References

  1. F.H. Everest, R.L. Beschta, J.C. Scrivener, K.V. Koski, J. Sedell, C. Cederholm, Fine Sediment and Salmonid Production: A Paradox, Streamside Management: Forestry and Fishery Interactions, Washington, USA, 1987.
  2. R.J. Davies-Colley, D.G. Smith, Turbidity, suspended sediment, and water clarity: a review, J. Am. Water Resour. Assoc., 37 (2001) 1085–1101.
  3. D. Doxaran, J.-M. Froidefond, S. Lavender, P. Castaing, Spectral signature of highly turbid waters: application with SPOT data to quantify suspended particulate matter concentrations, Remote Sens. Environ., 81 (2002) 149–161.
  4. J. Mueller, A. Morel, R. Frouin, C. Davis, R. Arnone, K. Carder, Z. Lee, R. Steward, S. Hooker, C. Mobley, Ocean Optics Protocols for Satellite Ocean Color Sensor Validation, Revision 4, Volume III: Radiometric Measurements and Data Analysis Protocols, NASA, 2003.
  5. D.C. Pierson, H. Markensten, N. Strömbeck, Long and short term variations in suspended particulate material: the influence on light available to the phytoplankton community, Hydrobiologia, 494 (2003) 299–304.
  6. M.H. Pinkerton, K.M. Richardson, P.W. Boyd, M.P. Gall, J. Zeldis, M.D. Oliver, R.J. Murphy, Intercomparison of ocean colour band-ratio algorithms for chlorophyll concentration in the Subtropical Front east of New Zealand, Remote Sens. Environ., 97 (2005) 382–402.
  7. F.R. Lamm, J.E. Ayars, F.S. Nakayama, Microirrigation for Crop Production. Design, Operation, and Management, 1st ed., Elsevier Science, Amsterdam, 2006, pp. 389–430.
  8. A.C. Teodoro, F. Veloso-Gomes, H. Gonçalves, Statistical techniques for correlating total suspended matter concentration with seawater reflectance using multispectral satellite data, J. Coastal Res., 24 (2008) 40–49.
  9. M. Duran-Ros, J. Puig-Bargués, G. Arbat, J. Barragán, F.R. Cartagena, Effect of filter, emitter and location on clogging when using effluents, Agric. Water Manage., 96 (2009) 67–79.
  10. M.Y. Yavuz, K. Demırel, O. Erken, E. Bahar, M. Devecıler, Emitter clogging and effects on drip irrigation system performances, Afr. J. Agric. Res., 5 (2010) 532–538.
  11. J.-L. Wu, C.-R. Ho, C.-C. Huang, A.L. Srivastav, J.-H. Tzeng, Y.-T. Lin, Hyperspectral sensing for turbid water quality monitoring in freshwater rivers: empirical relationship between reflectance and turbidity and total solids, Sensors (Basel), 14 (2014) 22670–22688.
  12. A.W.M. Elamin, A.M. Abd Eldaiam, N.A. Abdalla, M.E. Hussain, Hydraulic performance of drip irrigation system under different emitter types, and operating pressures using treated wastewater at Khartoum state, Int. J. Dev. Sustainability, 6 (2017) 1086–1095.
  13. A. Shaw, U. Ghosh, R.K. Biswas, Study on clogging problem of drip irrigation systems and its remedies, Int. J. Curr. Microbiol. Appl. Sci., 7 (2018) 1934–1941.
  14. Z. Liu, Y. Xiao, Y. Li, B. Zhou, J. Feng, S. Han, T. Muhammad, Influence of operating pressure on emitter anti-clogging performance of drip irrigation system with high-sediment water, Agric. Water Manage., 213 (2019) 174–184.
  15. H. Hassan, S. El-Khatib, M. Mahmoud, Evaluation of drip irrigation system performance under local gravel media in laboratory, AgricInternational, 6 (2019) 39–50.
  16. H. Elhegazy, M.M.M. Eid, A state-of-the-art-review on greywater management: a survey from 2000s to 2020s, Water Sci. Technol., 82 (2020) 2786–2797.
  17. H. Hassan, S. El-Khatib, M. Mahmoud, Study some optical properties of different total suspended solids in media filters by using He–Ne laser, J. Optics, 49 (2020) 248–255.
  18. M.M.M. Eid, N.M. El-Bialee, H. Elhegazy, S.I. El-Khatib, H.E. Hassan, Application of optical properties in water purification quality testing, Water Pract. Technol., 16 (2021) 895–903.
  19. W. El-Ssawy, H. Elhegazy, H. Abd-Elrahman, M. Eid, N. Badra, Identification of the best model to predict optical properties of water, Environ. Dev. Sustainability, (2022), doi: 10.1007/s10668-022-02331-5.