Abstract
The sycamore lace bug Corythucha ciliata (Hemiptera: Tingidae), an invasive North American forest pest, owes its strong dispersal and adaptability to biological characteristics and symbiotic microbes, but the underlying mechanisms have not been fully elucidated. This study examined its outdoor-collected (LYGO) and indoor-reared (LYGI) populations using morphological observation, biological parameter assessment, and 16S rRNA sequencing. Key findings include: (1) Nymphs develop through five instars, with body size increasing significantly across stages; growth accelerated during 4th and 5th instars, reflecting a pattern of "low-instar accumulation and high-instar acceleration". (2) Adult survival differed by sex, with females outliving males after 30 days; nymphs develop in 14.81 days, and each adult pair produced an average of 17 eggs, demonstrating a concentrated reproductive strategy; (3) Both populations shared dominant bacterial taxa (including the phyla Bacteroidota and Proteobacteria and the genus Cardinium) but diverged in non-dominant taxa; core microbial functions were conserved, while specific functions (e.g., glutathione S-transferase activity) varied. These results suggest a potential synergy between the insect's biological characteristics (efficient development, concentrated reproduction) and the adaptive functions of its associated microbes in enhancing its invasiveness. The study supplements its basic biological data and offers a new view of its ecological adaptability.