Nitrogen- and Storage-affected Carbohydrate Partitioning in High-light-adapted Pelargonium Cuttings in Relation to Survival and Adventitious Root Formation under Low Light

doi:10.1093/aob/mch210

AOBPreview published online on October 27, 2004
Annals of Botany, doi:10.1093/aob/mch210
© 2004 by Annals of Botany Company

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Received May 19, 2004
Revised August 4, 2004
Accepted August 20, 2004

Article

Nitrogen- and Storage-affected Carbohydrate Partitioning in High-light-adapted Pelargonium Cuttings in Relation to Survival and Adventitious Root Formation under Low Light

U. DRUEGE ¹^*, S. ZERCHE ¹, and R. KADNER ¹

¹ Institute of Vegetable and Ornamental Crops Grossbeeren/Erfurt e.V., Kuehnhaeuser Strasse 101, D-99189 Erfurt-Kuehnhausen, Germany

^* To whom correspondence should be addressed.
U. DRUEGE, E-mail: Druege{at}erfurt.igzev.de

Abstract

• Background and Aims The aim of this study was to determinethe role of nitrogen- and storage-affected carbohydrate availabilityin rooting of pelargonium cuttings, focusing on the environmentalconditions of stock plant cultivation at low latitudes, transportof cuttings, and rooting under the low light that prevails duringthe winter rooting period in Central European greenhouses.

•Methods Carbohydrate partitioning in high-light-adapted cuttingsof the cultivar ‘Isabell’ was studied in relationto survival and adventitious root formation under low light.Effects of a graduated supply of mineral nitrogen to stock plantsand of cutting storage were examined.

• Key Results Nitrogendeficiency raised starch levels in excised cuttings, whereasthe concentrations of glucose and total sugars in leaves andthe basal stem were positively correlated with internal totalnitrogen (N_t). Storage reduced starch to trace levels in allleaves, but sugar levels were only reduced in tissues of non-nitrogendeficient cuttings. Sugars accumulated in the leaf lamina ofstored cuttings during the rooting period, whereas carbohydrateswere simultaneously exhausted in all other cutting parts includingthe petioles, thereby promoting leaf senescence. The positivecorrelation between initial N_t and root number disappeared afterstorage. Irrespectively of storage, higher pre-rooting leafglucose promoted subsequent sugar accumulation in the basalstem and final root number. The positive relationships betweeninitial sugar levels in the stems with cutting survival andin leaves with root formation under low light were confirmedin a sample survey with 21 cultivars provided from differentsources at low latitudes.

• Conclusions The results indicatethat adventitious rooting of pelargonium cuttings can be limitedby the initial amount of nitrogen reserves. However, this relationshipreveals only small plasticity and is superimposed by a predominanteffect of carbohydrate availability that depends on the initialleaf sugar levels, when high-light adaptation and low currentlight conditions impair net carbon assimilation.

Keywords: Adventitious rooting, senescence, nitrogen, sugars, carbohydrates, quality, storage, cuttings, geranium, Pelargonium x hortorum.

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