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Zusammenfassung:
Non-structural carbohydrates (NSCs) are critical to maintain plant metabolism under stressful environmental conditions, but we
do not fully understand how NSC allocation and utilization from storage varies with stress. While it has become established that
storage allocation is unlikely to be a mere overflow process, very little empirical evidence has been produced to support this view,
at least not for trees. Here we present the results of an intensively monitored experimental manipulation of whole-tree carbon
(C) balance (young Picea abies (L.) H Karst.) using reduced atmospheric [CO2] and drought to reduce C sources. We measured specific C storage pools (glucose, fructose, sucrose, starch) over 21 weeks and converted concentration measurement into fluxes
into and out of the storage pool. Continuous labeling (13C) allowed us to track C allocation to biomass and non-structural C
pools. Net C fluxes into the storage pool occurred mainly when the C balance was positive. Storage pools increased during periods of positive C gain and were reduced under negative C gain. 13C data showed that C was allocated to storage pools independent
of the net flux and even under severe C limitation. Allocation to below-ground tissues was strongest in control trees
followed by trees experiencing drought followed by those grown under low [CO2]. Our data suggest that NSC storage has, under the conditions of our experimental manipulation (e.g., strong progressive drought, no above-ground growth), a high allocation
priority and cannot be considered an overflow process. While these results also suggest active storage allocation, definitive proof
of active plant control of storage in woody plants requires studies involving molecular tools.