The Effects of Treated Wastewater Concentrations on Germination and Seedling Growth of Different Lentil Cultivars


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Authors

  • Murat KARAER Bilecik Şeyh Edebali University, Department of Biosystems Engineering, Faculty of Agriculture and Natural Sciences, Bilecik, Turkey
  • Yusuf Murat KARDES Bilecik Şeyh Edebali University Department of Field Crops, Faculty of Agriculture and Natural Sciences, Bilecik, Turkey
  • Özge Doganay ERBAS KOSE Bilecik Şeyh Edebali University, Department of Biosystems Engineering, Faculty of Agriculture and Natural Sciences, Bilecik, Turkey
  • Zeki MUT Bilecik Şeyh Edebali University, Department of Biosystems Engineering, Faculty of Agriculture and Natural Sciences, Bilecik, Turkey

DOI:

https://doi.org/10.46291/ISPECJASvol5iss4pp958-964

Keywords:

Lentil, Germination, Wastewater

Abstract

Global climate change and rapidly increasing world population has put pressure on fresh water resources and this pressure has pushed the agriculture sector to seek alternative water resources. At the forefront of these sources is treated wastewater. In this study, the effects of different concentrations of treated wastewater levels (Control, 25% treated wastewater, 50% treated wastewater, 75% treated wastewater, 100% treated wastewater), on germination and seedling growth on two different lentil cultivars (Ceren and Ankara yeşili) were investigated. The study was carried out under controlled conditions with 4 replications according to the randomized plot design at the factorial level. As a result of the study, statistically significant differences were observed between the varieties in terms of all characteristics and the best results were obtained from the 75% treated wastewater concentration. It was revealed that the level of treated wastewater increased the germination and seedling growth compared to the control subject.

References

Abdul-Baki, A.A., Anderson, J.D. 1973. Vigor determination in soybean seed by multiple criteria 1. Crop science, 13(6), 630-633.

AI-Rashed, M.F., Sherif, M.M. 2000. Water resources in the gcc countries: an overview. Water Resour. Mgt., 14(1): 59-73.

Akçin, A. 1988. Edible Grain Legumes. Selcuk University, Faculty of Agriculture Publications: 43: 377.

Al-Dulaimi, R.I., Ismail, N.B., Ibrahim, M.H. 2012. The effect of ındustrial wastewater in seed growth rate: a review. Int. J. Sci. Res. Pub. 2: 1-4.

Angelakis, A. N., Do Monte, M. M., Bontoux, L., Asano, T. 1999. the status of wastewater reuse practice in the mediterranean basin: need for guidelines. Water Research, 33 (10): 2201-2217.

Aydoğan, A., Aydın, N., Karagöz, A., Karagül, V., Horan, A., Gürbüz, A. 2003. iç anadolu ve kuzey geçit bölgelerindeki yeşil mercimek (lens culinaris medik.) genetik kaynaklarının toplanması, karakterizasyonu ve ön değerlendirmesi. Türkiye, 5: 13-17.

Babayan, M., Javaheri, M., Tavassoli, A., Esmaeilian, Y. 2012. effects of using wastewater in agricultural production. African Journal of Microbiology Research, 6(1): 1-9.

Baysal, A.S., Basoglu, S. 1988. Role of chickpeas and lentils in human nutrition. chickpeas and lentils symposium. January 14-15 1988, Turkish Grain Board Press, 17-23, Antalya, Turkey.

Chung, B.Y., Song, C.H., Park, B.J., Cho J.Y. 2011. Heavy metals in brown rice (Oryza sativa L.) and soil after long-term ırrigation of wastewater discharged from domestic sewage treatment plants. Pedosphere 21: 621-627.

Daifi, H., Alemad, A., Khadmaoui, A., El hadi, M., El kharrim, K. and Belghyti, D. 2015. effect of purified ındustrial wastewater on the growth of tomato plant (Lycopersicon esculentum). Int. J. Pure App. Biosci. 3 (4): 57-64.

Dash, A.K. 2012. Impact of domestic wastewater on seed germination and physiological parameters of rice and wheat. Int. J. Res. Rev. Appl. Sci.,12: 280-286.

Daud, M.K., Hassan, S., Azizullah, A., Jamil, M., Rehan, N., Irum, R., Qaiser, M.K., Zhu, S.J. 2016. physiological, biochemical, and genotoxic effects of wastewater on maize seedlings. Polish Journal of Environmental Studies, 25(2): 563-571.

Doğan, Y., Toğay, Y., Toğay, N. 2014. Mardin Kızıltepe koşullarında farklı ekim zamanlarının mercimek (Lens culinaris Medic.) çeşitlerinde verim ve verim öğelerine Etkisi. Tekirdağ Ziraat Fakültesi Dergisi, 11(2), 51-58.

Gassama, U.M., Puteh, A.B., Abd-Halim, M.R., Kargbo, B. 2015. ınfluence of municipal wastewater on rice seed germination, seedling performance, nutrient uptake, and fchlorophyll content. Journal of Crop Science and Biotechnology, 18(1): 9-19.

Çopur Doğrusöz, M., Gülümser, E., Başaran, U.,Hanife, M. (2021). Alkali stresinin farklı mürdümük geneotiplerinde (Lathyrus sativus L.) çimlenme gelişimine etkisi. ISPEC Journal of Agricultural Sciences, 5(2), 257-266.

Jalali, M., Merikhpour, H., Kaledhonkar, M. J., Van Der Zee, S. (2008). effects of wastewater ırrigation on soil sodicity and nutrient leaching in calcareous soils. agricultural water management, 95(2): 143-153.

Kardeş, Y. M., Karaer, M., Erbas Köse, Ö. D., Mut, Z. 2020. The effect of treated wastewater applications on germination and seedling growth in three different corn (Zea mays L.) cultivar. Bilecik Seyh Edebali University Journal of Science, 7(1), 113-120.

Kardeş, Y. M., Mut, Z., Gültaş, H.T., Erbas Köse, Ö.D., Karaer, M. 2019. Effect of treated wastewater on germınatıon and seedlıng growth of two different bean (Phaseolus vulgaris L.) cultivar. III. International Eurasian Agriculture and Natural Sciences Congress, 17-19 October, Antalya, Turkey.

Khan, M. A., Shaukat, S. S., Hany, O., Jabeen, S. 2010. Irrigation of sorghum crop with waste stabilization pond effluent: growth and yield responses. Pak. J. Bot, 42(3): 1665-1674.

Korukçu, A., Büyükcangaz, H. 2003. Su ve sulama yönetimine bütünsel yaklaşım. 2. Ulusal Sulama Kongresi. 16-19 Ekim, Kuşadası, İzmir.

Minitap (2020) Version 19. http://www.minitab.com/enus/products/minitab.

Munir, J., Rusan, M., Hinnawi, S., Rusan, L. 2007. long term effect of wastewater ırrigation of forage crops on soil and plant quality parameters. Desalination, 215: 143-152.

Özcan, S., Oluk, S. 2005. Effects of treated wastewaters on seed germinatıon and seedlıng growth to the some grass species. Kastamonu Eğitim Dergisi, 159.

Saravanamoorthy, M.D., Kumari, B.D.R. 2007. effect of textile wastewater on morphophysiology and yield on two varieties of peanut (Arachis hypogaea L.). J. Agric. Technol., 3: 335-343.

Singh, R., Kumar, S., Nangare, D.D., Meena, M.S. 2009. Drip ırrigation and black polyethylene mulch ınfluence on growth, yield and water-use efficiency of tomato. African Journal of Agricultural Research, 4(12): 1427-1430.

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Published

2021-12-12

How to Cite

Murat KARAER, Yusuf Murat KARDES, Özge Doganay ERBAS KOSE, & Zeki MUT. (2021). The Effects of Treated Wastewater Concentrations on Germination and Seedling Growth of Different Lentil Cultivars. ISPEC Journal of Agricultural Sciences, 5(4), 958–964. https://doi.org/10.46291/ISPECJASvol5iss4pp958-964

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