TY - JOUR
PY - 2018//
TI - Land cover change, surface mining, and their impacts on a heavy rain event in the Appalachia
JO - Annals of the American Association of Geographers
A1 - Rodgers, William
A1 - Mahmood, Rezaul
A1 - Leeper, Ronald
A1 - Yan, Jun
SP - 1187
EP - 1209
VL - 108
IS - 5
N2 - It is hypothesized that land cover change (LCC), driven by mountain top removal (MTR), in the Appalachian region of eastern Kentucky would change biogeophysical properties of land surface and subsequently various atmospheric boundary layer parameters and precipitation. In this research, we have conducted model-based sensitivity experiments of atmospheric response of a significant flash flood-producing rainfall event by modifying land cover and topography. These reflect recent LCC, including MTR. We have used the Weather Research and Forecasting (WRF) model for this purpose. The study found changes in amount, location, and timing of precipitation. LCC also modified various surface fluxes, moist static energy, planetary boundary layer height, and local-scale wind circulation. This study reports that there was an increase in sensible heat flux (H) for bare soil simulation (post-MTR) compared to pre-MTR conditions (increased elevation with no altered land cover). Allowing for growth of vegetation, the grass simulation resulted in a decrease in H. With regard to latent heat flux (LE), there was a notable decrease from pre-MTR to post-MTR simulations. For the grass and forest simulations, LE increased and were comparable to the pre-MTR simulation. Under the pre-MTR condition, the total precipitation was at its highest level. For the simulated loss of vegetation (bare soil) and elevation (post-MTR), there was a decrease in precipitation. With grass land cover, precipitation increased in all areas of interest. Forest land cover resulted in slightly higher simulated precipitation than grass. Language: en
LA - en
SN - 2469-4452
UR - http://dx.doi.org/10.1080/24694452.2018.1460249
ID - ref1
ER -