NUMERICAL SIMULATION OF THE PATHWAYS OF MIGRATING INSECTS

  Based on boundary layer meteorology and behavioural ecology of insect migration, a numerical TRA model was established. The spatial and temporal resolutions of the standard meteorological data are far insufficient for insect migration studies; so, a one dimension TKE closure scheme (E‐ε scheme) was adopted to simulate the wind and temperature profiles en route based on the conventional surface and 850 hPa wind and temperature data of Chinese National Meteorological Bureau. Then the migrating behaviour of insects was parameterized as some proper mathematical expressions to determine their timing and their flight height, speed and direction from the wind and temperature profiles simulated by the PBL sub‐model, and so their flight pathways could be estimated by a simple algorithm. Finally, the hourly episodes of the airborne migrants were output which consists of the latitude, longitude and flying altitude. The TRA model was verified by mark‐release‐recapture studies of Mythimna separata, Loxostege sticticalis , and Agrotis ipsilon . The results suggest that the parameterizing scheme of migratory behaviour, the numerical simulation scheme of wind and temperature in PBL and the TRA procedure developed in this paper should be reasonable and feasible. This model provides a useful tool for inter‐regional forecast of migratory insect pests.