Surface energy balance fluxes in a suburban area of Beijing: energy partitioning variability

Abstract

Measurements of radiative and turbulent heat fluxes for 16 months in suburban Miyun with a mix of buildings and agriculture allows the changing role of these fluxes to be assessed. Daytime turbulent latent heat fluxes (QE) are largest in summer and smaller in winter, consistent with the net all-wave radiation (Q∗), whereas the daytime sensible heat flux (QH) is greatest in spring but smallest in summer rather than in winter, as commonly observed in suburban areas. The results have larger seasonal variability in energy partitioning compared to previous suburban studies. Daytime energy partitioning is between 0.15-0.57 for QH/Q∗ (mean summer Combining double low line 0.16; winter Combining double low line 0.46), 0.06-0.56 for QE/Q∗ (mean summer Combining double low line 0.52; winter Combining double low line 0.10), and 0.26-7.40 for QH/QE (mean summer Combining double low line 0.32; winter Combining double low line 4.60). Compared to the literature for suburban areas, these are amongst the lowest and highest values. Results indicate that precipitation, irrigation, vegetation growth activity, and land use and land cover all play critical roles in the energy partitioning. These results will help to enhance our understanding of surface-atmosphere energy exchanges over cities and are critical to improving and evaluating urban canopy models needed to support integrated urban services that include urban planning to mitigate the adverse effects of urban climate change.