文章摘要
李宏斌,李思广,杨 斌.抗微红梢斑螟高产脂思茅松优良无性系选择[J].林业调查规划,2024,49(5):32-35
抗微红梢斑螟高产脂思茅松优良无性系选择
Superior Clone Selection of Pinus kesiya var. langbianensis withHigh Resin Yield and Resistance to Dioryctria rubella
  
DOI:
中文关键词: 思茅松  优良无性系  微红梢斑螟  抗虫性  受害梢率  产脂量  化学组分
英文关键词: Pinus kesiya var. langbianensis  superior clone  Dioryctria rubella  insect resistance  damaged treetop rates  resin yield  chemical components
基金项目:云南省创新团队项目(202105AE160008);云南省林业和草原科学院创新基金“材脂兼用思茅松无性系选择及松脂主要化学组分含量功能基因定位研究”(MS2020-01);云南省林业和草原科学院创新团队“碳中和及用材林培育研究团队”.
作者单位
李宏斌 普洱市职业教育中心,云南 普洱 665000 
李思广 云南省林业和草原科学院,云南 昆明 650201
国家林业草原思茅松工程技术研究中心,云南 思茅 665000 
杨 斌 云南省林业和草原科学院,云南 昆明 650201
国家林业草原思茅松工程技术研究中心,云南 思茅 665000 
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中文摘要:
      通过测定40个思茅松无性系及1个对照的产脂量、受害梢率及松脂化学组分,研究思茅松无性系间的遗传变异。结果表明,所有无性系产脂量均大于对照产量,抗虫性遗传力为0.62,思茅松无性系间抗虫性存在极显著差异。初步选择出5 个抗微红梢斑螟高产脂思茅松优良无性系,其平均产脂量是对照的3倍多,其平均受害梢率仅为1.12%,约为对照的19%。受害梢率与3-蒈烯、γ-松油烯呈极显著正相关,与石竹烯、长叶烯和β-长叶蒎烯呈极显著负相关,表明3-蒈烯、γ-松油烯 含量高的无性系易受红梢斑螟危害,而石竹烯、长叶烯和β-长叶蒎烯含量高的无性系抗虫性较高,这3种化学组分可作为思茅松抗虫指标。
英文摘要:
      This study measured the resin yield, damaged treetop rate, resin chemical composition of 40 high-resin-yield clones and a control of Pinus kesiya var. langbianensis, and analyzed the genetic variation between clones. The results indicated that the resin yield of all the clones were higher than that of the control, the heritability of insect resistance was 0.62. The insect resistance of Pinus kesiya var. langbianensis clones was significantly different. 5 high-resin-yield clones with resistance to Dioryctria rubella were preliminary selected. The average resin yield of the selected closes was more than 3 times of the control, the average damaged treetop rate was only 1.12%, was about 19% of the control. The damaged treetop rate was significantly positively correlated with 3-carene and γ-terpinene, and significantly negatively correlated with caryophyllene, longifolene and β-longipinene. The results indicated that clones with high content of 3-carene and γ - terpinene were more susceptible to Dioryctria rubella, while clones with high content of caryophyllene, longifolene and β-longipinene had higher insect resistance. These three chemical components can be used as insect resistance indicators for Pinus kesiya var. langbianensis.
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