ISRR 2018

Variation in P-acquisition Efficiency among Trifolium subterraneum Genotypes and the Role of Root Morphology Traits

Jonathan McLachlan 1,2 Rebecca Haling 2 Richard Simpson 2 Richard Flavel 1 Chris Guppy 1
1School of Environmental and Rural Science, University of New England, Australia
2Agriculture and Food, CSIRO, Australia

Trifolium subterraneum is widely grown in the P-deficient soils of southern Australia. However, this pasture legume has a high critical external P requirement and requires annual applications of P-fertiliser for high productivity. Twenty six cultivars or lines of T. subterraneum were grown to determine: (i) the difference between cultivars in shoot growth and P uptake under low P supply, and (ii) the root morphology traits important for P acquisition. Micro-swards of each cultivar were grown with a topsoil layer that was either deficient in P for plant growth (40 mg P applied kg-1) or had P supplied in excess of the critical requirement for maximum yield (250 mg P applied kg-1; “luxury P”). The subsoil was P-deficient (0 mg P applied kg-1). Yield and P content of shoots, topsoil and subsoil roots were determined after 5 weeks growth. Root samples were assessed for diameter, length and root hair length. When luxury P was supplied, all cultivars were equally highly productive. However, in P-deficient soil shoot yield ranged from 38% to 71% of maximum yield. Root morphology traits such as total root length of the cultivars ranged from 63 to 129 m, and correlated well with cultivar plant P acquisition (R~0.86). Topsoil root length density (14-26 cm cm-3) and topsoil specific root length (99 to 172 m g-1) varied between cultivars. Variation was also observed for traits such as root hair length (0.19-0.33 mm) and root diameter (0.30-0.35 mm). These traits were used to calculate the total surface area of the root hair cylinder for each cultivar, which correlated well with cultivar plant P acquisition (R~0.83). The results demonstrated that there is potential to identify cultivars of T. subterraneum for improved P acquisition and higher yields in low P soil.









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