The effect of Deficit Irrigation and Biochar on Morphological characteristics of coriander in a fine-grained soil

Document Type : Research Paper

Authors

Irrigation and Drainage Group, Water Engineering Department, Urmia University, Urmia, Iran.

10.22059/jwim.2024.371077.1136

Abstract

Biochar as a soil amendment improves soil physical and chemical properties. Drought stress is one of the most important factors that limit plants growth. In order to study the effect of biochar on growth and morphological characteristics of coriander in a fine-grained soil under water stress, one factorial experiment in Randomized Complete was carried out in the research greenhouse of Urmia University, Iran. Experimental treatments included three levels of deficit-irrigation 100, 75 and 50 percent of water requirement of coriander (a1, a2 and a3) and three levels of application of biochar 0, 2.5 and 5 percent by weight percentage of each pot (b1, b2 and b3). The results of analysis of variance and comparison of the mean of measured traits (fresh and dry weight of plant, leaves, stems and roots) showed that these traits were significantly different under the influence of different levels of irrigation and biochar application. So that the highest value of each of these traits was observed in the treatment of complete irrigation and application of 2.5 percent by weight of biochar (a1b2) and the lowest value was observed in the irrigation treatment of 50 percent of water requirement and without biochar (a3b1). The highest water productivity based on fresh (3.26 kg/m3) and dry (0.49 kg/m3) of the coriander was obtained from a2b2 treatment. So, it can be concluded that the application of the appropriate amount of biochar reduces the negative effects of moisture stress and improves plant growth and development indicators compared to the control treatment. Therefore, it is recommended to use it for the plant in conditions where the plant is under drought stress or in greenhouses in order to reduce the amount of water consumed and improve the growth and performance of the plant.

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References

  1. Afaf, A., ALosaimi, J., Alharby, H., & Alayafi, A. (2023). The Importance of Initial Application of Biochar On Soil Fertility to Improve Growth and Productivity of Tomato Plants (Solanum lycopersicum) Under Drought Stress. Gesunde pflanzen.
  2. Arab Bafrani, Z., Ghaneei-Bafghi, M.G., & Shirmardi, M. (2020). Effect of wood residues of pistachio biochar on Growth Characteristics of Safflower. Journal of Soil Management and Sustainable Production, 10(3), 2020.(In Persian with English abstract).
  3. Azeem, M., Hayat, R., Hussain, Q., Ahmed, M., Imran, M., & Crowley, D. (2016). Effect of biochar amendment on soil microbial biomass, abundance, and enzyme activity in the mash bean field. Journal of Biodiversity and Environmental Sciences, 8, 1-13.
  4. Aghayari, F., Khalili, F., & Ardakani, M.R. (2016). Effect of different irrigation methods and superabsorbent polymer on yield and water productivity of corn. Journal of Plant EcoPhysiology, 8(24), 35-48. .(In Persian with English abstract).
  5. Biria, M., Moezzi, A., & Ameri Khah, H. (2016). Effect of Sugarcane bagasse biochar on maize plant growth, grown in lead and cadmium contaminated soils. Journal of Water and Soil, 31(2), 609-626. (In Persian with English abstract).
  6. Beesley, L., Moreno-Jiménez, E., Gomez-Eyles, J.L., Harris, E., Robinson, B., & Sizmur, T. (2015). A review of biochars’ potential role in the remediation, revegetation and restoration of contaminated soils. Environmental pollution, 159(12), 3269-3282.
  7. Bastami, A., Majidian, M., Mohsenabadi, G.R., & Bakhshi, D. (2015). Effects of fertilizer treatments on yield quantity and quality of coriander. Journal of Crop Improvement, 17(1), 93-107. (In Persian)
  8. Chan, K.Y., Van Zwieten, L., Meszaros, I., Downie, A., & Joseph, S. (2018). Using poultry litter biochars as soil amendments. Soil Research, 46(5), 437-444.
  9. Fakhri, K., Sayfzadeh, S., Sarajooghi, M., Valad Abadi, S.A., & Hadidi Masouleh, I. (2022). Fesibility Study on Increasing Water Use Efficiecy in (Thymus vulgaris) in Different Planting Pattern and Partial with Using Biochar. Journal of Plant EcoPhysiology, 17(2), 169-186. (In Persian with English abstract).
  10. Fakhrabadi, H., & Khoshsimaie Chenar, M. (2021). The Effect of Deficit Irrigation and Biochar on Quantitative and Qualitative Characteristics of Basil. Iranian Journal of Irrigation and Drainage,15(4), 941-954. (In Persian with English abstract)
  11. Faloye, O. T., Alatise, M. O., Ajayi, A. E., & Ewulo, B. S. (2019). Effects of biochar and inorganic fertiliser applications on growth, yield and water use efficiency of maize under deficit irrigation. Agricultural Water Management, 217, 165-178.
  12. Feizizadeh, B., Abdali, H., Rezaei Banfsheh, M., & Mohammadi, G.H. (2012). Zoning of susceptible area to rainfed wheat in the Eastern Azerbaijan province by Geospatial analysis of GIS. Agronomy Journal (Pajouhesh & Sazandegi), 96, 75-91. (In Persian with English abstract).
  13. Gamareldawla, H.D., Agbnaa, B., She Donglia, Liu Zhipengc, Nazar A. Elshikh, shao Guanghenga, Luis Carlos Timm. (2017). Effect of irragation and biochar on the growth, yeild and quality of tomato. 245, 667-675.
  14. Hannachi, S., Signore, A., & Mechi, L. (2023). Alleviation of Associated Drought and Salinity Stress’ Detrimental Impacts on an Eggplant Cultivar (‘Bonica F1’) by Adding Biochar. Plants 2023, 12, 1399.
  15. Keller, L., Idowu, O., Ulery, A., Omer, M., & Brewer, C. (2023). Short-Term Biochar Impacts on Crop Performance and Soil Quality in Arid Sandy Loam Soil. Agriculture, 13, 782.
  16. Karamian, M., & Kiamanesh, P. (2014). Introduction of medicinal plants Coriandrum sativum L and Anethum graveolend L from Umbelliferae. (In Persian)
  17. Mir, E., Piri, H., & Naserin, A. (2021). Effects of Different Levels of Wheat Biochar and Water Stress on Quantitative and Qualitative Characteristics of Carla (Bitter Melon) in Potted Conditions. 12/ Journal of Water Research in Agriculture (Soil and Water Sci.), 35(2). (In Persian with English abstract)
  18. Miri, F., Zamani, J., & Zarebanadkouki, M. (2020). The Effect of Different Levels of Pistachio Harvesting Wastes Biochar on Growth and Water Productivity of Maize (Zea mays). Iranian Journal of soil and water research, 52(1), 227-236. (In Persian with English abstract)
  19. Nikbakht, J., Parvizi, A., & Barzegar, T. (2022). Effect of Biochar Application on Lettuce Yield and Water Productivity in Deficit Irrigation Conditions. Journal of Water and Irrigation Management, 12(4), 859-871. (In Persian with English abstract)
  20. Obadi, A., Alharbi, A., Alomran, A., Alghamdi, A., Louki, I., & Alkhasha, A. (2023). Effect of Biochar Application on Morpho-physiological traits, Yield, and Water Use Efficiency of Tomato Crop under Water Quality and Deficit. Plants, 12(12), 2355.
  21. Omid Beigi, R. (1997).(ed.). Approaches to the production and processing of medicinal plants. Volume 2, Designers Publications. 349 p.
  22. Rahimy, A. (2016). The Adsorption kinetics of some pollutant elements by biochar of rice husk and russian olive leave. M.Sc. Thesis in Soil Chemistry and Fertility. Shahrood University of Technoligy.
  23. Tanure, M.M.C., da Costa, L.M., Huiz, H.A., Fernandes, R.B.A., Cecon, P.R., Junior, J.D.P., & da Luz, J.M.R. (2019). Soil water retention, physiological characteristics, and growth of maize plants in response to biochar application to soil. Soil and Tillage Research, 192, 164-173.
  24. Uzoma, K., Inoue, M., Andry, H., Fujimaki, H., Zahoor, A., & Nishihara, E. (2011). Effect of cow manure biochar on maize productivity under sandy soil condition. Soil Use Manage, 27, 205-212.
  25. Wang, L., Yu, B., Ji, J., Khan, I., Li, G., Rehman, A., Liu, D., & Li, S. (2023). Assessing the impact of biochar and nitrogen application on yield, water-nitrogen use efficiency and quality of intercropped maize and soybean. Frontiers in plant scienc, 14, 1171547. 
Water and Irrigation Management
Volume 14, Issue 3
December 2024
Pages 777-788

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