Reassessing irrigation water quality guidelines for sodicity hazard

Qadir, Manzoor, Sposito, Garrison, Smith, C.J. and Oster, James D., (2021). Reassessing irrigation water quality guidelines for sodicity hazard. Agricultural Water Management, 255 n/a-n/a

Document type:
Article

Metadata
Links
Versions
Statistics
  • Sub-type Journal article
    Author Qadir, Manzoor
    Sposito, Garrison
    Smith, C.J.
    Oster, James D.
    Title Reassessing irrigation water quality guidelines for sodicity hazard
    Appearing in Agricultural Water Management
    Volume 255
    Publication Date 2021-07-05
    Place of Publication Amsterdam
    Publisher Elsevier B.V.
    Start page n/a
    End page n/a
    Language eng
    Abstract Current irrigation water quality guidelines for sodicity hazard, in use since the 1980s, are based on assessments of salinity (Electrical conductivity, EC) and sodicity (Sodium Adsorption Ratio, SAR), where SAR considers the positive effects of calcium (Ca) and magnesium (Mg) against the adverse effects of sodium (Na) on soil permeability. Recent research and practice, however, have provided ample evidence for negative effects of both potassium (K) and Mg on soil physical properties in addition to Na. This paper (1) discusses a proposed irrigation water quality parameter which generalizes SAR by including the Potassium Adsorption Ratio (PAR) along with two adjustable numerical coefficients for the K and Mg concentrations to reflect their role as dispersive cations; (2) discusses the tradeoffs from including K and the complex effects of Mg in irrigation water quality assessment; (3) analyzes water quality using the new parameter for 600 water samples from irrigated regions around the world; and (4) proposes revised irrigation water quality guidelines for assessing soil permeability hazard, a generalization of sodicity hazard. Revising current irrigation water quality guidelines in this way will help practitioners assess the suitability of a given water more accurately and will guide fit-for-purpose options and associated management strategies to ensure the sustainability of irrigated agriculture as the use of marginal-quality waters increases to meet the challenge of freshwater scarcity.
    Copyright Holder Elsevier B.V.
    Copyright Year 2021
    Copyright type All rights reserved
    DOI 10.1016/j.agwat.2021.107054
  • Versions
    Version Filter Type
  • Citation counts
    Google Scholar Search Google Scholar
    Access Statistics: 368 Abstract Views  -  Detailed Statistics
    Created: Fri, 05 Nov 2021, 10:05:25 JST by Anderson, Kelsey on behalf of UNU INWEH