[ANONYMOUS. 2019a. Water and agriculture. [online], cit. [2019-08-10]. Available at: https://blogs.worldbank.org/opendata/chart-globally-70-freshwater-used-agriculture]Search in Google Scholar
[ANONYMOUS. 2019b. [online], cit. [2019-08-10]. Available at: oxfarmorganic.com]Search in Google Scholar
[ANONYMOUS. 2019c. [online], cit. [2019-08-10]. Available at: greenmylife.in]Search in Google Scholar
[BARUA, S. – KUMAR, R. – SINGH, S.P. 2018. Water saving techniques in agriculture. [online], cit. [2019-03-19]. Available at: https://www.indiawaterportal.org/articles]Search in Google Scholar
[BAR-YOSEF, B. 1999. Advances in fertigation. In Adv. Agron, 199, no. 65, pp. 1–77.10.1016/S0065-2113(08)60910-4]Search in Google Scholar
[BURT, M.C. 1998. Fertigation Basics. Irrigation Training and Research Center (ITRC), ITRC Paper 98-001. San Luis Obispo, CA, USA : California Polytechnic University, 1998.]Search in Google Scholar
[ÇETIN, Ö. – ÜZEN, N. – TEMIZ, M.G. – BAŞBAG, S. 2018. Comparison of surface and sub-surface drip irrigation and real-time irrigation scheduling based on FAO-56-Penman-Monteith for cotton. Final Project Report, Project No: TUBITAK 115O600, Ankara, Turkey (with an English abstract in Turkish).]Search in Google Scholar
[ÇETIN, O. – UYGAN, D. 2008. The effect of drip line spacing, irrigation regimes and planting geometries of tomato on yield, irrigation water use efficiency and net return. In Agric. Wate. Manage., vol. 95, 2008, no. 8, pp. 949–958.10.1016/j.agwat.2008.03.002]Search in Google Scholar
[ÇETIN, O. – BILGEL, L. 2002. Effects of different irrigation methods on shedding and yield of cotton. In Agric. Wate. Manage, vol. 54, 2002, no. 1, pp. 1–15.10.1016/S0378-3774(01)00138-X]Search in Google Scholar
[CHARTZOULAKIS, K. – BERTAKI, M. 2015. Sustainable water management in agriculture under climate change. In Agriculture and Agricultural Science Procedia, 2015, no. 4, pp. 88–98.10.1016/j.aaspro.2015.03.011]Search in Google Scholar
[HAGIN, J. – SNEH, M. – LOWENGART-AYCICEGI, A. 2003. Fertigation, Fertilization through Irrigation. International Potash Instituıte, IPI Research Topics, Basel, Switzerland, 2003, no. 23.]Search in Google Scholar
[KAFKAFI, U. – TARCHITSKY, J. 2011. Fertigation. A tool for efficient fertilizer and water management. Intl. Fert. Ind. Assn., Paris, France and Intl. Horgen, Switzerland : Potash Inst. 2011.]Search in Google Scholar
[KHOKHAR, T. 2017. Globally, 70% of freshwater is used for agriculture. Available at: https://blogs.worldbank.org/opendata/chart-globally-70-freshwater-used-agriculture]Search in Google Scholar
[MANOR, S. – LOWENGART, A. – BRUM, M. – HAZAN, A. – BAR, I. – GEVA, S. 1983. The technology of chemigation: Uniformity of Distribution in the Irrigation. In 3rd International Conference on Irrigation, Tel-Aviv, Israel, 3–6 October, 1983.]Search in Google Scholar
[OECD. 2010. Sustainable Management of Water Resources in Agriculture. ISBN 978-92-64-08345-5 (print). DOI 10.1787/9789264083578-en10.1787/9789264083578-en]Open DOISearch in Google Scholar
[POSTEL, S. – POLAK, P. – GONZALES, F. – KELLER J. 2001. Drip irrigation for small farmers. A new initiative to alleviate hunger and poverty. In Water Intern., vol. 26, 2001, no. 1, pp. 3–13.10.1080/02508060108686882]Search in Google Scholar
[SCHWANKL, L. – HANSON, B. – PRICHARD, T. 1998. Micro-irrigation of trees and vines: A handbook for water managers. Publ. 3378. Oakland, CA : Div. Agr. Natural Resources, Univ. Calif., 1998.]Search in Google Scholar
[SHAH, S.K. 2011. Towards Adopting Nanotechnology in Irrigation. Micro Irrigation Systems. Karnataka, India : India Water Portal, 2011.]Search in Google Scholar
[STEIN, L.A. 2019. Drip irrigation: Salvation for the gardener. Texas AgriLife Extension Service. Texas, USA : Texas A & M University, College Station, 2019.]Search in Google Scholar
[ÜZEN, N. – ÇETIN, Ö. – KARAER, M. 2013. Micro Irrigation for Modern Agriculture. 1st Central Asia Congress on Modern Agricultural Techniques and Plant Nutrition, Bishkek, Kyrgyzstan, 01–03 October, 2013, pp. 2131–2138.]Search in Google Scholar
[ÜZEN, N. – ÇETIN, Ö. 2016. Effects of nitrogen fertigation frequency on yield and nitrogen retention in drip-irrigated cotton. In Journal of Plant Nutrition, vol. 39, 2016, no. 14, pp. 2126–2135.10.1080/01904167.2016.1193612]Search in Google Scholar
[WALLACE, J.S. 2000. Increasing agricultural water use efficiency to meet future food production. In Agriculture, Ecosystems and Environment, 2000, no. 82, pp. 105–119.10.1016/S0167-8809(00)00220-6]Search in Google Scholar
[YAN, X.L. – DAI, T.F. – JIA, L.M. 2018. Evaluation of the cumulative effect of drip irrigation and fertigation on productivity in a poplar plantation. In Annals of Forest Science, 2018, no. 75, p. 5.10.1007/s13595-017-0682-6]Search in Google Scholar
[YOLCU, R. – ÇETIN, Ö. 2015. Nitrogen fertigation to improve nitrogen use efficiency and crude protein on silage corn. In Turk J Field Crops, vol. 20, 2015, no. 2, pp. 233–241.10.17557/tjfc.58656]Search in Google Scholar