Journal
SOIL USE AND MANAGEMENT
Volume 30, Issue 1, Pages 109-118Publisher
WILEY
DOI: 10.1111/sum.12102
Keywords
soil moisture content; subsoil; Biochar; root development
Categories
Funding
- North Sea Region Programme IVB through the project 'Biochar: climate saving soils'
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Crop yields and yield potentials on Danish coarse sandy soils are strongly limited due to restricted root growth and poor water and nutrient retention. We investigated if biochar amendment to subsoil can improve root development in barley and significantly increase soil water retention. Spring barley (Hordeum vulgare cv. Anakin) was grown in soil columns (diameter: 30cm) prepared with 25cm topsoil, 75cm biochar-amended subsoil, and 30cm un-amended subsoil lowermost placed on an impervious surface. Low-temperature gasification straw-biochar (at 0, 0.50, 1.0, 2.0, and 4.0 wt%) and slow pyrolysis hardwood-biochar (at 2 wt%) were investigated. One wt% can be scaled up to 10(2) Mg/ha of char. After full irrigation and drainage, the in-situ moisture content at 30-80cm depth increased linearly (R-2=0.99) with straw-biochar content at a rate corresponding to 0.029m(3)/m(3)/%. The lab determined wilting point also increased linearly with char content (R-2=0.99) but at a much lower rate (0.003 m(3)/m(3)/%). Biochar at concentrations up to 2% significantly increased the density of roots in the 40-80cm depth interval. Addition of 1% straw-biochar had the most positive effect on root penetration resulting in the highest average root density (54% coverage compared to 33% without biochar). This treatment also resulted in the greatest spring barley grain yield increase (22%). Improving the quality of sandy subsoils has global potentials, and incorporation of the right amount of correctly treated residues from bioenergy technologies such as straw-biochar is a promising option.
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