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Soil Compaction Effects on Oxygen Diffusion Rates and Plant Growth

California Agriculture > Volume 19 > Number 3  > research article 

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Authors

R. W. Rickman, University of California
J. Letey, University of California
L. H. Stolzy, University of California

Publication Information

California Agriculture 19(3):4-6.

Published March 01, 1965

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Abstract

Aeration conditions, as measured by the platinum microelectrode technique, were less favorable in compacted soil layers than conditions known to limit root growth in noncompacted soil. However, reduced root penetration and top growth of tomatoes grown above these compacted layers could not be blamed upon either the high physical resistance to root penetration or poor aeration, individually, because both factors were simultaneously present in the compacted soil layers.

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Author notes

This research was supported by NSF grant GB-84.

Soil Compaction Effects on Oxygen Diffusion Rates and Plant Growth

R. W. Rickman, J. Letey, L. H. Stolzy
University
of
California
Division of Agriculture
and
Natural Resources
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Soil Compaction Effects on Oxygen Diffusion Rates and Plant Growth

California Agriculture > Volume 19 > Number 3  > research article 

< Previous | Table of Contents | Next >

< Previous | Table of Contents | Next >

Share using any of the popular social networks Share by sending an email Print article
Share using any of the popular social networks Share by sending an email Print article

Authors

R. W. Rickman, University of California
J. Letey, University of California
L. H. Stolzy, University of California

Publication Information

California Agriculture 19(3):4-6.

Published March 01, 1965

PDF  |  Citation  |  Permissions

Author Affiliations show

Abstract

Aeration conditions, as measured by the platinum microelectrode technique, were less favorable in compacted soil layers than conditions known to limit root growth in noncompacted soil. However, reduced root penetration and top growth of tomatoes grown above these compacted layers could not be blamed upon either the high physical resistance to root penetration or poor aeration, individually, because both factors were simultaneously present in the compacted soil layers.

Full text

Full text is available in PDF.

Author notes

This research was supported by NSF grant GB-84.

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