Photoassimilate partitioning in nodulated soybean III. The effect of changes in nodule activity shows that carbon supply to the nodule is not linked to nodule nitrogen metabolism

Photoassimilate partitioning in nodulated soybean III. The effect of changes in nodule activity shows that carbon supply to the nodule is not linked to nodule nitrogen metabolism

The hypothesis that photoassimilate partitioning to the soybean nodule is controlled by the rate of N export (via an effect on the turgor of the unloading pathway) was tested. Cessation of N2 fixation due to exposure of the nodulated root to Ar:O2 for over 3 h did not affect the partitioning of phot...

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Bibliographic Details
Published in:Journal of experimental botany Vol. 49; no. 328; pp. 1827 - 1834
Main Authors: Walsh, K.B., Thorpe, M.R., Minchin, P.E.H.
Format: Journal Article
Language:English
Published: Oxford University Press 01-11-1998
Subjects:
11C
nitrogen fixation
nodule
photoassimilate partitioning
soybean
Online Access:Get full text
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Summary:The hypothesis that photoassimilate partitioning to the soybean nodule is controlled by the rate of N export (via an effect on the turgor of the unloading pathway) was tested. Cessation of N2 fixation due to exposure of the nodulated root to Ar:O2 for over 3 h did not affect the partitioning of photoassimilate to the nodule. In contrast, anaerobic conditions (100% N2) resulted in a temporary cessation or marked slowing of carbon import into the nodule and root organs, reflecting an O2 requirement of the unloading process. Carbon accumulation by the nodulated root was less affected by a rhizosphere treatment of 2% O2, although partitioning was decreased over a period of hours. Treatment with 100% O2 also caused an immediate diversion of photoassimilate from the root to the shoot system, although the extent of this diversion was variable. Treatment with stepped increases in O2 did not affect partitioning. It is concluded that the unloading kinetics of the nodule were not disturbed by changes in nodule N metabolism, and therefore that control of assimilate partitioning to the nodule is not influenced by a turgor mechanism involving a balance between the primary export and import solutes. However, photoassimilate import was matched to the respiratory demand of the root system.
Bibliography:istex:BA49DBE4EF3EFC7C292679981A6D1AF71CE0D3EF
ark:/67375/HXZ-7HTLPKTS-S
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/49.328.1827