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Research to unlock marginally saline water irrigation potential

Released on

Released on:
Friday, 13. January 2023 - 9:00

The potential to use marginally saline water to irrigate horticulture crops is being examined by research that could unlock underutilised water supplies in Western Australia – supporting business resilience and industry expansion.

The Department of Primary Industries and Regional Development (DPIRD) has commenced trials using marginally saline water on tomato, capsicum and rockmelon crops at its South Perth research facility.

Soil salinity measuring equipment will also be installed on growers’ properties in the South West to monitor the impact of salt on crop performance.

DPIRD research scientist Lukasz Kotula said a significant amount of moderate quality groundwater of between 1000 and 3000 milligrams per litre total dissolved solids (TDS) could potentially be available to horticulture production.

“It is estimated that there is conservatively more than 70GL of moderate quality groundwater in WA,” Dr Kotula said.

“While much of the better quality water in the Swan Coastal Plain is already allocated to irrigators and other water users, there are large volumes of marginally saline water that is not being used for irrigation.

“In many other countries in the world, water of above 1000 mg/L TDS is successfully used to irrigate crops.

“Our research project will provide valuable information on what quality marginally saline water could be used for different crops and management strategies, taking into account local climate, rainfall, soil type, drainage and leaching considerations.” 

Crops differ in the tolerance to salinity, with tomatoes grown successfully in arid areas of China using water of about 3000mg/L TDS and capsicums are grown in Israel with 1800mg/L TDS on sandy soil using appropriate irrigation management.

The South West’s sandy soils and significant winter rainfall – where accumulated salt leaches more readily than on heavier soils in dry climates – have advantages for irrigation with marginally saline water, when suitable strategies are employed.

Dr Kotula said the research project would examine the optimal irrigation type and frequency, soil moisture levels, mulch to reduce evaporation, time of year and crop growth stage for saline water use in the South West.

“Applying additional water to leach salt from the crops root zone is the major approach used to deal with irrigation using marginally saline water,” he said. 

“It is very important to not let the soil dry out, as salt will concentrate in the root zone causing plant damage.

“Irrigation by drip, where the foliage is not wet, allows for irrigation with higher levels of saline water than overhead irrigation, where the leaves get wet and foliar salt burn occurs. 

“The chemical composition of the irrigation water, particularly the chloride and sodium content, will also be a significant factor in determining plant growth and not just the total dissolved solids.”

Dr Kotula said the research findings would also assist existing irrigators to manage the challenge of increasingly saline water.

“The salinity of some groundwater and surface water resources in the South West is increasing with climate change,” he said. 

“This research will help to create management options for growers to help optimise production in a drying climate.”

For further information or to participate in the project by hosting soil salinity measuring equipment contact lukasz.kotula@dpird.wa.gov.au

A man crouching in a tomato field next to soil water monitoring equipment.
DPIRD research scientist Dr Lukasz Kotula with soil moisture and salinity monitoring equipment used in a research trial at the department’s South Perth facility to identify the potential use of marginally saline water in horticulture production.

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