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000906413 1001_ $$0P:(DE-Juel1)161296$$aKuppe, Christian W.$$b0$$eCorresponding author
000906413 245__ $$aRice increases phosphorus uptake in strongly sorbing soils by intra‐root facilitation
000906413 260__ $$aOxford [u.a.]$$bWiley-Blackwell$$c2022
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000906413 500__ $$aFundingCK and JP were institutionally funded by the Helmholtz Association (POF IV: 2171, Biological and environmental resources for sustainable use). GK was supported by BBSRC (Grant Ref. BB/R020388/1) and OCP (Cranfield-Rothamsted-UM6P Collaboration Grant).
000906413 520__ $$aUpland rice (Oryza sativa) is adapted to strongly phosphorus (P) sorbing soils. The mechanisms underlying P acquisition, however, are not well understood, and models typically underestimate uptake. This complicates root ideotype development and trait-based selection for further improvement. We present a novel model, which correctly simulates the P uptake by a P-efficient rice genotype measured over 48 days of growth. The model represents root morphology at the local rhizosphere scale, including root hairs and fine S-type laterals. It simulates fast- and slowly reacting soil P and the P-solubilizing effect of root-induced pH changes in the soil. Simulations predict that the zone of pH changes and P solubilization around a root spreads further into the soil than the zone of P depletion. A root needs to place laterals outside its depletion- but inside its solubilization zone to maximize P uptake. S-type laterals, which are short but hairy, appear to be the key root structures to achieve that. Thus, thicker roots facilitate the P uptake by fine lateral roots. Uptake can be enhanced through longer root hairs and greater root length density but was less sensitive to total root length and root class proportions.
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000906413 7001_ $$00000-0002-7739-9772$$aKirk, Guy J. D.$$b1
000906413 7001_ $$00000-0003-3505-9398$$aWissuwa, Matthias$$b2
000906413 7001_ $$0P:(DE-Juel1)144879$$aPostma, Johannes A.$$b3
000906413 773__ $$0PERI:(DE-600)2020843-1$$a10.1111/pce.14285$$gp. pce.14285$$n3$$p 884-899$$tPlant, cell & environment$$v45$$x0140-7791$$y2022
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