Do competition and herbivory alter the internal nitrogen dynamics of birch saplings?

$\bullet$ Deciduous trees recycle nitrogen within their tissues. The aim of this study was to test the hypothesis that reductions in plant growth, caused by competition and herbivory, reduce the sink strength for N during autumn nutrient withdrawal, and reduce the storage capacity and hence the amou...

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Bibliographic Details
Published in:The New phytologist 2005-11, Vol.168 (2), p.413-422
Main Authors: Millett, J., Millard, P., Hester, A. J., McDonald, A. J. S.
Format: Article
Language:English
Subjects:
Animals
Betula - growth & development
Betula - metabolism
Betula pubescens
Biological and medical sciences
Biological competition
Browsing
Calluna vulgaris
Diet
Ecological competition
Ecosystem
Fundamental and applied biological sciences. Psychology
Herbivores
interspecific competition
Leaves
Metabolism
Models, Biological
Molinia caerulea
Nitrogen
Nitrogen - metabolism
nitrogen fertilizers
nitrogen translocation
nutrient remobilization
nutrient uptake
physiological transport
plant ecology
Plant interaction
plant interactions
Plant Leaves - metabolism
Plant nutrition
plant physiology
Plant physiology and development
Plants
resorption efficiency
Saplings
Seasons
seedlings
source-sink relationships
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Summary:$\bullet$ Deciduous trees recycle nitrogen within their tissues. The aim of this study was to test the hypothesis that reductions in plant growth, caused by competition and herbivory, reduce the sink strength for N during autumn nutrient withdrawal, and reduce the storage capacity and hence the amount of N remobilized in the following spring. $\bullet$ We used $^{15}N-labelled$ fertilizer to quantify N uptake, leaf N withdrawal and remobilization. Betula pubescens saplings were grown with either Molinia caerulea or Calluna vulgaris, and subjected to simulated browsing damage. $\bullet$ Competition reduced B. pubescens leaf N withdrawal and remobilization, with C. vulgaris having a greater effect than M. caerulea. However, simulated browsing had no significant effect on sapling N dynamics. The patterns of leaf N withdrawal and remobilization closely followed sapling dry mass. $\bullet$ We conclude that the effect of competition on sapling mass reduces their N-storage capacity. This reduces sink strength for leaf N withdrawal and the source strength for remobilized N. The ability of saplings to compensate for browsing damage removed any potential effect of browsing on N dynamics.
ISSN:0028-646X
1469-8137
DOI:10.1111/j.1469-8137.2005.01510.x