Linking ice accretion and crown structure: towards a model of the effect of freezing rain on tree canopies

Abstract : Background and Aims: Despite a longstanding interest in variation in tree species vulnerability to ice storm damage, quantitative analyses of the influence of crown structure on within-crown variation in ice accretion are rare. In particular, the effect of prior interception by higher branches on lower branch accumulation remains unstudied. The aim of this study was to test the hypothesis that intra-crown ice accretion can be predicted by a measure of the degree of sheltering by neighbouring branches.Methods: Freezing rain was artificially applied to Acer platanoides L., and in situ branch-ice thickness was measured directly and from LiDAR point clouds. Two models of freezing rain interception were developed: ‘IceCube’, which uses point clouds to relate ice accretion to a voxel-based index (sheltering factor; SF) of the sheltering effect of branch elements above a measurement point; and ‘IceTree’, a simulation model for in silico evaluation of the interception pattern of freezing rain in virtual tree crowns.Key Results: Intra-crown radial ice accretion varied strongly, declining from the tips to the bases of branches and from the top to the base of the crown. SF for branches varied strongly within the crown, and differences among branches were consistent for a range of model parameters. Intra-crown variation in ice accretion on branches was related to SF (R2 = 0·46), with in silico results from IceTree supporting empirical relationships from IceCube.Conclusions: Empirical results and simulations confirmed a key role for crown architecture in determining intra-crown patterns of ice accretion. As suspected, the concentration of freezing rain droplets is attenuated by passage through the upper crown, and thus higher branches accumulate more ice than lower branches. This is the first step in developing a model that can provide a quantitative basis for investigating intra-crown and inter-specific variation in freezing rain damage.
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Soumis le : vendredi 26 avril 2019 - 15:38:10
Dernière modification le : samedi 27 avril 2019 - 01:36:15

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Charles A. Nock, Bastien Lecigne, Olivier Taugourdeau, David F. Greene, Jean Dauzat, et al.. Linking ice accretion and crown structure: towards a model of the effect of freezing rain on tree canopies. Annals of Botany, Oxford University Press (OUP), 2016, 117 (7), pp.1163-1173. ⟨10.1093/aob/mcw059⟩. ⟨hal-02112279⟩

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