王丽娜,陈 燕,唐艳龙,钱正敏,魏 可,张彦龙,,利用松褐天牛蛹繁育花绒寄甲[J].环境昆虫学报,():
利用松褐天牛蛹繁育花绒寄甲
Efficiency of reproduction in Dastarcus helophoroides (Coleoptera: Bothrideridae) parasitizing Monochamus alternatus (Coleoptera: Cerambycidae) pupae
  
DOI:
中文关键词:  花绒寄甲  松褐天牛  子代数量  子代质量
英文关键词:Dastarcus helophoroides  Monochamus alternatus  offspring number  offspring quality
基金项目:
作者单位
王丽娜,陈 燕,唐艳龙,钱正敏,魏 可,张彦龙  
摘要点击次数: 3
全文下载次数: 1
中文摘要:
      花绒寄甲Dastarcus helophoroides是松材线虫Bursaphelenchus xylophilus传播媒介松褐天牛Monochamus alternatus的重要寄生性天敌。本试验通过在松褐天牛蛹上接种不同数量的花绒寄甲幼虫,观察其发育情况及其结茧数、羽化数、子代质量等指标,为花绒寄甲的繁育利用提供参考。结果表明:室内接种花绒寄甲1龄幼虫于松褐天牛蛹体上,5种不同接种量下寄生率均高于80%,花绒寄甲幼虫历期和蛹历期差异显著,每个松褐天牛蛹接种4头花绒寄甲幼虫时,幼虫历期和蛹历期最长,平均为11.0 d和30.1 d,接种量为6、8、10、12头/个时,幼虫历期缩短为8~9 d,蛹历期随接种数量增加逐渐缩短,最短仅22.1 d,比4头/个时缩短8 d左右。花绒寄甲结茧数、羽化数、结茧率、羽化率、繁殖成功率均呈先升后降趋势,8头/个时,结茧数和羽化数均最多,平均为7.3个和7.2个,结茧率、羽化率和繁殖成功率均最高,平均为91.4%、99.1%和90.6%;12头/个时,结茧率最低仅56.6%;4头/个时,羽化率和繁殖成功率最低,平均为81.3%和50.0%。5种接种量下,羽化的花绒寄甲成虫总质量差异极显著,6头/个时和8头/个时,总质量较大,平均为0.108 g/管和0.102 g/管,12头/个时最小,平均为0.050 g/管,比最大值下降了50%。随接种数量增加,花绒寄甲单头质量呈下降趋势,4头/个时,单头质量最大,平均为0.031 g/头,8头/个时,下降至平均0.014 g/头,最低仅0.007 g/头(12头/个时),不到最大个体的1/4。若要利用松褐天牛蛹繁育花绒寄甲种虫,以花绒寄甲单头质量为评价指标,接种数量4头/个时最佳,若繁育花绒寄甲投放于林间防治害虫,以羽化数和繁殖成功率为评价指标,以8头/个时收益最高。
英文摘要:
      Dastarcus helophoroides is a significant parasitic natural enemy of Monochamus alternatus that carry the Bursaphelenchus xylophilus illness. This study aims to investigate the rearing effect of D. helophoroides with the pupae of longhorned beetles. Different numbers of D. helophoroides 1st stage larvae were inoculated on the beetle pupae, and their developmental duration, cocooning number, eclosion number, and offspring quality were observed in this paper. According to the findings, in laboratory conditions, the parasitism rates of D. helophoroides larvae on M. alternatus pupae were found to be above 80%. Significant differences were observed between the larval stage and pupal stage. When four larvae were inoculated onto one host, both the larval stage (11.0 days) and pupal stage (30.1 days) were longest compared to other treatments where the larval stage lasted about 8~9 days. The pupal stage was shortened with an increase in the number of inoculated larvae, with the shortest pupal stage lasting approximately 22.1 days. The number of cocoons, size of the offspring, cocooning rate, eclosion rate and success rearing rate all exhibited a trend of initially increasing and then decreasing with the addition of inoculated numbers. Specifically, the highest cocooning number (7.3) and eclosion number (7.2) were observed when eight larvae were inoculated per host in five treatments. Additionally, the cocooning rate, eclosion rate and success rearing rate were highest at this inoculation density, while the eclosion rate and success rearing rate were lowest when four parasitoid larvae were used. Significant differences in total adult weight among the five treatments were also noted; specifically, when six or eight larvae were inoculated, their total adult weights (0.108 g and 0.102 g respectively) exceeded those of other treatments. Conversely, the total adult weight was lowest at an inoculation density of 12 larvae per host (0.007 g). The single adult weight decreased as the inoculated number increased; it reached its peak at 0.031 g with an inoculation density of four larvae per host but dropped to 0.014 g with eight larvae per host before reaching its lowest point at 0.007 g with twelve larvae per host. In general, smaller numbers of inoculated larvae resulted in larger body sizes for the offspring adults; therefore, an optimal inoculation density for breeding adults would be four larvae per host and the evaluation index is the single adult weight, whereas if more adults are desired for release into the field then an optimal inoculation density would be eight larvae per host and the evaluation index are eclosion number and success rearing rate.
查看全文  查看/发表评论  下载PDF阅读器
关闭