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The Effects of Canopy Morphology on Flow Over a Two‐Dimensional Isolated Ridge

Authors :
Ma, Yulong
Liu, Heping
Banerjee, Tirtha
Katul, Gabriel G.
Yi, Chuixiang
Pardyjak, Eric R.
Source :
Journal of Geophysical Research - Atmospheres; October 2020, Vol. 125 Issue: 19
Publication Year :
2020

Abstract

Momentum and mass exchanges between the atmosphere and forests situated on complex terrain continue to draw significant research attention primarily because of their significance to a plethora of applications. In this paper, we investigated flows behavior on the leeward side of a two‐dimensional forested ridge under neutrally stratified conditions using large‐eddy simulations (LESs). The goal is to understand how variations in leaf area index (LAI), vertical canopy foliage distributions, and forest edge positions affect mean/turbulent flow statistics, momentum fluxes, and onset of recirculation patterns. Although pressure perturbations are dominated by the hill shape, it is demonstrated here that changes in canopy foliage distribution modulate intensities and patterns of the leeward adverse pressure gradients. Such changes in the adverse pressure gradients alter the mean velocity streamlines including the patterns and magnitudes of the leeward downward mean vertical velocity and the velocity variances and momentum flux in the wake region. While a downwind recirculation zone develops in all cases, the details regarding the incipient location and recirculation zone size vary including positions of the separation and reattachment points. Furthermore, changes in the strength and depth of the zone occur due to canopy‐induced changes in adverse pressure gradients, advection, and canopy drag. Because the recirculation zone impacts the local mean advective terms in momentum and scalar exchanges, the simulations here indicate that canopy morphology‐induced changes in the leeward flows have significant implications to both measurements and models of biosphere‐atmosphere exchange over complex terrain. Flows over the leeward side of a partially and fully forested hill are studied using a multiple‐layer canopy module in the WRF‐LESCanopy morphologies and partial forest cover lead to pressure perturbations that deviate from hydrostatic approximationThe leeward recirculation is altered by canopy morphological changes and partily modulated the pressure‐velocity interaction

Details

Language :
English
ISSN :
2169897X and 21698996
Volume :
125
Issue :
19
Database :
Supplemental Index
Journal :
Journal of Geophysical Research - Atmospheres
Publication Type :
Periodical
Accession number :
ejs54399131
Full Text :
https://doi.org/10.1029/2020JD033027