Integration of aspect and slope in snowmelt runoff modeling in a mountain watershed

• Published in: Water Science and Engineering Vol. 9; no. 4; pp. 265 - 273
• Main Authors: Abudu, Shalamu, Sheng, Zhu-ping, Cui, Chun-liang, Saydi, Muatter, Sabzi, Hamed-Zamani, King, James Phillip
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.10.2016; Texas A&M AgriLife Research and Extension Center at El Paso,El Paso,TX 79927-5020,USA; Xinjiang Water Resources Research Institute,Urumqi 830049,China%Texas A&M AgriLife Research and Extension Center at El Paso,El Paso,TX 79927-5020,USA%Xinjiang Water Resources Research Institute,Urumqi 830049,China%Civil Engineering Department,New Mexico State University,Las Cruces,NM 88003-8006,USA; Elsevier
• Subjects: and; area; Aspect; Aspect and slope; cover; DDF; Degree-day; Degree-day factor (DDF); factor; Precipitation; runoff; slope; Snow; Snow cover area; Snowmelt; Snowmelt runoff model (SRM); SRM; Temperature; Temperature; Precipitation; Aspect and slope; Snow cover area; Snowmelt runoff model (SRM); Degree-day factor (DDF)
• ISSN: 1674-2370; 2405-8106; 2405-8106
• DOI: 10.1016/j.wse.2016.07.002

This study assessed the performances of the traditional temperature-index snowmelt runoff model (SRM) and an SRM model with a finer zonation based on aspect and slope (SRM t AS model) in a data-scarce mountain watershed in the Urumqi River Basin, in Northwest China.The proposed SRM t AS model was used to estimate the melt rate with the degree-day factor (DDF) through the division of watershed elevation zones based on aspect and slope. The simulation results of the SRM t AS model were compared with those of the traditional SRM model to identify the improvements of the SRM t AS model's performance with consideration of topographic features of the watershed. The results show that the performance of the SRM t AS model has improved slightly compared to that of the SRM model. The coefficients of determination increased from 0.73, 0.69, and 0.79 with the SRM model to 0.76, 0.76, and 0.81 with the SRM t AS model during the simulation and validation periods in 2005, 2006, and 2007, respectively. The proposed SRM t AS model that considers aspect and slope can improve the accuracy of snowmelt runoff simulation compared to the traditional SRM model in mountain watersheds in arid regions by proper parameterization, careful input data selection, and data preparation.