本文对云杉八齿小蠹化学生态的研究进展进行了综述.云杉八齿小蠹在中欧的大面积爆发激发了广大林业科学工作者对其化学生态学的广泛研究.在寻找寄主的过程中,雄性找到寄主后释放化学信息物质吸引雄性和雌性的聚集.开始发起进攻的小蠹在找寻寄主的过程中能利用寄主树脂作为利己素,并能够在体内解毒后合成可被利用的化学信息物质.在云杉八齿小蠹雄性的中肠中,我们发现9种单萜类化合物,主要是反式马鞭草烯醇和2-甲基3-己烯2-醇,这两种物质被认为是云杉八齿小蠹聚集信息素的主要成分.小蠹二烯醇的含量虽然很低但是能显著提高马鞭草烯醇和2-甲基3-己烯2-醇的野外诱集作用.马鞭草烯酮和小蠹烯醇是反聚集信息素,在调节攻击密度和树皮下的种群密度的过程中起着重要的作用.本文主要综述了寄主抗性、信息素成分和小蠹虫行为之间的关系.野外生测的结果证明利用信息素防治云杉八齿小蠹是行之有效的防治方法.表1参67.“,”Chemical ecology of the spruce bark beetle Ips typographus (L.) was reviewed. The outbreak of I. Typographus in central Europe triggered extensive research on chemical ecology. Males initiate host location and produce semiochemicals which attract both males and females. A successful mass attack must first overcome the resistance of the host tree. Pioneer I. Typographus evolved to use the resin flow of host trees as kairomones in host location, and synthesized semiochemicals initially to detoxify the resin. If small bark beetle populations infest healthy trees, mass attack is prevented by host resistance. Nine monoterpene alcohols were found in male hind-guts, including cis-verbenol (cV) and 2-methyl-3-buten-2-ol (MB) which are regarded as primary aggregation pheromones, and a low proportion of Ipsdienol (Id) which increases attractiveness of cV and MB. Verbenone (Vn) and Ipsenol (Ie) are anti-aggregation pheromones, that play important roles in adjusting attack density and insect density under the bark. Non-host volatiles are repellent to I. Typographus, so that beetles do not waste energy boring into non-host trees. The relationship between host resistance, pheromone compounds and behavior, non-host volatiles, bioassays and mass trapping are reviewed. Results of field bioassays stressed that traps baited with specific pheromones could be used as a reasonable protection measure.