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Soil strength and macropore volume limit root elongation rates in many UK agricultural soils

Soil strength and macropore volume limit root elongation rates in many UK agricultural soils

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Authors

  • Tracy A. Valentine
  • Paul D. Hallett
  • Kirsty Binnie
  • Mark W. Young
  • Geoffrey R. Squire
  • Cathy Hawes
  • A. Glyn Bengough

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Info

Original languageEnglish
Pages259-270
Number of pages12
JournalAnnals of Botany
Journal publication dateJul 2012
Volume110
Issue2
DOIs
StatePublished

Abstract

Simple indicators of crop and cultivar performance across a range of soil types and management are needed for designing and testing sustainable cropping practices. This paper determined the extent to which soil chemical and physical properties, particularly soil strength and pore-size distribution influences root elongation in a wide range of agricultural top soils, using a seedling-based indicator.

Intact soil cores were sampled from the topsoil of 59 agricultural fields in Scotland, representing a wide geographic spread, range of textures and management practices. Water release characteristics, dry bulk density and needle penetrometer resistance were measured on three cores from each field. Soil samples from the same locations were sieved, analysed for chemical characteristics, and packed to dry bulk density of 10 g cm(3) to minimize physical constraints. Root elongation rates were determined for barley seedlings planted in both intact field and packed soil cores at a water content close to field capacity (20 kPa matric potential).

Root elongation in field soil was typically less than half of that in packed soils. Penetrometer resistance was typically between 1 and 3 MPa for field soils, indicating the soils were relatively hard, despite their moderately wet condition (compared with 02 MPa for packed soil). Root elongation was strongly linked to differences in physical rather than chemical properties. In field soil root elongation was related most closely to the volume of soil pores between 60 m and 300 m equivalent diameter, as estimated from water-release characteristics, accounting for 657 of the variation in the elongation rates.

Root elongation rate in the majority of field soils was slower than half of the unimpeded (packed) rate. Such major reductions in root elongation rates will decrease rooting volumes and limit crop growth in soils where nutrients and water are scarce.

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