A new study conducted by Prof. Amit Gross of the Ben-Gurion University of the Negev (BGU) Zuckerberg Institute for Water Research has revealed that treating graywater using biofiltration is more efficient for irrigation in arid, sandy soils. “Onsite reuse of graywater for irrigation is perceived as a low risk and economical way of reducing freshwater use,” explained Prof. Gross.







Prof. Amit Gross

Prof. Amit Gross

With over one billion people across a hundred countries thirsting for a solution to desertification, the Ben-Gurion University of the Negev (BGU) Zuckerberg Institute for Water Research set out to find a solution for optimal living conditions in arid environments.

Research into graywater reuse for agricultural irrigation had, until recently, placed most of the focus on graywater’s health risks for human consumption; however, this was proven safe by researchers at the Zuckerberg Institute in 2015. This finding enabled scientists to delve into the next stage of graywater research: how it affects environmental outcomes, particularly on soil properties in different ecosystems.

According to a new study by Prof. Amit Gross, head of the Department of Environmental Hydrology and Microbiology in the Zuckerberg Institute, treating graywater using biofiltration is more efficient for irrigation in arid, sandy soils.

Prof. Gross and his research team found that graywater does not infiltrate through the soil as easily as freshwater and is slower to reach plant roots, causing a condition known as graywater-induced hydrophobicity. Instead of infiltrating into the ground as freshwater does, the water collects on the surface of the soil, leading to possible erosion.







Illustration

Illustration Photo Credit: Shutterstock

“Graywater-induced hydrophobicity is likely temporary and disappears quickly following rainwater or freshwater irrigation events,” says Prof. Gross. “However, it is a more significant concern in arid lands with negligible rainfall as compared with wetter regions.” By treating the graywater using biofiltration to degrade the hydrophobic organic compounds, the problem is eliminated. 

In the study, the researchers examined how graywater induces soil hydrophobicity, as well as its degree and persistence. They created three graywater models using raw (untreated), treated and highly treated graywater to irrigate fine-grained sand compared to a freshwater control. The result was that only the raw graywater irrigated soil showed hydrophobicity, which could be mitigated with both moderately and highly treated solutions.

“Onsite reuse of graywater for irrigation is perceived as a low risk and economical way of reducing freshwater use and, as such, it is gaining in popularity in both developing and developed countries,” says Prof. Gross. “As many government authorities are establishing new guidelines, the results of this study reinforce the recommendations to treat graywater before reusing for irrigation, particularly in arid regions.”

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