摘要
通过对杉木萌芽更新林分1~15年生长观测分析,结果表明:1~4年幼树阶段平均树高、地径分别达4.1m、9.5 cm,是同林龄实生幼林的241.2%、351.9%;10年生杉木萌芽更新林分平均胸径、树高、蓄积量分别达11.4 cm、7.8 m、97.9 m3/hm2,是同林龄实生林的142.5%、116.4%、159.2%;15年生杉木萌芽更新林分平均胸径、树高、蓄积量分别达15.6 cm、10.3 m、192.8 m3/hm2,是同林龄实生林的126.8%、103.0%、118.4%;从杉木萌芽更新和实生苗造林前期成本投入来看,前者是后者成本的60.8%。可见,杉木萌芽更新是投入少、技术简单、生长快、轮伐期短的更新方式。
Through the observation and analysis of 1~15-year growth of the sprouting regeneration stands of Cunninghamia lanceolata,the results showed that the average height and basal diameter of the 1~4-year-old young trees reached 4.1 m and 9.5 cm respectively,241.2 % and 351.9% those of the seedling forests of the same age.The average DBH,height and timber stock volume of 10-year-old sprouting regeneration forests reached 11.4 cm,7.8 m and 97.9 m3/hm2 respectively,142.5%,116.4% and 159.2% those of the seedling forests.The average DBH,height and timber stock volume of 15-year-old sprouting regeneration forests reached 15.6 cm,10.3 m and 192.8 m3/hm2 respectively,126.8%,103.0% and 118.4% those of the seedling forests.The preliminary input cost for the sprouting regeneration is only 60.8 % that of seedling afforestation.The sprouting regeneration is thus a fast-growing and short-rotating regeneration with low input cost and simple techniques.
出处
《安徽林业科技》
2011年第5期20-23,共4页
Anhui Forestry Science and Technology
关键词
杉木
萌芽更新
实生林
Cunninghamia lanceolata
Sprouting regeneration
Seedling forest
