The Effect Of The Quality Of Irrigation Water, Organic Waste, And Tea Water Extract On The Readiness Of Potassium In The Soil And The Growth Of Barley Plants

Authors

  • Wafaa A. Ahmed College of Agriculture, University of Basrah, Iraq

DOI:

https://doi.org/10.51699/ijbea.v3i3.87

Keywords:

Irrigation Water, Organic Waste, Tea Water, Potassium, Barley Plants

Abstract

An agricultural experiment was conducted in the canopy of the Department of Soil Sciences and Water Resources College of Agriculture\University of Basrah during the 2023-2024 agricultural season, in which a mixed sandy soil from the Barjasia area was used, treated with organic waste as follows: tea waste 2% and 3%, peatmoss 2% and 3% The tea water extract was 1:1 at a level of 3%, and two types of irrigation water were used: Shatt al-Arab water and tap water. A completely randomized design with three replications was used. Barley seeds were planted with 10 seeds in each pot, and irrigation treatments were applied for both types of water (Shatt al-Arab and tap) to the limits of the field capacity of the soil. The plants were reduced to 6 per pot after germination. The results showed that the Shatt al-Arab water treatment was superior in the average fresh weight of barley plants, and the values reached 5.438 and 5.244 gm pot-1 and the dry weight 1.610 and 1.748 gm pot-1 for the first and second harvests, respectively. It also excelled in the average concentration of available potassium in the soil, and reached 703.400 mg kg-1, while the aqueous extract of tea treatment was superior in all the studied characteristics, and the values reached 6.375, 2.130, 6.720 and 2.240 gm pot-1 for the fresh and dry weight and for the two harvests, respectively.

References

Abdulkareem, M. A. and E. J. Mohammed. (2018). Effect of cattle manure compost on soil available nutrients and growth, yield and yield components of snake cucumber Cucumis melo var. flexuosus. AAB Bioflux J., Volume 10, Issue 1.

Abdulrasool, I.A., S. M. Al–Atab and W. A. Ahmad. (2013). Effect of saline irrigation water and Tea residue on some properties of sandy loam soil and growth of coen (Zea mays, L.). Diyala Agri. Sci. J.5(2):648-658

Aheer, G.M., A. Ali and M. Ahmad. (2008). Abiotic factors effect on population fluctuation of alate aphids in wheat. J.Agric. Res. 46(4): 367-371

Ahmed, A. A. , A. A. Turki , W. S. Hanoosh.(2024). Synthesis, Characterization of Some New Dimer Nitrone Derivatives from Dapsone, Their Use as Initiators for Polymerization. International Journal of Biological Engineering and Agriculture. vol 3(3):236-248.

Ahmed, W. A. (2007). Evaluation and test of the suitability of industrial waste water for irrigation. M.Sc. theses. agriculture college university of Basrah.

Ahmed, W. A. and S. M. Saleh. (2016) Effect of irrigation water and organic fertilizer on availability and content of Iron and Zanic in greacum Fabaceae Leguminosae planting in silty clay soil. Basrah J, Agric, Sci. 29(2): 642-653. DOI: https://doi.org/10.33762/bagrs.2016.130639

Aiad, M.A.; Amer, M.M.; Khalifa, T.H.H.; Shabana, M.; Zoghdan, M.G.; Shaker, E.M.; Eid, M.S.M.; Ammar, K.A.; Al-Dhumri, S.A.; Kheir, A. (2021) Combined application of compost, zeolite and a raised bed planting method alleviate salinity stress and improve cereal crop productivity in arid regions. Agronomy, 11, 2495 DOI: https://doi.org/10.3390/agronomy11122495

Al Azzawi, W., M. B. Gill , F. Fatehi , M. Zhou , T. Acuña , L. Shabala, M. Yu and S. Shabala .(2021) . Effects of Potassium Availability on Growth and Development of Barley Cultivars . Agronomy ,11, 2269. DOI: https://doi.org/10.3390/agronomy11112269

Al-Bayati A. H. I. and A. F. M. Al-Anizy. (2017). The study of tea waste addition's effect on some soil properties and wheat plant growth.Anbar J. of Ageic. Sci. 15(special issue):391-403.

Al-Faraiji, N. K. G. (2023). Effects of the Salinity of Shatt al-Arab Water on the Cultivated Areas in the District of Abu al-Khasib in the Agricultural Season (20212022). Journal of Basrah Studies. Issue 47:700-724.

Azab, E. Effect of water stress and biological fertilization on maize growth, chemical composition and productivity in calcareous soil. Am. J. Plant Physiol., 11, 1–11. DOI: https://doi.org/10.3923/ajpp.2016.1.11

Black, C. A.; D. D. Evans;L.L. white ; L. E. Ensminger and F. E. Clark .(1965). Method of soil analysis. Part 1, In Agronomy series (9). Am Soc. Agron.

Bowden, C.L.; Evanylo, G.K.; Zhang, X.; Ervin, E.H.; Seiler, J.R. Soil carbon and physiological responses of corn and soybean to organic amendments. Compost Sci. Util., 18, 162–173. DOI: https://doi.org/10.1080/1065657X.2010.10736952

EPA, (1992). Guidelines for water reuse. Manual. U. S. EPA and U. S. Agency for Int. Development. EPA/625/R-92/004, Cincinnati,OH .

Guo, L.; Wu, G.; Li, Y.; Li, C.; Liu, W.; Meng, J.; Liu, H.; Yu, X.; Jiang, G. Effects of cattle manure compost combined with chemical fertilizer on topsoil organic matter, bulk density and earthworm activity in a wheat–maize rotation system in Eastern China. Soil Tillage Res., 156, 140–147. DOI: https://doi.org/10.1016/j.still.2015.10.010

Khalifa, T.A, S. A. Mariey, Z. E. Gharib, I. A. Khatab and A. Alyamani. (2022). Effect of Organic Amendments and Nano-Zinc Foliar Application on Alleviation of Water Stress in Some Soil Properties and Water Productivity of Barley Yield. Agronomy ,12, 585. DOI: https://doi.org/10.3390/agronomy12030585

Page, A. L.; R. H. Miller and D. R. Kenncy .(1982) . Method of soil analysis. Part 2 Agronomy 9. DOI: https://doi.org/10.2134/agronmonogr9.2.2ed

Downloads

Published

2024-07-29

How to Cite

Wafaa A. Ahmed. (2024). The Effect Of The Quality Of Irrigation Water, Organic Waste, And Tea Water Extract On The Readiness Of Potassium In The Soil And The Growth Of Barley Plants. International Journal of Biological Engineering and Agriculture , 3(3), 438–447. https://doi.org/10.51699/ijbea.v3i3.87

Issue

Section

Articles

Similar Articles

1 2 3 > >> 

You may also start an advanced similarity search for this article.