Subgrid snow depth coefficient of variation spanning alpine to sub-alpine mountainous terrain

Autor:	Steven R. Fassnacht, Juan I. López-Moreno, Graham A. Sexstone, Christopher A. Hiemstra
Rok vydání:	2022
Předmět:	Canopy Mountainous terrain Coefficient of variation Geography Planning and Development Earth and Planetary Sciences (miscellaneous) Range (statistics) Environmental science Terrain Environmental Science (miscellaneous) Snowpack Atmospheric sciences Snow Scale model
Zdroj:	Cuadernos de Investigación Geográfica. 48:79-96
ISSN:	1697-9540 0211-6820
DOI:	10.18172/cig.4951
Popis:	Given the substantial variability of snow in complex mountainous terrain, a considerable challenge of coarse scale modeling applications is accurately representing the subgrid variability of snowpack properties. The snow depth coefficient of variation (CV ds ) is a useful metric for characterizing subgrid snow distributions but has not been well defined by a parameterization for mountainous environments. This study utilizes lidar-derived snow depth datasets spanning alpine to sub-alpine mountainous terrain in Colorado, USA to evaluate the variability of subgrid snow distributions within a grid size comparable to a 1000 m resolution common for hydrologic and land surface models. The subgrid CV ds exhibited a wide range of variability across the 321 km 2 study area (0.15 to 2.74) and was significantly greater in alpine areas compared to subalpine areas. Mean snow depth was the dominant driver of CV ds variability in both alpine and subalpine areas, as CV ds decreased nonlinearly with increasing snow depths. This negative correlation is attributed to the static size of roughness elements (topography and canopy) that strongly influence seasonal snow variability. Subgrid CV ds was also strongly related to topography and forest variables; important drivers of CV ds included the subgrid variability of terrain exposure to wind in alpine areas and the mean and variability of forest metrics in subalpine areas. Two statistical models were developed (alpine and subalpine) for predicting subgrid CV ds that show reasonable performance statistics. The methodology presented here can be used for characterizing the variability of CV ds in snow-dominated mountainous regions, and highlights the utility of using lidar-derived snow datasets for improving model representations of snow processes.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::8f87bfea1b1161bd4beb7c3d852a5611 https://doi.org/10.18172/cig.4951 Zobrazit plný text záznamu