复眼是昆虫的主要视觉器官,对于其寻找食物、配偶、栖息场所以及学习记忆等活动具有重要作用。本研究采用扫描电镜和石蜡切片技术对异色瓢虫显现变种Harmonia axyridisab.conspicua复眼的外部形态和内部显微结构进行了观察。结果发现:(1)复眼近椭圆形,位于头部两侧,触角窝处有缺刻,小眼表面光滑平坦,无角膜乳突结构。其雌、雄成虫复眼的小眼数分别约为705和691;(2)复眼中心区域小眼呈六边形,排列紧密,边缘区域的小眼为不规则的四边形或五边形;(3)每个小眼由角膜、晶锥、8个小网膜细胞、视杆、基膜以及色素细胞组成。晶锥由4个晶锥细胞构成,8个小网膜细胞中6个位于边缘、2个位于中央;(4)暗条件下复眼显微结构存在明显差异:光适应条件下,色素颗粒主要分布在晶锥和视杆交界处的周围,周围视杆呈环形,内、外两侧均被色素颗粒包围;暗适应条件下,色素颗粒发生纵向移动,均匀地分布在晶锥和视杆的周围,周围视杆发生扭曲呈不规则的多角形,仅外侧有色素颗粒分布。结果表明,异色瓢虫显现变种的复眼属于并列复眼,可通过色素颗粒的纵向移动以及周围视杆扭曲变形等机制来适应外界明暗环境的变化。 Compound eyes are the main visual organs of insects and play an important role in finding food, spouses, habitats and learning and memory activities. In this study, the morphology and internal microstructure of Harmonia axyridisab.conspicua compound eyes were observed by scanning electron microscopy and paraffin section. The results showed that: (1) The compound eyes were nearly oval, located on both sides of the head. There were notches in the fossa of the antennae. The surface of the small eye was smooth and flat, and there was no corneal papillary structure. (2) The small eyes in the center of the compound eye are hexagonal, closely arranged, the small eyes in the marginal area are irregular quadrilateral or pentagonal; (3) ) Each small eye by the cornea, cone, 8 retinal cells, rod, basement membrane and pigment cells. The crystal cone consisted of 4 cones, 6 of the 8 retinal cells located at the edge and 2 located in the center. (4) There was a significant difference in the microstructure of the compound eye under dark conditions: under light adaptation, the pigment particles were mainly distributed Around the cone and the rod at the junction, around the rod as a ring, both inside and outside are surrounded by pigment particles; dark adaptation conditions, the longitudinal movement of the pigment particles evenly distributed around the cone and rod , Around the rod distortion was irregular polygons, only the outer pigment particles distribution. The results showed that the compound eyes of the variegated ladybugs belonged to the compound eyes, which could adapt to the change of the light and dark environment through the longitudinal movement of the pigment granules and the distortion of the surrounding rods.