Low Phosphorus Tolerance Mechanisms: Phosphorus Recycling and Photosynthate Partitioning in the Tropical Forage Grass, Brachiaria Hybrid Cultivar Mulato Compared with Rice

doi:10.1093/pcp/pch056

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Plant and Cell Physiology, 2004, Vol. 45, No. 4 460-469
© 2004 Oxford University Press

Low Phosphorus Tolerance Mechanisms: Phosphorus Recycling and Photosynthate Partitioning in the Tropical Forage Grass, Brachiaria Hybrid Cultivar Mulato Compared with Rice

Masahito Nanamori¹, Takuro Shinano²^,4, Jun Wasaki¹^,2, Takuya Yamamura¹, Idupulapati M. Rao³ and Mitsuru Osaki¹

¹ Graduate School of Agriculture, Hokkaido University, Kita-ku, Sapporo, 060-8589 Japan
² Creative Research Initiative "Sousei" (CRIS), Hokkaido University, Kita-ku, Sapporo, 001-0020 Japan
³ Centro Internacional de Agricultura Tropical (CIAT), A. A. 6713, Cali, Colombia

The Brachiaria hybrid cv. Mulato is well adapted to low-fertilityacid soils deficient in phosphorus (P). To study the grassyforage’s mechanisms for tolerating low P supply, we comparedit with rice (Oryza sativa L. cv. Kitaake). We tested by usingnutrient solution cultures, and quantified the effects of Pdeficiency on the enzymatic activities of phosphohydrolasesand on carbon metabolism in P-deficient leaves. While P deficiencymarkedly induced activity of phosphohydrolases in both crops,the ratio of inorganic phosphorus to total P in leaves was greaterin Brachiaria hybrid. Phosphorus deficiency in leaves also markedlyinfluenced the partitioning of carbon in both crops. In theBrachiaria hybrid, compared with rice, the smaller proportionof ¹⁴C partitioned into sugars and the larger proportion intoamino acids and organic acids in leaves coincided with decreasedlevels of sucrose and starch. Hence, in P-deficient leaves ofthe Brachiaria hybrid, triose-P was metabolized into amino acidsor organic acids. Results thus indicate that the Brachiariahybrid, compared with rice, tolerates low P supply to leavesby enhancing sugar catabolism and by inducing the activity ofseveral phosphohydrolases. This apparently causes rapid P turnoverand enables the Brachiaria hybrid to use P more efficiently.

⁴ Corresponding author: E-mail, takuro{at}chem.agr.hokudai.ac.jp;Fax, +81-11-706-9210.

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