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Forest-atmosphere BVOC exchange in diverse and structurally complex canopies: 1-D modeling of a mid-successional forest in northern Michigan

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Alexander M Bryan, Susan J. Cheng, Kirsti Ashworth, Alex B. Guenther, Brady S. Hardiman, Gil Bohrer, and Allison L. Steiner, 2015-11, Forest-atmosphere BVOC exchange in diverse and structurally complex canopies: 1-D modeling of a mid-successional forest in northern Michigan: Atmospheric Environment, v. 120, p. 217-226.

Summary

Abstract (from ScienceDirect): Foliar emissions of biogenic volatile organic compounds (BVOC)—important precursors of tropospheric ozone and secondary organic aerosols—vary widely by vegetation type. Modeling studies to date typically represent the canopy as a single dominant tree type or a blend of tree types, yet many forests are diverse with trees of varying height. To assess the sensitivity of biogenic emissions to tree height variation, we compare two 1-D canopy model simulations in which BVOC emission potentials are homogeneous or heterogeneous with canopy depth. The heterogeneous canopy emulates the mid-successional forest at the University of Michigan Biological Station (UMBS). In this case, high-isoprene-emitting foliage (e.g., [...]

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  • National and Regional Climate Adaptation Science Centers
  • Northeast CASC

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NCCWSC Science Themes
Wildlife and Plants
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journalAtmospheric Environment
parts
typeVolume
value120
typePages
value217-226
typeDOI
value10.1016/j.atmosenv.2015.08.094

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