Changes in soil-pores and wheat root geometry due to strategic tillage in a no-tillage cropping system
Date
2021
Authors
Mehra, P.
Kumar, P.
Bolan, N.
Desbiolles, J.
Orgill, S.
Denton, M.D.
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Soil Research, 2021; 59(1):83-96
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Abstract
Tillage management can influence soil physical properties such as soil strength, moisture content,temperature, nutrient and oxygen availability, which in turn can affect crop growth during the early establishment phase. However, a short-term ‘strategic’ conventional tillage (CT) shift in tillage practice in a continuous no-tillage(NT) cropping system may change the soil-pore and root geometry. This study identifies the impact of a tillage regime shift on the below ground soil-pore and root geometry. Micro X-ray computed tomography (mXCT) was used to quantify, measure and compare the soil-pore and root architecture associated with the impact of tillage shift across different plant growth stages. Soil porosity was 12.2% higher under CT in the top 0–100 mm and 7.4% in the bottom 100–200 mm of the soil core compared with NT. Soil-pore distribution, i.e. macroporosity (>75 mm), was 13.4% higher under CT, but mesoporosity (30–75 mm) was 9.6% higher under NT. The vertical distributions of root biomass and root architecture measurements (i.e. root length density) in undisturbed soil cores were 9.6% higher under the NT and 8.7% higher under the CT system respectively. These results suggest that low soil disturbance under the continuous NT system may have encouraged accumulation of more root biomass in the top 100 mm depth, thus developing better soil structure. Overall, mXCT image analyses of soil cores indicated that this tillage shift affected the soil total carbon,due to the significantly higher soil-pore (i.e. pore surface area, porosity and average pore size area) and root architecture(i.e. root length density, root surface density and root biomass) measurements under the CT system
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