References

  1. M. Saleh, M. Yalvaç, F. Sime, Rainfall-Runoff Model for Mersin University Campus, Mersin, 4th International Water Congress, İzmir, Turkey, 2017.
  2. M. Saleh, M. Yalvac, M.A. Mazmanci, Characterization of solid waste in Mersin University – main campus and development of solid waste management plan, Fresenius Environ. Bull., 29 (2020) 6386–6392.
  3. B. Wijesiri, A. Liu, A. Goonetilleke, Impact of global warming on urban stormwater quality: from the perspective of an alternative water resource, J. Cleaner Prod., 262 (2020) 121330.
  4. A.R. Hasan, A. Alimari, H.A. Jafar, A.I.A. Hussein, A.A. Abu Shaban, The Effect of Temperature and Rainfall Changes on Biophysical and Socio-Economic Status of People in Northern Jordan Valley Drylands, Palestine, X. Poshiwa, G. Ravindra Chary, Eds., Climate Change Adaptations in Dryland Agriculture in Semi-Arid Areas, Springer, Singapore, 2022. Available at doi:10.1007/978-981-16-7861-5_4
  5. J. Isaac, W. Sabbah, The Intensifying Water Crisis in Palestine, Applied Research Institute – Jerusalem (ARIJ), Palestine, 2015.
  6. M. Fakhrul, Z. Karim, World’s Demand for Food and Water: The Consequences of Climate Change, IntechOpen, 2019, pp. 1–27.
  7. M.O. Agriculture, Sectoral Strategy for Agriculture (Arabic Version). Available at: https://www.moa.pna.ps/uploads/ STRATEGIES/16326559770.pdf (Accessed 30.5.2022).
  8. A. AlShrouf, Hydroponics, aeroponic and aquaponic as compared with conventional farming, Am. Sci. Res. J. Eng. Technol. Sci., 27 (2017) 2313–4402.
  9. FAO, Water for Sustainable Food and Agriculture, Food and Agriculture Organization of the United Nations, Rome, 2017.
  10. M. Medina, K. Jayachandran, M.G. Bhat, A. Deoraj, Assessing Plant Growth, Water Quality and Economic Effects From Application of a Plant-Based Aquafeed in a Recirculating Aquaponic System, Springer International Publishing, Switzerland, 2015.
  11. C. Kaiser, M. Ernst, Hydroponic Lettuce, University of Kentucky, College of Agriculture, Food, and Environment, Center for Crop Diversification Crop Profile, USA, 2016.
  12. B. Mou, Handbook of Plant Breeding, Springer, New York, 2008.
  13. A. French, E. Roth, Soilless Agriculture: An In-Depth Overview, 12 March 2019. Available at: https://www.agritecture.com/blog/2019/3/7/soilless-agriculture-an-in-depth-overview
  14. G.L. Barbosa, F.D.A. Gadelha, N. Kublik, A. Proctor, L. Reichelm, E. Weissinger, G.M. Wohlleb, R.U. Halden, Comparison of land, water, and energy requirements of lettuce grown using hydroponic vs. conventional agricultural methods, Int. J. Environ. Res. Public Health, 12 (2015) 6879–6891.
  15. F. Valentinuzzi, Y. Pii, G. Vigani, M. Lehmann, S. Cesco, T. Mimmo, Phosphorus and iron deficiencies induce a metabolic reprogramming and affect the exudation traits of the woody plant Fragariaxananassa, J. Exp. Bot., 66 (2015) 6483–6495.
  16. H. Johnson, Soilless Culture of Greenhousse Vegetables, UC Davis, Vegetable Research and Information Center, California, 2016.
  17. RDI. LLC, Plant-Responsive Water Delivery System, 2020. Available at: https://www.responsivedrip.com/
  18. G. Estefan, R. Sommer, J. Ryan, Methods of Soil, Plant, and Water Analysis: A Manual for the West Asia and North Africa Region, Beirut, Lebanon: International Center for Agricultural Research in the Dry Areas (ICARDA), 2013.
  19. G.N. Al-Karaki, M. Al-Hashimi, Green fodder production and water use efficiency of some forage crops under hydroponic conditions, Int. Schol. Res. Network Agron., 2012 (2012) 924672.
  20. N. Michelon, G. Pennisi, N. Ohn Myint, F. Orsini, G. Gianquinto, Strategies for improved water use efficiency (WUE) of fieldgrown lettuce (Lactuca sativa L.) under a semi-arid climate, Agronomy, 10 (2020) 668.
  21. R.A. Jordan, E.F. Ribeiro, F.C. de Oliveira, L.O. Geisenhoff, E.A.S. Martins, Yield of lettuce grown in hydroponic and aquaponic systems using different substrates, R. Bras. Eng. Agríc. Ambiental, 22 (2015) 525–529.
  22. C.I.M. Martins, E.H. Eding, M.C.J. Verdegem, L.T.N. Heinsbroek, O. Schneider, J.P. Blancheton, E.R. D’Orbcastel, J.A.J. Verreth, New developments in recirculating aquaculture systems in Europe: a perspective on environmental sustainability, Aquacult. Eng., 43 (2010) 83–93.
  23. L. Casey, B. Freeman, K. Francis, G. Brychkova, P. McKeown, C. Spillane, A. Bezrukov, M. Zaworotko, D. Styles, Comparative environmental footprints of lettuce supplied by hydroponic controlled-environment agriculture and field-based supply chains, J. Cleaner Prod., 369 (2022) 133214.
  24. B.V. Raij, H. Cantarella, J.A. Quaggio, A.M.C. Furlani, Recomendações de adubação e calagem para o estado de São Paulo, 2.ed. Campinas: IAC, 1996, 279.
  25. T.B.F. Almeida, R.D.M. Prado, M.A.R. Correia, A.P. Puga, J.C. Barbosa, Avaliação nutricional da alface cultivada em soluções nutritivas suprimidas de macronutrients, Biotemas, 24 (2011) 27–36.
  26. R.A. Bahn, A.A.K. Yehya, R. Zurayk, Digitalization for sustainable agri-food systems: potential, status, and risks for the MENA region, Sustainability, 13 (2021) 3223.
  27. S. Yadav, A. Kaushik, M. Sharma, S. Sharma, Disruptive technologies in smart farming: an expanded view with sentiment analysis, Agri Eng., 4 (2022) 424–460.