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. 2012 Jul;195(2):419-426.
doi: 10.1111/j.1469-8137.2012.04171.x. Epub 2012 May 23.

Effects of jasmonic acid, branching and girdling on carbon and nitrogen transport in poplar

Heidi M Appel  1 Thomas M Arnold  2 Jack C Schultz  1
Affiliations
Free article

Effects of jasmonic acid, branching and girdling on carbon and nitrogen transport in poplar

Heidi M Appel et al. New Phytol. 2012 Jul.
Free article

Abstract

• Here, we examined the impact of jasmonate (JA) treatment, branching and phloem girdling on ¹³C and ¹⁵N import, invertase activity and polyphenol accumulation in juvenile tissues of unbranched and branched hybrid poplar saplings (Populus nigra × P. deltoides). • The import of ¹³C to juvenile tissues was positively correlated with invertase activity at the treatment site and enhanced by JA. Both invertase activity and ¹³C import were greater in shorter, younger branches and smaller, younger leaves. By contrast, JA treatments, branching and girdling had little or no impact on ¹⁵N import. • In poplar saplings with multiple lateral branches, we observed almost no ¹³C movement from subtending source leaves into lateral branches above them, with or without JA treatment. The presence of potentially competing branches, treated with JA or not, girdled or not, had no impact on carbohydrate (CHO) import or polyphenol accumulation in target branches. • We conclude that poplar branches comprise modules that are relatively independent from each other and from the stem below in terms of CHO movement, carbon-based defence production and response to elicitors. By contrast, branches are closely linked modules in terms of nitrogen movement. This should produce trees that are highly heterogeneous in quality for herbivores.

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References

    1. Appel HM, Govenor KL, D’Ascenzo M, Siska E, Schultz JC. 2001. Limitations of Folin assays of foliar phenolics in ecological studies. Journal of Chemical Ecology 27: 761-778.
    1. Arnold TM, Appel HM, Patel V, Stocum E, Kavalier A, Schultz JC. 2004. Carbohydrate translocation determines the phenolic content of Populus foliage: a test of the sink-source model of plant defense. New Phytologist 164: 157-164.
    1. Arnold TM, Schultz JC. 2002. Induced sink strength as a prerequisite for induced tannin biosynthesis in developing leaves of Populus. Oecologia 130: 585-593.
    1. Babst B, Ferrieri RA, Gray DW, Thorpe MR, Lerdau M, Schlyer D, Schueller M, Thorpe M, Orians CM. 2005. Jasmonic acid induces rapid changes in carbon transport and partitioning in Populus. New Phytologist 167: 63-72.
    1. Babst BA, Ferrieri RA, Thorpe MR, Orians CM. 2008. Lymantria dispar herbivory induces rapid changes in carbon transport and partitioning in Populus nigra. Entomologia Experimentalis et Applicata 128: 117-125.

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