops and their mixtures from various botanical families. The experiment involved both perennial (alfalfa and festulolium ) and annual (corn, pea, sunflower, Sudan grass, oats, and rapeseed) crops. The highest green mass yields were achieved by the following variants: fodder crops of corn + pea—74.40 c/ha; mixtures of annual legume–grass crops in the pea + oats variant of the first sowing date—43.64 c/ha; Sudan grass + pea—45.72 c/ha; mixtures of perennial grasses in the second utilization term of alfalfa + festulolium —64.9 c/ha; and rapeseed sown at the first sowing date—46.61 c/ha. In terms of crude and digestible protein content, the best among the annual grass variants was the mixture of Sudan grass and pea (crude protein—33.59 g/kg, digestible protein—24.5 g/kg), and the best among the perennials was the variant of the first utilization term (crude protein—50.42 g/kg, digestible protein—38.2 g/kg). Regarding metabolizable energy content, the annual crop variant of corn + pea had a yield of 1.92 MJ/kg, and in the perennial variant, the mixture of alfalfa and festulolium in the first utilization term had a yield of 2.68 MJ/kg. Such an approach to creating green fodder conveyors can be crucial for developing effective strategies for adapting agriculture to climate change, including the selection of promising fodder crops and optimization of their placement. The results obtained can contribute to enhancing the productivity and sustainability of agricultural production in the North Kazakhstan region.

Suggested Citation

  • Altyn Shayakhmetova & Aldiyar Bakirov & Inna Savenkova & Beybit Nasiyev & Murat Akhmetov & Azamat Useinov & Akerke Temirbulatova & Nurbolat Zhanatalapov & Askhat Bekkaliyev & Fariza Mukanova & Mariya , 2024. "Optimization of Productivity of Fodder Crops with Green Conveyor System in the Context of Climate Instability in the North Kazakhstan Region," Sustainability, MDPI, vol. 16(20), pages 1-25, October.
    • Handle: RePEc:gam:jsusta:v:16:y:2024:i:20:p:9024-:d:1501585
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    References listed on IDEAS

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    1. Sunyad Sohail & Muhammad Ansar & Milan Skalicky & Allah Wasaya & Walid Soufan & Tauqeer Ahmad Yasir & Ahmed M. El-Shehawi & Marian Brestic & Mohammad Sohidul Islam & Muhammad Ali Raza & Ayman EL Sabag, 2021. "Influence of Tillage Systems and Cereals–Legume Mixture on Fodder Yield, Quality and Net Returns under Rainfed Conditions," Sustainability, MDPI, vol. 13(4), pages 1-13, February.
    2. Mingxi Pan & Fang Zhao & Jingyan Ma & Lijuan Zhang & Jinping Qu & Liling Xu & Yao Li, 2022. "Effect of Snow Cover on Spring Soil Moisture Content in Key Agricultural Areas of Northeast China," Sustainability, MDPI, vol. 14(3), pages 1-15, January.
    3. M. Yu. Ksenofontov & D. A. Polzikov, 2020. "On the Issue of the Impact of Climate Change on the Development of Russian Agriculture in the Long Term," Studies on Russian Economic Development, Springer, vol. 31(3), pages 304-311, May.
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