Citrate exudation from white lupin induced by phosphorus deficiency differs from that induced by aluminum

Both phosphorus (P) deficiency and aluminum (Al) toxicity induce root exudation of carboxylates, but the relationship between these two effects is not fully understood. Here, carboxylate exudation induced by Al in Lupinus albus (white lupin) was characterized and compared with that induced by P defi...

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Bibliographic Details
Published in:The New phytologist 2007-01, Vol.176 (3), p.581-589
Main Authors: Wang, B.L, Shen, J.B, Zhang, W.H, Zhang, F.S, Neumann, G
Format: Article
Language:English
Subjects:
Acid soils
Aluminum
Aluminum - metabolism
Anions
Anions - metabolism
Anthracenes
Biomass
Carboxylates
Carboxylic Acids - metabolism
citrate exudation
Citrates
Citrates - metabolism
cluster root
Exudation
Hydrogen-Ion Concentration
Lupinus - growth & development
Lupinus - metabolism
Lupinus - physiology
Phosphorus
Phosphorus - metabolism
phosphorus deficiency
Plant roots
Plant Roots - growth & development
Plant Roots - metabolism
Plant Roots - physiology
Plants
Root exudates
white lupin (Lupinus albus)
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Summary:Both phosphorus (P) deficiency and aluminum (Al) toxicity induce root exudation of carboxylates, but the relationship between these two effects is not fully understood. Here, carboxylate exudation induced by Al in Lupinus albus (white lupin) was characterized and compared with that induced by P deficiency. Aluminum treatments were applied to whole root systems or selected root zones of plants with limited (1 μ m) or sufficient (50 μ m) P supply. Aluminum stimulated citrate efflux after 1-2 h; this response was not mimicked by a similar trivalent cation, La³⁺. P deficiency triggered citrate release from mature cluster roots, whereas Al stimulated citrate exudation from the 5- to 10-mm subapical root zones of lateral roots and from mature and senescent cluster roots. Al-induced citrate exudation was inhibited by P limitation at the seedling stage, but was stimulated at later growth stages. Citrate exudation was sensitive to anion-channel blockers. Al treatments did not affect primary root elongation, but inhibited the elongation of lateral roots. The data demonstrate differential patterns of citrate exudation in L. albus, depending on root zone, developmental stage, P nutritional status and Al stress. These findings are discussed in terms of possible functions and underlying mechanisms.
ISSN:0028-646X
1469-8137
DOI:10.1111/j.1469-8137.2007.02206.x