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云南松楚雄腮扁叶蜂幼虫在表土层的空间分布特点及理论抽样数(PDF)

《南京林业大学学报(自然科学版)》[ISSN:1000-2006/CN:32-1161/S]

Issue:
2014年04期
Page:
97-101
Column:
研究论文
publishdate:
2014-07-01

Article Info:/Info

Title:
Spatial distribution characteristics and theoretical sampling of Cephalica chuxiongnica larvae on overburden in Pinus yunnanensis forest
Article ID:
1000-2006(2014)04-0097-05
Author(s):
LIU Ling1 YAN Daqi2 QI Rongpin1 HU Guanghui1 MAO Yunling1 XU Liang1 YAN Zhengliang1* MA Huifen1
1.Yunnan Academy of Forestry, Kunming 650201, China;
2.College of Plant Science &
Technology, Huazhong Agricultural University, Wuhan 430070, China
Keywords:
Cephalcia chuxiongnica larvae spatial distribution sample technique Pinus yunnanensis
Classification number :
S763
DOI:
10.3969/j.issn.1000-2006.2014.04.018
Document Code:
A
Abstract:
Cephalcia chuxiongnica is one of the important defoliator pests in coniferous forest in Yunnan province, and which mainly infested Pinus yunnanensis. The spatial distribution pattern of C. chuxiongnica larvae on topsoil in P. yunnanensis stands was surveyed and determined using aggregated indices and Iwao’s m*-m regression mode and power law of Lloyd. The results showed that C. chuxiongnica larvae was the pattern of aggregative distribution. The spatial distribution pattern of C. chuxiongnica larvae could be described by negative binomial distribution. Investigation result of horizontal distribution and vertical distribution showed that there was no significant difference in larvae density of C. chuxiongnica on overburden in P. yunnanensis forest. Theoretical sampling equations were N0.1=6 788.11/m+3.85,N0.2=1 697.03/m+0.96,N0.3=753.98/m+0.43, which were the estimated sample size for different densities of larvae with an accuracy of 0.1, 0.2 and 0.3, respectively. These results provided a basis for the scientific sampling of C. chuxiongnica larvae in the forest. According to the above equations, 20, 50 and 80 sampling units should be sampled when the density of C. chuxiongnica is assumed to be 86, 35 and 22 individuals per sampling unit.

References

[1] 萧刚柔.中国扁叶蜂(膜翅目:扁叶蜂科)[M].北京:中国林业出版社,2002.
[2] 毕佳勋,邵维福,刘鸿滨,等.楚雄腮扁叶蜂生物学特性及防治初步研究[C]//李典谟,伍一军,武春生,等.中国昆虫学会成立60周年纪念大会暨学术讨论会论文集.北京:中国农业科学技术出版社,2004.
[3] 姜红.楚雄腮扁叶蜂的发生与防治[J].中国林业,2007(3B):57-58.
[4] 方舒.楚雄腮扁叶蜂幼虫空间分布型及最适抽样数研究[J].林业调查规划,2010,35(6):88-92.Fang S. Spatial distribution pattern and optimal sampling number of Cephalcia chuxiongnica larvae[J]. Forest Inventory and Planning, 2010, 35(6): 88-92.
[5] 唐启义.DPS数据处理系统:实验设计、统计分析及数据挖掘[M].北京:科学出版社,2002.
[6] 徐汝梅,成新跃.昆虫种群生态学——基础与前言[M].北京:科学出版社,2005.
[7] 苏志远,赵谦,苏继祥,等.黄缘阿扁叶蜂老熟幼虫空间分布型研究[J].四川林业科技,1998,19(3):54-56.Su Z Y, Zhao Q, Su J X, et al. Study on the distribution of Acantholyda flavomarginata old larvae[J]. Journal of Sichuan Forestry Science and Technology,1998 19(3): 54-56.
[8] 杨维宇,陈国华,张英伟,等.松阿扁叶蜂4龄幼虫期空间分布型的研究[J].辽宁林业科技,2004(4):1-3,9.Yang W Y, Zhen G H, Zhang Y W, et al. Spatial distributional patterns on 4-age larva of Acantholyda posticalis[J]. Journal of Liaoning Forestry Science and Technology, 2004(4): 1-3, 9.
[9] 汪有奎,刘贤德,袁虹,等.云杉阿扁叶蜂卵分布规律及抽样技术的研究[J].甘肃林业科技,1995(1):41-44.
[10] 汪有奎,袁虹,杜永昌,等.云杉阿扁叶蜂预蛹的空间分布及抽样[J].昆虫知识,1996,33(3): 157-160.Wang Y K, Yuan H, Du Y C, et al. Spatial distribution and sampling of pre pupa of Acantholyda piceacola [J]. Entomological Knowledge, 1995,33(3): 157-160.
[11] 杨德敏,曾垂惠,游林,等.马尾松腮扁叶蜂在林间表土层的水平分布及抽样方法研究[J].重庆林业科技,2004(1):9-12.Yang D M, Zeng C H, You L, et al. The sample method study on horizontal distribution of Cephalcia pinivora mature larvae in topsoil[J]. Journal of Chongqing Forestry Science and Technology, 2004(1): 9-12.
[12] 杨德敏,张宏,罗正均,等.马尾松腮扁叶蜂老熟幼虫在地表层的垂直分布规律研究[J].重庆林业科技,2004(2):20-21.Yang D M, Zang H, Luo Z J, et al. The law study on vertical distribution of Cephalcia pinivora mature larvae in topsoil[J]. Journal of Chongqing Forestry Science and Technology, 2004(2): 20-21.
[13] 郑永祥,彭佳龙,王明生,等.鞭角华扁叶蜂允许为害测度与抽样分析[J].南京林业大学学报:自然科学版,2009,33(5):142-146.Zheng Y X, Peng J L, Wang M S, et al. Study on the damage threshold and sampling technique of Chinolyda flagellicomis[J].Journal of Nanjing Forestry University:Natural Sciences Edition, 2009, 33(5): 142-146.
[14] 陈绘画,张建薇,杨胜利.鞭角华扁叶蜂滞育幼虫空间格局的生物地理统计分析及抽样技术的研究[J].林业科学研究,2002,15(5):593-598.Chen H H, Zhang J W, Yang S L. Biogeostatistics and sampling technique about spatial pattern of Chinolyda flagellicomis diapausing larva[J].Forest Research, 2002 15(5): 593-598.
[15] 王新花,刘和俊,贾伟金.松阿扁叶蜂卵的空间分布型及抽样技术的研究[J].林业科技通讯,1995(10):22-24.
[16] 徐可清,王大洲.落叶松腮扁叶蜂越冬幼虫地下分布抽样分析[J].河北林业科技,1994(3):34-35.
[17] 林琳,于善栋,张英军,等.昆嵛山腮扁叶蜂幼虫空间自相关研究[J].南京林业大学学报:自然科学版,2009,33(6):63-68.Lin L, Yu S D, Zhang Y J, et al. Study on larval spatial autocorrelation of Cephalcia kunyushanica Xiao[J].Journal of Nanjing Forestry University:Natural Sciences Edition, 2009, 33(6): 63-68.

Last Update: 2014-07-31