Abstract
PurposeSoil water repellence causes uneven soil wetting which can constrain dryland crop and pasture establishment and yield. The same processes are likely to affect nutrient availability from soil and fertiliser, but the effects of repellence on crop growth and nutrition per se have seldom been reported. Here, we investigated early wheat (Triticum aestivum cv. Mace) growth and nutrient uptake responses to repellence.MethodsWheat was furrow-sown in severely repellent sandy loam soil (with a wettable furrow base to allow for germination) or completely wettable soil, under uniform plant density and variable topsoil thickness (20 or 100 mm) and fertiliser band placement (below or away from the seed). Tiller number, shoot dry matter, shoot N concentration, total nutrient uptake, and root length density (RLD) were determined.ResultsContrary to expectations, repellence significantly increased tiller number (by up to 2 tillers per plant), shoot dry matter (by 82%), shoot N concentration (by 0.3% N), and total nutrient uptake (by 87%) at 51 days after sowing, regardless of topsoil thickness and fertiliser placement. In the furrow, RLD of repellent treatments was also nearly double that in wettable treatments when fertiliser was banded below the seed. Results suggest that preferential soil wetting of the furrow in repellent treatments favoured plant nutrient uptake under regular but low water supply.ConclusionWe conclude that for water-repellent soils with limited water supply, water harvesting techniques such as furrow sowing and banding wetting agents could boost water and nutrient uptake and early crop growth.
Highlights
Soil water repellence is a constraint to crop and pasture production in many parts of the world (Smettem et al 2021)
Contrary to the hypothesis that nutrient uptake and plant growth would be impeded by repellence, this study demonstrated that severe repellence in a sandy loam soil significantly increased wheat tiller number, shoot dry matter, and total nutrient uptake per plant relative to completely wettable soil, under regular but low water supply (4.2 mm every two days; average day air temperature of 19 °C and relative humidity of 36%)
Water infiltration in the wettable furrow of repellent treatments was found to nearly double wheat root length density (RLD) in the furrow relative to wettable treatments when fertiliser was banded below the seed, suggesting that water and nutrient transport in repellent treatments with a wettable furrow were conducive to early root growth and nutrient uptake under regular but low water supply
Summary
Soil water repellence is a constraint to crop and pasture production in many parts of the world (Smettem et al 2021). Nutrient leaching is a known risk in water-repellent soils (Blackwell 2000; Hendrickx et al 1993). Due to these hydrological processes, crop germination on water-repellent sandy soil is often delayed and staggered, and this can lead to lower grain yields (Bond 1972; Roper et al 2015). Apart from its adverse effect on germination, the effects of repellence on soil nutrient availability and crop growth and nutrition per se have seldom been reported
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