The role of sink demand in carbon partitioning and photosynthetic reinvigoration following shoot decapitation |
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Authors: | Timothy J Tschaplinski Terence J Blake |
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Institution: | Environmental Sciences Division. Oak Ridge National Laboratory, P.O. Box-2008, Oak Ridge. TN 37831–6034. USA;Faculty of Forestry, Univ. of Toronto, Toronto, Ontario, Canada M5S 1A1. |
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Abstract: | Photosynthesis, growth, and carbon partitioning of vigorous coppice shoots were compared with the slower growing intact shoots of Populus maximowiczii × nigra L. MN9 to determine the relationship between carbon partitioning and photosynthetic rate. Relative height growth rate of coppice shoots was 2.2 times that of intact shoots with net photosynthetic rate 1.9 times that of intact shoots. Coppice leaves exported a larger proportion of newly-fixed assimilate (11% compared with 6%) after a 4-h chase. The greater export from coppice leaves was correlated with a greater proportion of 14C]-labelled photosynthate deposited as starch in stems 4 cm below the point of label application. Coppice leaf assimilate levels were reduced to 15% that of leaves on intact plants, but coppice leaves had twice the concentration of labelled sucrose. Carbohydrates constituted 55% of the water-soluble 14C]-labelled photosynthate in leaves of coppice shoots compared with 40% in intact shoots. The results suggest that carbon allocation and partitioning in coppice shoots were altered towards production and export of new assimilate, and support the hypothesis that photosynthetic rate is responsive to sink demand for assimilates. |
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Keywords: | Carbohydrate net photosynthesis Populus maximowiczii×nigra starch deposition |
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