1. J.A. Marengo, Vulnerability, impacts and adaptation to climate change in the semi-arid region of Brazil, Parc. Estrat., 13 (2008) 149–176.
  2. N.S. Dias, R.B. Lira, R.F. Brito, O.N. Sousa Neto, M. Ferreira Neto, A.M. Oliveira, Melon yield in a hydroponic system with wastewater from desalination plant added in the nutrient solution, Rev. Bras. Eng. Agríc. Amb., 14 (2010) 755–761.
  3. G.H. Cavazzana, G. Lastoria, S.G. Gabas, C.M.P Bezerra, Analysis of aggressivity and encrustation of groundwater in the urban area of Campo Grande – MS, Águas Subt., 26 (2012) 83–97.
  4. T.M. Soares, I.J.O. Silva, S.N. Duarte, E.F.F. Silva, Disposal of wastewater from desalination process by reverse osmosis, Rev. Bras. Eng. Agríc. Amb., 10 (2006) 730–737.
  5. G.S. Monteiro, J.N. Silva, H.L.L. Lôbo, Simulation and analysis of desalination system via reverse osmosis: considerations for water quality analysis, Enc. Bios., 5 (2009) 1–12.
  6. M.T.M. Diniz, V.H.C. Pereira, Climatology of the state of Rio Grande do Norte, Brazil: active atmospheric systems and mapping of climate types, Bol. Goia. Geogr., 35 (2015) 488–506.
  7. A.B.C. Melo, I.F.A. Cavalcanti, P.P.Z. Souza, Atlantic Intertropical Convergence Zone, In: I.F.A. Cavalcanti, N.J. Ferreira, M.G.A.J. Silva, M.A.F.S. Dias, Eds. Weather and Climate in Brazil, São Paulo: Oficina de Textos, 2009, pp. 26–42.
  8. L.A. Richards, Diagnosis and Improvement of Saline and Alkali Soil, United States Salinity Laboratory Staff, Washington, 1954.
  9. M.C. Silveira, Hybrid System Evaluation for Desalination of Salt Water by the Reverse Osmosis Process, Campina Grande, 1999.
  10. G. Tchobanoglous, F.L. Burton, H.D. StenseL, Waste Water Engineering: Treatment and Reuse, Boston, 2003.
  11. J.M. Dantas, P.F. Santos Filho, Brazilian Society of Chemistry, São Paulo, 2006.
  12. American Public Health Association – APHA, Standard Methods for the Examination of Water and Wastewater, APHA, AWWA, WPCF, Washington, 2005.
  13. R.S. Ayers, D.W. Westcot, Water Quality of Agriculture, FAO Irrigation and Drainage, Rome, 1985.
  14. P.P. Pontes, A.R. Marques, G.F. Marques, Effect of land use and occupation in water quality in the micro-basin of Banguelo Creek – Contagem, Rev. Amb. Água, 7 (2012) 183–194.
  15. A.R.A. Piratoba, H.M.C. Ribeiro, G.P. Morales, W. Gonçalves, Characterization of water quality parameters in the port area of Barcarena, PA, Brazil, Rev. Amb. Água, 12 (2017) 435–456.
  16. A.M. Oliveira, N.S. Dias, J.J.R. Freitas, D.F.F. Martins, L.N. Rabelo, Physical-chemical assessment of the waters from desalinization process of salobros and salinos wells in rural communities of the west Potiguar, Águas Subt., 31 (2017) 58–73.
  17. R.P. Schneider, M.T. Tsutiya, Filter Membranes for the Treatment of Water, Sewage and Reuse Water, Brazilian Association of Sanitary and Environmental Engineering, São Paulo, 2001.
  18. Hydranautics, Technical Service Bulletin, Water Quality Index, Environmental Company of the State of São Paulo, 2007.
  19. L. Scapini, Evaluation of the Performance of Reverse Osmosis and Ion Exchange for Treatment of Tannery Effluent (Aimoré Couros Ltda - encatado) Aiming at the Reuse of Water, UNISC, Santa Cruz do Sul, 2007.
  20. M.C. Silveira, K.B. França, Evaluation of the performance of a reverse osmosis desalination system for brackish waters, Águas Subt. Supplement, (1998) 1–7.
  21. F.R.M. Queiroz, R.R.F. Silva, J.U.L. Bezarra, B.S. Guimarães, J.T. Fernandes Neto, K.B. Franças, Evaluation and comparison of the performance of a system of micro/nano filtration membranes with reverse osmosis system for different concentration levels of salty waters of the community of Uruçu in São João do Cariri-PB, Rev. Biol. Farm., 9 (2013) 1–7.