Effect of Vinasse Application on Germination and Absorption of Some Macro Elements by Barley (Hordeum vulgare)
Subject Areas : Journal of Crop Nutrition ScienceRamila Bezian 1 , Kamran Mohsenifar 2 , Ali Gholami 3
1 - MSc. Graduated, Department of Soil Science, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
2 - Department of Soil Science, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran
3 - Department of Agriculture, Shahinshahr Branch, Islamic Azad University, Shahinshahr, Iran.
Keywords:
Abstract :
Alinejadian Bidabadi, A., T. Jamili. and A. Maleki. 2021. Effect of Sugarcane vinasse on nutrient content and growth characteristics and yield of Basil (Ocimum basilicum L.). J. Vegetables Sci. 4(2): 1-14.
Amin, A. E.-E. A. Z. 2018. Amelioration of calcareous sandy soil productivity via incorporation between biochar and some organic manures. Arabian J. GeoSci. 11(23): 759.
Chen, L., M. Liu, A. Ali, Q. Zhou, S. Zhan, Y. Chen, X. Pan. and Y. Zeng. 2020. Effects of biochar on paddy soil fertility under different water management modes. J. Soil Sci. Plant Nutr. 20(4): 1810-1818.
Christofoletti, C. A., J. P. Escher, J. E. Correia, J. F. U. Marinho. and C. S. Fontanetti. 2013. Sugarcane vinasse: Environmental implications of its use. Waste Management. 33(12): 2752-2761.
Elgharbawy, A. 2021. A review on vinasse A by-product from sugarcane industry. Trends Petro Eng. 1(2): 1-3.
Fakhari, R., A. Tobeh. and A. Babaie. 2013. Investigating the relationship between electrical conductivity and germination in different cultivars of wheat seeds. The 13th Conf. Agri. Sci. Plant Breed. Iran and the 3rd Conf. Iranian Seed Sci. Tech. Iran.
Gee, G. W. and J. W. Bauder. 1986. Methods of soil analysis: Part I-Physical and Mineralogical Methods. Soil Sci. Soc. Am. American Soc. Agron.
JafariNaini, S. Z., A. Jafarnejadi, K. Mohsenifar, T. Babaeinejad. and A. Gholami. 2022. Application of vinasse and humic acid on soil potassium availability and Sugarcane yield in conditions of deficiency of macro-elements. Iranian J. Soil and Water Res. 53(3): 447-458.
Marcińczyk, M., Y. S. Ok. and P. Oleszczuk. 2022. From waste to fertilizer: Nutrient recovery from wastewater by pristine and engineered biochars. Chemosphere. 306: 135310.
Meyer, S., D. Fischer, A. Meyer, E. Karltun. and M. P. Silvén. 2022. Biochar-fertilizer blends-A valuable soil amendment for asparagus cultivation? J. Soil Sci. Plant Nutrition. 22(1): 691-705.
Pasqualin, L. A., J. A. Dionísio, M. A. C. Zawadneak. and C. T. Marçal. 2012. Edaphic macrofauna in sugar cane crops and forest in northwestern Paraná-Brazil. Semina: Ciências Agrárias. 33(1): 7-18.
Pinto, L. E., C. F. D. S. Cordeiro, A. S. De Araujo. and F. F. D. Araujo. 2022. Vinasse improves soil quality and increases the yields of soybean, maize, and pasture. Revista Brasileira de Engenharia Agrícola e Ambiental. 26: 335-340.
Premi, P. R. and A. H. Cornfield. 1969. Incubation study of nitrification of digested sewage sludge added to soil. Soil Biol. BioChem. 1(1): 1-4.
Regional Salinity, L. 1954. Diagnosis and improvement of saline and alkali soils. U.S. Dept. Agriculture.
Sadeghi, S. H., Z. Hazbavi. and M. K. Harchegani. 2016. Controllability of runoff and soil loss from small plots treated by vinasse-produced biochar. Sci. The Total Environment. 541: 483-490.
Sanchez-Lizarraga, A. L., V. Arenas-Montaño, E. N. Marino-Marmolejo, L. Dendooven, J. B. Velazquez-Fernandez, G. Davila-Vazquez, J. Rodriguez-Campos, L. Hernández-Cuevas. and S. M. Contreras-Ramos. 2018. Vinasse irrigation: effects on soil fertility and arbuscular mycorrhizal fungi population. J. Soils and Sediments. 18(11): 3256-3270.
Sheldon, A. R., R. C. Dalal, G. Kirchhof, P. M. Kopittke. and N. W. Menzies. 2017. The effect of salinity on plant-available water. Plant and Soil. 418(1): 477-491.
Sumner, M. E. and W. P. Miller. 1996. Cation exchange capacity and exchange coefficients. In: Methods of Soil Analysis (pp. 1201-1229).
