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Integrated Assessment of Irrigation Water Quality Based on Harrington's Desirability Function

Year 2017, Volume: 1 Issue: 1, 55 - 58, 20.12.2017
https://doi.org/10.31015/jaefs.17007

Abstract

It was proposed the integrated approach to the irrigation water assessment as its quality index IWQI. This criteria is united the quantitative assessment of different risks such as soil sodicity, plant toxicity, biofilm formation in drippers of irrigation systems etc. It is proposed to combine agronomic, ecological and technological requirements to the irrigation water using a generalized Harrington's desirability function (HDF). Within the framework of this concept, it was developed the scales of particular HDF for physico-chemical indicators, SAR values, and the Stebler's irrigation coefficient. IWQI was determined for the assessment of water quality for irrigation purpose on the examples of 3 dug wells located on the Agronomic Experimental station of National University of Life and Environmental Sciences of Ukraine (Pshenichne village, Kiev region). It is shown that water quality varies considerably (from 56 till 85%). 

References

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  • Horton, R. K. (1965) An index number system for rating water quality. Journal of Water Pollution Control Federation, 37 (3), 300-306.
  • Sutadian, A.D., Mutti, N., Yilmaz, A., Perera, B.J.C. (2016) Development of river water quality indices – a review. Environmental Monitoring Assessment, 188 (1), 58.
  • Poonam, T., Tanushree, B., Sukalyan, C. (2015) Water quality indices – important tools for water quality assessment: a review. International Journal of Advances in Chemistry, 1 (1), 15-29.
  • Tyagi, S., Sharma, B., Singh, P., Dobhal, R. (2013) Water quality assessment in terms of water quality index. American Journal of Water Resources, 1 (3), 34-38.
  • Bikbulatov, E. S., Stepanova I. E. (2011) Harrington's desirability functions for assessing quality of natural waters, Russian Journal of General Chemistry, 81 (13), 2694-2704.
  • Abbasi T., Abbasi S.A. (2012) Water quality indices. Elsevier, Oxford, 384 pp.
  • Simsek, C., Gunduz, O. (2007) IWQ Index: A GIS-integrated technique to assess irrigation water quality. Environmental Monitoring and Assessment, 128 (1-3), 277-300.
  • National Engineering Handbook. Irrigation Guide (1997). USDA, Washington, 652 pp.
  • Frenken, K., Gillet, V. (2012) Irrigation water requirement and water withdrawal by country. FAO Aquastat Report, 263 pp.
  • Kuznyetsov, V. (2006) Urban water resources management in Ukraine. In: Hlavinek P., Kukharchyk T., Marsalek J., Mahrikova I. (eds) Integrated Urban Water Resources Management. NATO Security through Science Series. Springer, Dordrecht, 69-78.
  • Barselona, M.J., Gibb, J.P., Helfrich J.A., and Garske E.E. (1985). Practical Guide for Ground-Water Sampling: Illinois State Water Survey Department of Energy and Natural Resources Champaign, Illinois, 1-94.
  • Voitenko, L., Kopilevich, V. (2016) Integrated water quality assessment for the animal watering in Velykosnytinske Education and Research Farm of National University of Life and Environmental Sciences of Ukraine, Biological Resources and Nature Management, 8 (3-4), 43-52.
  • Silveira, L., Usunoff, E.J. Encyclopedia of Life Support Systems (EOLSS). Volume II. Groundwater. EOLSS Publishers, Oxford, 584 pp.
Year 2017, Volume: 1 Issue: 1, 55 - 58, 20.12.2017
https://doi.org/10.31015/jaefs.17007

Abstract

References

  • Fischer, G., Tubiello, F.N., Velthuizen, H., and Wiberg, D.A. (2007) Climate change impacts on irrigation water requirements: Effects of mitigation, 1990-2080. Technological Forecasting and Social Change, 74, 1083-1107.
  • Horton, R. K. (1965) An index number system for rating water quality. Journal of Water Pollution Control Federation, 37 (3), 300-306.
  • Sutadian, A.D., Mutti, N., Yilmaz, A., Perera, B.J.C. (2016) Development of river water quality indices – a review. Environmental Monitoring Assessment, 188 (1), 58.
  • Poonam, T., Tanushree, B., Sukalyan, C. (2015) Water quality indices – important tools for water quality assessment: a review. International Journal of Advances in Chemistry, 1 (1), 15-29.
  • Tyagi, S., Sharma, B., Singh, P., Dobhal, R. (2013) Water quality assessment in terms of water quality index. American Journal of Water Resources, 1 (3), 34-38.
  • Bikbulatov, E. S., Stepanova I. E. (2011) Harrington's desirability functions for assessing quality of natural waters, Russian Journal of General Chemistry, 81 (13), 2694-2704.
  • Abbasi T., Abbasi S.A. (2012) Water quality indices. Elsevier, Oxford, 384 pp.
  • Simsek, C., Gunduz, O. (2007) IWQ Index: A GIS-integrated technique to assess irrigation water quality. Environmental Monitoring and Assessment, 128 (1-3), 277-300.
  • National Engineering Handbook. Irrigation Guide (1997). USDA, Washington, 652 pp.
  • Frenken, K., Gillet, V. (2012) Irrigation water requirement and water withdrawal by country. FAO Aquastat Report, 263 pp.
  • Kuznyetsov, V. (2006) Urban water resources management in Ukraine. In: Hlavinek P., Kukharchyk T., Marsalek J., Mahrikova I. (eds) Integrated Urban Water Resources Management. NATO Security through Science Series. Springer, Dordrecht, 69-78.
  • Barselona, M.J., Gibb, J.P., Helfrich J.A., and Garske E.E. (1985). Practical Guide for Ground-Water Sampling: Illinois State Water Survey Department of Energy and Natural Resources Champaign, Illinois, 1-94.
  • Voitenko, L., Kopilevich, V. (2016) Integrated water quality assessment for the animal watering in Velykosnytinske Education and Research Farm of National University of Life and Environmental Sciences of Ukraine, Biological Resources and Nature Management, 8 (3-4), 43-52.
  • Silveira, L., Usunoff, E.J. Encyclopedia of Life Support Systems (EOLSS). Volume II. Groundwater. EOLSS Publishers, Oxford, 584 pp.
There are 14 citations in total.

Details

Subjects Agricultural Engineering
Other ID JAEFS201710
Journal Section Research Articles
Authors

Larissa Voitenko

Andrii Voitenko This is me

Publication Date December 20, 2017
Submission Date November 27, 2017
Acceptance Date December 3, 2017
Published in Issue Year 2017 Volume: 1 Issue: 1

Cite

APA Voitenko, L., & Voitenko, A. (2017). Integrated Assessment of Irrigation Water Quality Based on Harrington’s Desirability Function. International Journal of Agriculture Environment and Food Sciences, 1(1), 55-58. https://doi.org/10.31015/jaefs.17007
AMA Voitenko L, Voitenko A. Integrated Assessment of Irrigation Water Quality Based on Harrington’s Desirability Function. int. j. agric. environ. food sci. December 2017;1(1):55-58. doi:10.31015/jaefs.17007
Chicago Voitenko, Larissa, and Andrii Voitenko. “Integrated Assessment of Irrigation Water Quality Based on Harrington’s Desirability Function”. International Journal of Agriculture Environment and Food Sciences 1, no. 1 (December 2017): 55-58. https://doi.org/10.31015/jaefs.17007.
EndNote Voitenko L, Voitenko A (December 1, 2017) Integrated Assessment of Irrigation Water Quality Based on Harrington’s Desirability Function. International Journal of Agriculture Environment and Food Sciences 1 1 55–58.
IEEE L. Voitenko and A. Voitenko, “Integrated Assessment of Irrigation Water Quality Based on Harrington’s Desirability Function”, int. j. agric. environ. food sci., vol. 1, no. 1, pp. 55–58, 2017, doi: 10.31015/jaefs.17007.
ISNAD Voitenko, Larissa - Voitenko, Andrii. “Integrated Assessment of Irrigation Water Quality Based on Harrington’s Desirability Function”. International Journal of Agriculture Environment and Food Sciences 1/1 (December 2017), 55-58. https://doi.org/10.31015/jaefs.17007.
JAMA Voitenko L, Voitenko A. Integrated Assessment of Irrigation Water Quality Based on Harrington’s Desirability Function. int. j. agric. environ. food sci. 2017;1:55–58.
MLA Voitenko, Larissa and Andrii Voitenko. “Integrated Assessment of Irrigation Water Quality Based on Harrington’s Desirability Function”. International Journal of Agriculture Environment and Food Sciences, vol. 1, no. 1, 2017, pp. 55-58, doi:10.31015/jaefs.17007.
Vancouver Voitenko L, Voitenko A. Integrated Assessment of Irrigation Water Quality Based on Harrington’s Desirability Function. int. j. agric. environ. food sci. 2017;1(1):55-8.


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