Publications

Shoko, C; Clark, DJ; Mengistu, MG; Bulcock, H; Dube, T (2016). Estimating spatial variations of total evaporation using multispectral sensors within the uMngeni catchment, South Africa. GEOCARTO INTERNATIONAL, 31(3), 256-277.

Abstract
Total evaporation is of importance in assessing and managing long-term water use, especially in water-limited environments. Therefore, there is need to account for water utilisation by different land uses for well-informed water resources management and future planning. This study investigated the feasibility of using multispectral Landsat 8 and moderate resolution imaging spectroradiometer (MODIS) remote sensing data to estimate total evaporation within the uMngeni catchment in South Africa, using surface energy balance system. The results indicated that Landsat 8 at 30m resolution has a better spatial representation of total evaporation, when compared to the 1000m MODIS. Specifically, Landsat 8 yielded significantly different mean total evaporation estimates for all land cover types (one-way ANOVA; F-4.964=87.011, p<0.05), whereas MODIS failed to differentiate (one-way ANOVA; F-2.853=0.125, p=0.998) mean total evaporation estimates for the different land cover types across the catchment. The findings of this study underscore the utility of the Landsat 8 spatial resolution and land cover characteristics in deriving accurate and reliable spatial variations of total evaporation at a catchment scale.

DOI:
10.1080/10106049.2015.1047414

ISSN:
1010-6049