The experiment was conducted to investigate the partitioning of carbon 13 (13C) and the relationship between root C allocation and root respiration rate in 'Redcort'/M.7 and rooted cuttings of B.9. Canopies were pulsed with 13CO2 and isotopic emissions from the soil were monitored after pulse labelling. Mildly water stressed potted trees were compared with a well-watered treatment. In 'Redcort'/M.7, water stress, over a 7-day period, reduced predawn leaf water potential and root efflux rate of 13CO2 (up to 55% reduction measured 60 hours after pulse labelling). However, 13C partitioning to the roots was not reduced by low soil moisture. Evolution rate of 13C from the roots was not related to the amount of 13C allocated into the roots themselves. In B.9, 13CO2 emission from the soil was monitored for 16 days. A decrease in root respiration (up to 53% on the first day after the pulse) was the first response to soil water deficit treatment even when drought stress was not effective in reducing leaf gas exchange. These results suggest that during water deficit conditions, roots appear to use a lower proportion of their total carbon content for respiration. 13C partitioning within the tree was not affected by water supply over the duration of the experiment.

Lombardini L., Toselli Moreno, Flore J.A. (2001). Carbon translocation and root respiration in potted apple trees during conditions of moderate drought. Leuven : International Society for Horticultural Science [10.17660/actahortic.2001.557.55].

Carbon translocation and root respiration in potted apple trees during conditions of moderate drought

Lombardini L.;Toselli Moreno;
2001

Abstract

The experiment was conducted to investigate the partitioning of carbon 13 (13C) and the relationship between root C allocation and root respiration rate in 'Redcort'/M.7 and rooted cuttings of B.9. Canopies were pulsed with 13CO2 and isotopic emissions from the soil were monitored after pulse labelling. Mildly water stressed potted trees were compared with a well-watered treatment. In 'Redcort'/M.7, water stress, over a 7-day period, reduced predawn leaf water potential and root efflux rate of 13CO2 (up to 55% reduction measured 60 hours after pulse labelling). However, 13C partitioning to the roots was not reduced by low soil moisture. Evolution rate of 13C from the roots was not related to the amount of 13C allocated into the roots themselves. In B.9, 13CO2 emission from the soil was monitored for 16 days. A decrease in root respiration (up to 53% on the first day after the pulse) was the first response to soil water deficit treatment even when drought stress was not effective in reducing leaf gas exchange. These results suggest that during water deficit conditions, roots appear to use a lower proportion of their total carbon content for respiration. 13C partitioning within the tree was not affected by water supply over the duration of the experiment.
2001
Acta Horticulturae
413
419
Lombardini L., Toselli Moreno, Flore J.A. (2001). Carbon translocation and root respiration in potted apple trees during conditions of moderate drought. Leuven : International Society for Horticultural Science [10.17660/actahortic.2001.557.55].
Lombardini L.; Toselli Moreno; Flore J.A.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/913046
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