The effect of mineral-ion interactions on soil hydraulic conductivity

Buelow, Maya C.; Steenwerth, Kerri L.; Parikh, Sanjai J.

doi:10.1016/j.agwat.2015.01.015

Cited by 32 publications

(24 citation statements)

References 44 publications

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“…c threshold concentration (TEC). The TEC is a widely adopted, convenient measure of the impact of cations on soil permeability (Buelow et al 2015;Quirk 2001;Shainberg and Letey 1984). Accordingly, we tested Equation (3) as a diagnostic water quality parameter by examining how well it correlates with TEC values we calculated (table 4) using laboratory data reported by Jayawardane et al (2011) and Arienzo et al (2012) for a Sodosol from the Riverina region of Australia which had been irrigated with winery wastewater (Smith et al 2015).…”

Section: Optimizing Crossmentioning

confidence: 99%

“…However, the high salinity and sodium (Na) concentrations characteristic of recycled wastewaters pose a significant challenge to their sustainable reuse for crop production (Assouline et al 2015;Laurenson et al 2012;Grismer 2014a, 2014b). Adding to this challenge, several recent studies (Arienzo et al 2012;Buelow et al 2015;Marchuk et al 2013;Rengasamy and Marchuk 2011;Smith et al 2015) have documented deleterious effects on soil hydraulic properties caused by high concentrations of potassium (K) and magnesium (Mg), which are typical of recycled wastewaters (Buelow et al 2015;Laurenson et al 2012;Weber et al 2014). The potential consequences include negative impacts on infiltration, water availability and plant growth.…”

mentioning

confidence: 99%

“…Although this ordering of negative impacts on soil hydraulic properties among the four cations was documented quantitatively 60 years ago (Quirk and Schofield 1955) and has often been discussed in reviews (Keren 1984;Levy 2012), it has not yet been incorporated into standard irrigation water quality criteria. As noted by Rengasamy and Marchuk (2011) and Buelow et al (2015), the need to do this has become urgent because of increasing need to reuse wastewaters for irrigation, which is expected to grow exponentially in California during the next few decades (Weber et al 2014).…”

mentioning

confidence: 99%

“…The potential consequences include negative impacts on infiltration, water availability and plant growth. Buelow et al (2015), who investigated California soils, in particular have called for further research to understand the high-risk scenarios that may arise when irrigating with potassium-rich wastewaters. We note in passing that recycled wastewaters are not the only concern of the kind discussed here.…”

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confidence: 99%

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Accounting for potassium and magnesium in irrigation water quality assessment

Oster¹,

Sposito²,

Smith³

2016

Cal Ag

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Irrigation with treated wastewater is expected to increase significantly in California during the coming decade as a way to reduce the impact of drought and mitigate water transfer issues. To ensure that such wastewater reuse does not result in unacceptable impacts on soil permeability, water quality guidelines must effectively address sodicity hazard. However, current guidelines are based on the sodium adsorption ratio (SAR) and thus assume that potassium (K) and magnesium (Mg), which often are at elevated concentrations in recycled wastewaters, pose no hazard, despite many past studies to the contrary. Recent research has established that the negative effects of high K and Mg concentrations on soil permeability are substantial and that they can be accounted for by a new irrigation water quality parameter, the cation ratio of structural stability (CROSS), a generalization of SAR. We show that CROSS, when suitably optimized, correlates strongly with a standard measure of soil permeability reduction for an agricultural soil leached with winery wastewater, and that it can be incorporated directly into existing irrigation water quality guidelines by replacing SAR.

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Section: Optimizing Crossmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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confidence: 99%

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Accounting for potassium and magnesium in irrigation water quality assessment

Oster¹,

Sposito²,

Smith³

2016

Cal Ag

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“…The potato processing industry produces 8-28 9 10 3 L of wastewater per every 1000 kg of raw potatoes (Charmley et al 2006). Wastewater reuse in agriculture irrigation is a common practice (Aryal and Reinhold 2015;Buelow et al 2015). About 20 million ha of land worldwide are irrigated with wastewater (Hamilton et al 2011).…”

Section: Introductionmentioning

confidence: 99%

Poplar growth and wood production on a grassland irrigated for decades with potato starch wastewater

2016

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Irrigation of grasslands with potato starch wastewater causes changes in soil quality parameters, often resulting in decreased crop yields and sometimes causing animal diseases. Reduced agricultural income leads to designation of such grasslands for afforestation aimed at production of bioenergy crops and improvement of soil quality. In this study, Populus alba L. and seven different poplar clones were planted in 2009 on the grassland irrigated in 1973-2008 with potato starch wastewater and in non-irrigated, experimental forest. The survival, growth and wood production potential of planted poplars after 2-3 growing seasons were analyzed. Morphophysiological parameters of leaves, nutrients in leaves and fine roots, sugars in fine roots, leaf rust resistance, frost hardiness and their effects on growth were also determined. Stem diameter and stem volume index of poplars growing on the grassland were higher than in the experimental forest. Only Populus deltoides Bartr. 9 P. maximowiczii Henry clone 'Eridano' (in short ERI) had a survival rate of 100 % and the highest values of stem diameter (77 mm) and stem volume index (0.034 m 3 ) in comparison with other poplars in both sites after 3 growing seasons. Clone ERI was also characterized by a high leaf rust resistance and frost hardiness. The results suggest that clone ERI is suitable as a bioenergy crop on grasslands irrigated with potato starch wastewater. Afforestation of the grassland improved the fertility of the soil by increasing concentrations of soil organic matter and availability of mineral nutrients (N, P, K, S and Fe).

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Hydrocarbon-Contamination of Soils Around a Trinidadian Pitch Lake: Red Muds as a Resistance to Potential Soil Toxicants

Harris

2016

Geobiotechnological Solutions to Anthropogenic Disturbances

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The effect of mineral-ion interactions on soil hydraulic conductivity

Cited by 32 publications

References 44 publications

Accounting for potassium and magnesium in irrigation water quality assessment

Accounting for potassium and magnesium in irrigation water quality assessment

Poplar growth and wood production on a grassland irrigated for decades with potato starch wastewater

Hydrocarbon-Contamination of Soils Around a Trinidadian Pitch Lake: Red Muds as a Resistance to Potential Soil Toxicants

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