Translocation and Accumulation of Translocate in the Sugar Beet Petiole
Document Type
Article
Publication Date
12-1-1969
Publication Source
Plant Physiology
Abstract
Accumulation of translocate during steady-state labeling of photosynthate was measured in the source leaf petioles of sugar beet (Beta vulgaris L. monogerm hybrid). During an 8-hr period, 2.7% of the translocate or 0.38 μg carbon/min was accumulated per cm petiole. Material was stored mainly as sucrose and as compounds insoluble in 80% ethanol. The minimum peak velocity of translocation approached an average of 54 cm/hr as the specific activity of the 14CO2 pulse was progressively increased. The ratio of cross sectional area required for translocation to actual sieve tube area in the petiole was 1.2. A regression analysis of translocation rate versus sieve tube cross sectional area yielded a coefficient of 0.76. The specific mass transfer rate in the petiole was 1.4 g/hr cm2 phloem or 4.8 g/hr cm2 sieve tube. Histoautoradiographic studies indicated that translocation occurs through the area of phloem occupied by sieve tubes and companion cells while storage occurs in these cells plus cambium and phloem parenchyma cells. The ability of the petiole to act as a sink for translocate is consistent with the concept that storage along path tissue serves to buffer sucrose concentration in the translocate during periods of fluctuating assimilation.
Inclusive pages
1657-1665
ISBN/ISSN
0032-0889
Publisher
American Society of Plant Biologists
Volume
44
Peer Reviewed
yes
eCommons Citation
Geiger, Donald R.; Saunders, M. A.; and Cataldo, Dominic A., "Translocation and Accumulation of Translocate in the Sugar Beet Petiole" (1969). Biology Faculty Publications. 54.
https://ecommons.udayton.edu/bio_fac_pub/54