Symbiotic N2 fixation activity in relation to C economy of Pisum sativum L. as a function of plant phenology

doi:10.1093/jxb/erg290

JXB Advance Access originally published online on October 16, 2003

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Journal of Experimental Botany, Vol. 54, No. 393, pp. 2733-2744, December 1, 2003
© 2003 Oxford University Press

Symbiotic N₂ fixation activity in relation to C economy of Pisum sativum L. as a function of plant phenology

Received 16 January 2003; Accepted 22 July 2003

A. S. Voisin¹, C. Salon^*^,1, C. Jeudy¹ and F. R. Warembourg²

¹ INRA, Unité d’Ecophysiologie et de Génétique des légumineuses, BV 86510, Dijon 21065 Cedex, France
² CEFE, CNRS,UPR 9056, 1919 route de Mende, 34293, Montpellier Cedex 5, France

* To whom correspondence should be addressed. Fax: +33 3 80 69 32 62. E-mail: salon{at}dijon.inra.fr

The relationships between symbiotic nitrogen fixation (SNF)activity and C fluxes were investigated in pea plants (Pisumsativum L. cv. Baccara) using simultaneous ¹³C and ¹⁵N labelling.Analysis of the dynamics of labelled CO₂ efflux from the nodulatedroots allowed the different components associated with SNF activityto be calculated, together with root and nodule synthetic andmaintenance processes. The carbon costs for the synthesis ofroots and nodules were similar and decreased with time. Carbonlost by turnover, associated with maintenance processes, decreasedwith time for nodules while it increased in the roots. Noduleturnover remained higher than root turnover until flowering.The effect of the N source on SNF was investigated using plantssupplied with nitrate or plants only fixing N₂. SNF per unitnodule biomass (nodule specific activity) was linearly relatedto the amount of carbon allocated to the nodulated roots regardlessof the N source, with regression slopes decreasing across thegrowth cycle. These regression slopes permitted potential valuesof SNF specific activity to be defined. SNF activity decreasedas the plants aged, presumably because of the combined effectsof both increasing C costs of SNF (from 4.0 to 6.7 g C g^–1N) and the limitation of C supply to the nodules. SNF activitycompeted for C against synthesis and maintenance processes withinthe nodulated roots. Synthesis was the main limiting factorof SNF, but its importance decreased as the plant aged. At seed-filling,SNF was probably more limited by nodule age than by C supplyto the nodulated roots.

Key words: C partitioning, ¹⁵N and ¹³C labelling, Pisum sativum L., respiration, symbiotic nitrogen fixation.

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