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Factors affecting soil acidification under legumes. III. Acid production by N2-fixing legumes as influenced by nitrate supply

Published online by Cambridge University Press:  01 September 1999

C. TANG
Affiliation:
Centre for Legumes in Mediterranean Agriculture, The University of Western Australia, Nedlands, WA 6907, Australia
M. J. UNKOVICH
Affiliation:
Centre for Legumes in Mediterranean Agriculture, The University of Western Australia, Nedlands, WA 6907, Australia
J. W. BOWDEN
Affiliation:
Centre for Legumes in Mediterranean Agriculture, The University of Western Australia, Nedlands, WA 6907, Australia
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Abstract

Leaching of nitrate through soil profiles is a major cause of soil acidification. Legume species differ in their ability to take up nitrate (NO3) and in the degree to which soil NO3 impairs legume nodulation and N2 fixation. This pot experiment examined species variation in N2 fixation and acid production in grain legumes grown for 6 wk on a sandy soil with Ca(NO3)2 added at 0–56.7 mg N kg−1 soil. The eight legumes studied were Lupinus angustifolius (‘Gungurru’), Lupinus albus (‘Kiev mutant’), Lupinus luteus (‘Teo’), Cicer arietinum (Selection T1587), Pisum sativum (‘Dundale’ and ‘Wirrega’), Vicia faba (‘Fiord’) and Lathyrus sativus (Selection 453). While number of nodules was not significantly affected by treatment with NO3, increasing supply of NO3 decreased nodule mass, with P. sativum ‘Wirrega’ being most sensitive and C. arientinum and V. faba least sensitive. The concentrations of nitrogen in plants generally decreased as the supply of NO3 increased. Increasing supply of NO3 decreased the percentage of N2 fixation, most significantly in L. sativus and least in L. albus. In the absence of added NO3, the amounts of H+ produced per unit biomass (specific acid production) differed by as much as 2.2-fold among the species, with C. arientinum generating most H+, followed by L. angustifolius, L. luteus, L. albus, V. faba, L. sativus, P. sativum ‘Dundale’ and P. sativum ‘Wirrega’. This species variation was even greater at higher NO3 supply. In the presence of NO3 at up to 14.2 mg N kg−1, acid production by these legumes correlated well with uptake of excess cations but not with the concentration of nitrogen in plants. For all species, release of H+ declined with increasing supply of NO3, decreasing most in L. sativus and least in C. arientinum. The results suggest that there might be scope for selecting grain legume species in order to minimize soil acidification by decreasing leaching of NO3.

Type
Research Article
Copyright
© Trustees of the New Phytologist 1999

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