Crop species differ in root plasticity response to localised P supply |
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Authors: | Terry J Rose Zed Rengel Qifu Ma John W Bowden |
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Institution: | 1. Soil Science and Plant Nutrition, M087, School of Earth and Geographical Sciences, University of Western Australia, Crawley WA 6009, Australia;2. Department of Agriculture and Food Western Australia, 3 Baron Hay Court, South Perth WA 6151, Australia |
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Abstract: | The effect of localised phosphorus (P) fertiliser placement and in particular, deep P fertiliser placement, on the comparative root growth and P uptake of fibrous vs tap‐rooted crops is not known. In this study, we examined the root growth and P uptake of wheat (Triticum aestivum L.), canola (Brassica napus L.), and narrow‐leaf lupin (Lupinus angustifolius L.) in a split‐root system and in columns with deep (19 cm) or shallow (5 cm) P fertiliser sources in glasshouse conditions. In the split‐root system, plants of all three species grown under heterogeneous soil P conditions absorbed more P and produced greater root and shoot biomass than those under homogeneous P supply. Root plasticity differed between species under heterogeneous soil P supply: canola and wheat allocated relatively more root biomass and root length to the high P zone than narrow‐leaf lupin. In the column experiment, there was no difference in the amount of P accumulated in shoots of any crops grown in the deep vs shallow P fertiliser treatments. Root proliferation occurred within the shallow and deep‐P fertiliser bands in all three species; however, root distribution above or below the bands did not differ between deep or shallow P fertiliser treatments in any species. Whilst root plasticity responses to heterogeneous soil P supply differed among species, root architecture (fibrous vs taproot) did not confer any advantage or disadvantage to the acquisition of P from deep vs shallow P fertiliser bands. Moreover, whilst roots proliferate in the vicinity of P fertiliser bands, root distribution outside of the bands appears to remain unaltered in both fibrous and tap‐rooted crops during early growth. |
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Keywords: | deep placement phosphorus root architecture split‐root system |
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