Differences in subsoil P acquisition by two subterranean clover cultivars in a P deficient soil

McLachlan, Jonathan W; Flavel, Richard J; Guppy, Chris N; Simpson, Richard J; Haling, Rebecca E

Author(s)

McLachlan, Jonathan W

Flavel, Richard J

Guppy, Chris N

Simpson, Richard J

Haling, Rebecca E

Publication Date

2019

Abstract

Phosphorus (P) is usually concentrated in the uppermost layers of the soil profile under pasture, hence topsoil root allocation is important for maximising P acquisition. However, total root length was recently found to be a marginally better predictor of variation in P uptake among twenty-six genotypes of subterranean clover (Trifolium subterraneum L.) when compared to topsoil root length alone. This result prompted a preliminary assessment of P acquisition by subsoil roots. Micro-swards of two cultivars were grown with a topsoil layer that was either P-deficient or amended with P for improved plant growth, overlying a low-P subsoil that contained 32P-labelled phosphate. Both cultivars produced less shoot dry mass under P constraint, and the cultivar that allocated more root length to the subsoil layer produced a larger shoot dry mass in the P-deficient soil. This cultivar also recovered more 32P-labelled phosphate from the subsoil layer in both P treatments. Therefore, variation exists for subsoil P acquisition and this trait may be important for determining shoot yield in P-deficient soil.

Citation

Cells to Satellites: Proceedings of the 19th Australian Agronomy Conference, p. 1-4

Link

https://hdl.handle.net/1959.11/29639

Language

en

Publisher

Australian Society of Agronomy Inc

Title

Differences in subsoil P acquisition by two subterranean clover cultivars in a P deficient soil

Type of document

Conference Publication

Entity Type

Publication

Author(s)	McLachlan, Jonathan W Flavel, Richard J Guppy, Chris N Simpson, Richard J Haling, Rebecca E
Publication Date	2019
Abstract	Phosphorus (P) is usually concentrated in the uppermost layers of the soil profile under pasture, hence topsoil root allocation is important for maximising P acquisition. However, total root length was recently found to be a marginally better predictor of variation in P uptake among twenty-six genotypes of subterranean clover (<i>Trifolium subterraneum</i> L.) when compared to topsoil root length alone. This result prompted a preliminary assessment of P acquisition by subsoil roots. Micro-swards of two cultivars were grown with a topsoil layer that was either P-deficient or amended with P for improved plant growth, overlying a low-P subsoil that contained <sup>32</sup>P-labelled phosphate. Both cultivars produced less shoot dry mass under P constraint, and the cultivar that allocated more root length to the subsoil layer produced a larger shoot dry mass in the P-deficient soil. This cultivar also recovered more <sup>32</sup>P-labelled phosphate from the subsoil layer in both P treatments. Therefore, variation exists for subsoil P acquisition and this trait may be important for determining shoot yield in P-deficient soil.
Citation	Cells to Satellites: Proceedings of the 19th Australian Agronomy Conference, p. 1-4
Link	https://hdl.handle.net/1959.11/29639
Language	en
Publisher	Australian Society of Agronomy Inc
Title	Differences in subsoil P acquisition by two subterranean clover cultivars in a P deficient soil
Type of document	Conference Publication
Entity Type	Publication

Differences in subsoil P acquisition by two subterranean clover cultivars in a P deficient soil

Files: