Application of hydrogel polymers and fertilizers for increasing winter wheat grain yield in conditions of rain-fed agriculture

https://doi.org/10.55214/25768484.v8i5.1633

Authors

  • Samvel Sahakyan Department of Amelioration of Research Centre of “Soils Science, Agrochemistry and Amelioration after Hrant Petrossyan”, branch of the Armenian National Agrarian University, 24 Admiral Isakov av., Yerevan 0004, Faculty of Urban Economy and Ecology, National University of Architecture and Construction of Armenia, 105 Teryan Street, Yerevan 0009, Republic of Armenia.
  • Gayane Avagyan Faculty of Agronomy, Armenian National Agrarian University, 74 Teryan Street, Yerevan 0009, Republic of Armenia
  • Tatevik Yedoyan Faculty of Management and Technology, National University of Architecture and Construction of Armenia, 105 Teryan Street, Yerevan 0009, Republic of Armenia
  • Sevak Daveyan Department of Amelioration of Research Centre of “Soils Science, Agrochemistry and Amelioration after Hrant Petrossyan”, branch of the Armenian National Agrarian University, 24 Admiral Isakov av., Yerevan 0004, Republic of Armenia
  • Arevik Eloyan Department of Amelioration of Research Centre of “Soils Science, Agrochemistry and Amelioration after Hrant Petrossyan”, branch of the Armenian National Agrarian University, 24 Admiral Isakov av., Yerevan 0004, Republic of Armenia

This study aims to address the critical issue of water scarcity, which is being intensified by climate change and presents significant challenges to rain-fed agriculture, especially in arid regions. The research focuses on enhancing winter wheat grain yield productivity under rain-fed conditions through the utilization of locally produced, environmentally friendly hydrogel polymers. The methodology involved a field experiment conducted in the Spitak community, Armenia, from 2022 to 2023, covering an area of 630 m². Along with control groups, the study had 21 experimental treatments that used Aquasource and Van polymers in different ways, with and without nitrogen, phosphorus, and potassium (NPK) fertilizer. The findings indicated that the application of Aquasource and Van polymers at doses of 50-100 kg ha⁻¹ and 750-1000 kg ha⁻¹, respectively, without fertilizers significantly increased soil moisture absorption during the tillering and heading stages by 11.5-12.5% and 5.5-7.5%, compared to the controls. On the other hand, using these polymers with NPK fertilizer (N50P50K50 and N100P100K100) together made it harder for plants to absorb water, especially when more polymers were used. Soil moisture levels had a substantial impact on winter wheat grain yield metrics during these growth stages, demonstrating a strong correlation (R = 0.71-0.91). Enhanced moisture absorption resulting from polymer application led to a 22-24% increase in winter wheat grain yield. The practical implications of this study lie in its identification of key factors that influence winter wheat yield in rain-fed agriculture, particularly regarding locally sourced polymer dosage and application methods, both independently and in conjunction with fertilizers.

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How to Cite

Sahakyan, S. ., Avagyan, G. ., Yedoyan, T. ., Daveyan, S. ., & Eloyan, A. . (2024). Application of hydrogel polymers and fertilizers for increasing winter wheat grain yield in conditions of rain-fed agriculture. Edelweiss Applied Science and Technology, 8(5), 88–102. https://doi.org/10.55214/25768484.v8i5.1633
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Issue

Vol. 8 No. 5 (2024)

Section

Articles

Published

2024-09-11

Keywords

Fertilizer, Polymer dosages, Soil improvement, Tillering and heading stages, Water holding capacity, Winter wheat.
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