Agriculture, Vol. 15, Pages 2508: Effects of Queen Rearing Technology of Apis cerana by Cutting Comb on Reproductive Capacity and Productive Performance

Agriculture doi: 10.3390/agriculture15232508

Authors:
Yueyang Hu
Fangming Lu
Shuyun Li
Qizhong Pan
Yuyang Jiao
Yutong Jiang
Xiaobo Wu

The queen, as the reproductive core of a honeybee colony, has declining reproductive capacity with age, making it necessary to rear new queens to replace older ones. Traditional artificial queen-rearing methods face challenges, such as difficulties in larval grafting, particularly for Apis cerana. To address these issues, we developed a queen-rearing technology by cutting the comb. This study compared queen-rearing technology using comb cutting (CC) with larval grafting in A. cerana, measuring egg traits (length, width, weight), capped brood number, worker offspring initial weight, forager honey sac weight, worker morphology traits, and colony foraging efficiency. Queens reared using comb-cutting technology exhibited superior egg quality compared with those reared by larval grafting. The CC group showed significant improvements in egg length, egg weight, and number of capped brood cells (p < 0.05). Worker offspring from the CC group demonstrated significantly superior morphological traits—including forewing length, hindwing width, and lengths of the third and fourth tergites—as well as higher daily colony foraging activity, compared with those from the grafting larvae group (p < 0.05). Queen-rearing technology using CC effectively enhances the reproductive capacity and productive performance of colonies, promising high-quality queen rearing in A. cerana and sustainable beekeeping optimization.

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Yueyang Hu www.mdpi.com