Cold hardiness characteristic of the overwintering pupae of fall webworm Hyphantria cunea (Drury) (Lepidoptera: Arctiidae) in the northeast of China

•The supercooling point of fall webworm varied significantly among different places in the northeast of China.•The water content in overwintering pupae of fall webworm had a significantly positive correlation with the SCP.•The trehalose content in the hemolymph of fall webworm was remarkably different month by month.•The THA existed in the pupae and larvae of fall webworm.

The fall webworm, Hyphantria cunea (Drury) (Lepidoptera: Arctiidae), is an invasive and important pest in China. Understanding the physiological–biochemical characteristics of the overwintering pupae is essential for its cold tolerance and potential distribution in the northeast of China. Results indicated that the supercooling point (SCP) of H. cunea overwintering pupae varied significantly among Jilin city (43°N, 126°E), Jilin Province, Shenyang (41.8°N, 123.4°E), Liaoning Province and Yingkou (40.39°N, 122.13°E), Liaoning Province. The average SCP in Jilin was the lowest (− 23.49 ± 0.46 °C) in those of three areas. The water content in overwintering pupae had a significant positive correlation with the SCP (R = 0.848,P = 0.03). Contents of alanine (ALA) (26.00%), lysine (LYS) (30.51%) and arginine (ARG) (22.88%) in the overwintering pupae's hemolymph were higher than others. During the overwintering, the fat content in pupae's bodies decreased gradually. Analysis of variance (ANOVA) indicated that the content of trehalose in the body of H. cunea was remarkably different (P = 0.007) month by month, with the maximum in March (2.88 mg·mL− 1) and the minimum (0.40 mg·mL− 1) in November. Pearson's correlation test indicated that SCP had a significant negative correlation with the SOD enzyme activity (R = − 0.850; P = 0.008). Thermal hysteresis activity (THA) of hemolymph was 0.68°C and 0.7–0.8°C for H. cunea pupae and larva, respectively, using differential scanning calorimetry, which suggests that the H. cunea can improve their cold tolerance through producing antifreeze proteins. These results could help us to predict the distribution of the H. cunea in the northeast of China.

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