Table 3. Sum of wi (an indicator of relative importance in the model) for variables (terms) from selection of models predicting flight of Pityophthorus juglandis in response to ambient temperature (T), light intensity (L), wind speed (W), and barometric pressure (P) and their interactions.
| Variable | Times included inmodels | Female | Male |
| First-order | |||
| Temperature (T) | 87 | 1.000(1) | 1.000(1) |
| Light (L) | 87 | 1.000(1) | 1.000(1) |
| Wind (W) | 87 | 1.000(1) | 1.000(1) |
| Pressure (P) | 87 | 1.000(1) | 1.000(1) |
| Second-order interactions | |||
| T×L | 48 | 1.000(1) | 1.000(1) |
| T×W | 48 | 0.753(2) | 0.575(3) |
| T×P | 48 | 0.987(1) | 0.957(1) |
| L×W | 48 | 0.611(3) | 0.560(3) |
| L×P | 48 | 0.998(1) | 0.875(2) |
| W×P | 48 | 0.645(3) | 0.561(3) |
| Third-order interactions | |||
| T×L×W | 9 | 0.266(2) | 0.218(1) |
| T×L×P | 9 | 0.191(3) | 0.105(2) |
| T×W×P | 9 | 0.166(3) | 0.104(2) |
| L×W×P | 9 | 0.361(1) | 0.246(1) |
| Fourth-order interactions | |||
| T×L×W×P | 1 | 0.016(1) | 0.008(1) |
A total of 94 models (Appendix S2) were tested. wi indicates the relative likelihood of the model i being the best model given the data. Computation and interpretation of statistics followed [29]. Superscripted numbers in parentheses denote ranks of the sum of wi across terms appeared the same number of times in the models. See Appendix S3 (Female) and S4 (Male) for detailed statistics.