Journal article
Effects of soil air-filled porosity, soil matric potential and soil strength on primary root growth of radiata pine seedlings
Plant and Soil, Vol.236(1), pp.105-115
2001
Abstract
The effects of soil air-filled porosity, soil matric potential and soil strength on primary root growth of radiata pine (Pinus radiata D. Don) seedlings were examined in four soil textures ranging from coarse to fine. At low penetrometer resistance (< 0.5 MPa) and high soil matric potential ( - 0.01 MPa), root elongation rate was close to zero when air-filled porosity was < 0.05 m3 m-3, and it increased sharply to 90% of its maximum value at 0.15 m3m-3. This relationship was independent of soil texture. The diameter of the root tip increased as air-filled porosity decreased, particularly below 0.10 m3 m-3. Root elongation rate decreased linearly with decreasing soil matric potential over the range - 0.01 to -0.35 MPa at both 0.5 MPa and 1.5 MPa soil strength. This relationship was independent of soil texture. The rate of root elongation at 0.5 MPa was about twice that at 1.5 MPa and the rate of decrease in root elongation with decreasing soil matric potential was 1.35 times greater at the lower (0.5 MPa) than the higher (1.5 MPa) soil strength. The effect of water potential (over the range -0.01 to -1.5 MPa) on root elongation at zero soil strength was simulated using PEG 4000 solutions as rooting media. Root elongation declined exponentially over the range of water potentials established in the rooting medium. Root elongation rate decreased exponentially with increasing soil strength when soil matric potential was constant and air-filled porosity was > 0.20 m3 m-3. This relationship was independent of soil texture. Root elongation rate was half its maximum at a penetrometer resistance of 1.3 MPa. Increasing bulk density has a greater effect of increasing soil strength in coarse soil than in fine soil but decreasing soil water content has a greater effect on increasing soil strength in fine soil than in coarse soil.
Details
- Title
- Effects of soil air-filled porosity, soil matric potential and soil strength on primary root growth of radiata pine seedlings
- Authors
- C Zou (Author) - University of CanterburyC Penfold (Author) - University of CanterburyR Sands (Author) - University of CanterburyRabindra K Misra (Author) - University of the Sunshine Coast - Faculty of Science, Health and EducationI Hudson (Author) - University of Canterbury
- Publication details
- Plant and Soil, Vol.236(1), pp.105-115
- Publisher
- Springer Netherlands
- DOI
- 10.1023/A:1011994615014
- ISSN
- 0032-079X
- Organisation Unit
- University of the Sunshine Coast, Queensland
- Language
- English
- Record Identifier
- 99450000002621
- Output Type
- Journal article
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- Domestic collaboration
- International collaboration
- Web Of Science research areas
- Agronomy
- Plant Sciences
- Soil Science
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