Oasis effect may have significant impacts on the crop water use in irrigated fields of extremely arid conditions. Studies on crop coefficients and its relevant influence factors are essential to accurately determine the irrigation scheduling under such conditions. A two-year experiment was conducted in an irrigated vineyard to estimate evapotranspiration (ET) and its two components: evaporation (E) and crop transpiration (T), and to develop appropriate region-specific crop coefficients (K-c, K-cb) in arid Northwest China. The contributions of "oasis effect" to the relationships of both K-c and K-cb to canopy conductance (G(c)) and leaf area index (LAI) were investigated. Local values of K-c for evapotranspiration and crop transpiration (K-cb) were calculated using the field data and the dual-K-c approach. The daily ET ranged from 0.80 to 9.87 mm d(-1) and from 0.99 to 8.73 mm d(-1) in 2014 and 2015, respectively, with corresponding T/ET values amounting to approximately 58.4% and 55.1%. The locally averaged K-c values were 0.79, 1.31, and 1.08 during the initial, middle, and late growth stages, respectively, versus corresponding K-cb values of 0.17, 0.97, and 0.64. Arid advection accounted for 16.9 to 57.4% and from 1.4 to 49.0% of daily K-c during the two study periods. Both K-c and K-cb to LAI is a linear regression but to G(c) is an exponential one. LAI is a better indicator than

• 单位
  兰州大学