To study the effects of autumn irrigation on evaporation from seasonal frozen soils,field experiments were car...
Zhenyang PENG,Jiesheng HUANG,Jingwei WU,Abuduheni,Wenzhi ZENG State Key Laboratory of Water Resource and Hydropower Engineering Science,Wuhan University,Wuhan 430072,China
Dry drainage is thought to be a potential approach to control soil salinity. This study took the Hetao Irrigation District as an example and evaluated the effectiveness of dry drainage by using remote sensing, a conceptual model and a field experiment. Archived remote sensing images from 1973―2006 were used to delineate the temporal and spatial change of soil salinity. The conceptual water and salt balance model was used to evaluate the role of dry drainage in removing excess salt from the irrigated land. The field experiment was performed to get field validation and give more accurate estimation. The results show that dry drainage did contribute to remove excess salt from the irrigated land and succeed in controlling soil salinity in the Hetao Irrigation District. It can be taken as an alternative approach in (semi-)arid area where artificial drainage is not applicable.
The SEBAL (surface energy balance algorithm for land) model provides an efficient tool for estimating the spatial distribution of evapotranspiration,and performs a simple adjustment procedure to calculate sensible heat flux using the wind speed data set from only one weather station.This paper proposes a simplified method to modify the traditional SEBAL model for calculating the 24-hour evapotranspiration () in the Haihe Basin with data from 34 weather stations.We interpolated the wind speeds using the inverse distance weighting method to establish a wind field and then used it to calculate the friction velocity directly.This process also simplifies the iterative computation process of sensible heat flux.To validate the feasibility of this simplified method,we compared the results with those obtained with an appropriate but more complex method proposed by Tasumi,which separates a vast area into several sub-areas based on the weather conditions,and runs the SEBAL model separately in each sub-area.The results show good agreement between the evapotranspiration generated by the two methods,with a coefficient of determination (r2) of 0.966,which indicates the feasibility of estimating evapotranspiration over a large region with the simplified method.
