The impact of rain water on soil pore networks following irrigation with saline-sodic water
Poster
Paper/Presentation Title | The impact of rain water on soil pore networks following irrigation with saline-sodic water |
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Presentation Type | Poster |
Authors | Awedat, A. M. (Author), Bennett, J. McL. (Author), Raine, S. R. (Author) and Misra, R. K. (Author) |
Editors | Birkett, Lucy and Sparrow, Leigh |
Journal or Proceedings Title | Proceedings of the 5th Joint Australian and New Zealand Soil Science Conference (SSA 2012) |
ERA Conference ID | 50979 |
Number of Pages | 4 |
Year | 2012 |
Place of Publication | Melbourne, Australia |
ISBN | 9780646591421 |
Web Address (URL) of Paper | http://www.soilscience2012.com |
Conference/Event | 5th Joint Australian and New Zealand Soil Science Conference (SSA 2012): Soil Solutions for Diverse Landscapes |
Joint Australian and New Zealand Soil Science Conference | |
Event Details | 5th Joint Australian and New Zealand Soil Science Conference (SSA 2012): Soil Solutions for Diverse Landscapes Parent Joint Australian and New Zealand Soil Science Conference Event Date 02 to end of 07 Dec 2012 Event Location Hobart, Australia |
Event Details | Joint Australian and New Zealand Soil Science Conference |
Abstract | The soil pore network is an important factor affecting soil hydraulic conductivity (Ksat). In this study we examine the effect on the soil pore network of a Red Ferrosol caused by irrigation with good quality irrigation water (GQW), as well as saline-sodic water with varying sodium absorption ratios (SAR; 10, 50 and 120) and constant electrical conductivity (EC; 2 dS m-1), followed by application of distilled water (simulating rain water). The Ksat was measured for the different waters before and after applying the rain water to the soil. Soil samples were taken from different depths (1, 4 and 8 cm) for exchangeable cations measurement and the changes in ESP of the soil. Soil horizontal cross-sections were taken from the first 2 cm of the soil cores after drying with acetone and impregnation with polyester resin mixed with green fluorescent dye catalyst and hardener. These sections were polished and visualized under a microscope to investigate the changes in the soil pore network. By increasing the SAR of the water applied from 0.11 (GQW) to SAR 50 and 120, a significant reduction in Ksat was found, alongside a significant increase in the ESP of the soil from 3 to 10 and 11, respectively; this was most evident near the soil surface. After applying rain water, the Ksat reduced significantly approaching 0 mm h-1 where soil was treated with water of SAR 120. Visualisation of the soil pore network of the treated soils following the application of deionised water clearly showed a reduction in soil macroporosity where water quality of SAR ≥10 was applied, even where soils were non-sodic. Where irrigation occurred with good quality, low SAR water, this reduction was not evident. |
Keywords | water resources; irrigation; porosity; rainwater; absorption |
ANZSRC Field of Research 2020 | 410604. Soil chemistry and soil carbon sequestration (excl. carbon sequestration science) |
410605. Soil physics | |
300201. Agricultural hydrology | |
Public Notes | File reproduced in accordance with the copyright policy of the publisher/author. |
Byline Affiliations | National Centre for Engineering in Agriculture |
Institution of Origin | University of Southern Queensland |
https://research.usq.edu.au/item/q188w/the-impact-of-rain-water-on-soil-pore-networks-following-irrigation-with-saline-sodic-water
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