Study on Genetic Variation of Resin Components among Open-pollinated Families of Slash Pine

LI Yan-jie; LUAN Qi-fu; SHEN Dan-yu; CHEN-bin; JIANG Jing-min; FU Yong-shan

Volume 25 Issue 6

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Study on Genetic Variation of Resin Components among Open-pollinated Families of Slash Pine

1.
Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Fuyang 311400, Zhejang, China
2.
Quality Testing Center for Non-wood Forest Products of State Forestry Administration (Hangzhou), Fuyang 311400, Zhejang, China
3.
Fengshushan Forest Farm of Jingdezhen City, Jiangxi Province, Jingdezhen 333000, Jiangxi, China
4.
People's Government of Fucun Town, Jindong District, Jinhua City, Jinhua 321037, Zhejiang, China

Received Date: 2012-04-09

Abstract

To study the genetic variation of slash pine (Pinus elliottii) resin components, 98 individual trees from 38 open pollinated families in Changle Forest Farm, Zhejiang Province, were selected for the determination of resin components and the hereditary correlation analysis, the result shows that slash pine resin contains ten kinds of monoterpene, namely α-pinene, β-pinene, camphene, α-phellandrene, β-phellandrene, β-myrcene, sabinene, tricyclene,estragole and trans-anethole, which altogether account for more than 9.86%. Analysis of variance indicates highly significant differences in all components except for estragole and tricyclene among the families (Pr=-0.46, P<0.01) between α-pinene and β-pinene. The resin acids mainly include twenty components in pimaric type acid and abietic type acid, namely: pimaric acid, palustric acid, sandaracopimaric acid, isopimaric acid, abieticacid, neoabietic acid, dehydroabietate, communic acid, levopimarate, pimaral, isopimaral, 8,12-abietadienoate, 8,15-abietadienoate, 8,13-abietadienoate, 7,13,15-abietatrienoate, 15-hydroxydehydroabietic acid, 8,15-pimarene, rimuen, isosteviol and kaurene, among which the abietic type acids is greater than the pimaric type acid, analysis of variance indicates highly significant differences in pimaric acid, isopimaric acid, abietic acid, neoabietic acid, pimaral, isopimaral, 8,12-abietadienoate, 8,15-abietadienoate, 7,13,15-abietatrienoate, 15-hydroxydehydroabieticacid, 8,15-pimarene, and rimuen, the estimated family heritability for these twelve resin acid components is between 0.50-0.81, the heritability is relatively stable.
- slash pine,
- resin,
- monoterpenes,
- resin acids,
- genetic variation

References

[1]	胡兴宜,许业洲,杨代贵,等. 高产脂湿地松引种评价及优树选择[J]. 林业科技开发,2006,20(1):19-21
[2]	庄伟瑛,张玉英,邹元熹. 高产脂湿地松选择和相关因子的分析[J]. 江西农业大学学报,2007,29(1):55-65
[3]	张建忠,沈凤强,姜景民,等. 湿地松高产脂家系产脂量和生长量的遗传力估算及协方差分析[J]. 浙江林学院学报,2010,27(3):367-373
[4]	Sandermann W. 天然树脂、松节油和木浆油化学和工艺[M]. 王定选,译. 北京:中国林业出版社,1982:20-21
[5]	楼浙辉,舒洪岚. 松树高产脂力遗传改良的研究进展[J]. 江西林业科技,2002(5):40-41
[6]	张樟德. 中国松香工业的现状及发展对策[J]. 北京林业大学学报,2008,30(3):147-152
[7]	李小林,戴桂根,刘远生,等. 安福县湿地松资源及其松节油成分分析[J]. 江西林业科技,2003(1):13-14
[8]	Alber T G, Snow A G. Research on the improvement of turpentine practices [J]. Economic Botany,1949,3(4): 375-394
[9]	Eberhardt T L, Mahfouz Jolie M, Sheridan P M. Pondering the monoterpene composition of Pinus serotina Michx.: can limonene be used as a chemotaxonomic marker for the identification of old turpentine stumps? [C]// Stanturf J A.Proceedings of the 14th biennial southern silvicultural research conference. Gen. Tech. Rep. SRS-121. Asheville, NC: U.S. Department of Agriculture, Forest Service, Southern Research Station, 2010:535-537
[10]	Huber D A, White T L, Hodge G R.Variance component estimation techniques compared for two mating designs with Forest genetic architecture through computer simulation[J].TAG Theoretical and Applied Genetics, 1994, 88(2):236-242
[11]	Squillace A E, wells O O, Rockwood D L. Inheritance of monoterpene composition in cortical oleoresin of loblolly pine[J]. Silvae Genetica,1980,29(2):141-151
[12]	秦小薇,苏建伟,戈峰,等. 马尾松、湿地松、油松针叶挥发物中手性单萜的组成与相对含量[J] 分析测试学报,2006,25(2):6-9
[13]	伍苏然,马艳粉,李正跃,等. 思茅松松节油化学成分分析[J]. 西部林业科学,2009,38(3):90-92
[14]	粟本超,谢济运,陈小鹏,等. 广西柳州产马尾松和湿地松松针挥发油的GC/MS分析[J]. 质谱学报,2008,29(2):70-75
[15]	阮付贤,周龙昌. 广西几种林化产品化学成分气相色谱分析[J]. 广西大学学报:自然科学版,2008,33(S1):96-100
[16]	庄伟瑛,张玉英,范国荣,等. 湿地松松脂中单萜类组分研究初报[J]. 江西农业大学学报,2008,30 (3):480-498
[17]	庄伟瑛,欧阳道明,范国荣,等. 湿地松松脂中单萜类组分研究续报[J]. 江西农业大学学报,2009,31(3):388-392
[18]	钟国华,梁忠云,沈美英,等. 广西湿地松松脂化学组成的研究[J]. 林产化学与工业,2001,21(3):29-33
[19]	宋湛谦. 松属松脂特征与化学分类[M]. 合肥:中国科学技术大学出版社,2009:48-49
[20]	梅杰娜,张燕君,陈利芳,等. 杂种松松脂化学成分研究[J]. 广东林业科技,2005,21(3):36-38
[21]	陈海燕,李桂珍,梁忠云,等. 越南松节油化学成分分析[J]. 广西林业科学,2010,39(2):100-101
[22]	庞正轰,陈代喜,莫钊志,等. 澳大利亚杂交松产脂量及松脂成分研究[J]. 林业科技开发,2009,23(6):23-26
[23]	黄少伟,钟伟华,陈炳铨. 火炬松半同胞子代配合选择的遗传增益估算[J]. 林业科学,2006,42(4):33-37
[24]	董易之,张茂新,凌冰,等. 马缨丹总岩莰烯对小菜蛾和斜纹夜蛾幼的拒食作用[J]. 应用生态学报,2005,16(12):2361-2364
[25]	韩招久,王宗德,姜志宽,等. 萜类化合物对小菜蛾幼虫的拒食活性[J]. 昆虫知识,2007,44(6):863-867
[26]	陈玉湘,赵振东,李兴迪,等. 海松酸型树脂酸生物活性及应用研究进展[J]. 林产化学与工业,2008,28(4):118-122
[27]	陆军,温常域,袁祥海,等. 湿地松脂松香的基本特征及其技术要求的研究[J]. 林产化工通讯,1997,31(1):10-12
[28]	Kopper B J, Illman B L, Kersten P J, et al. Effects of diterpene acids on components of a conifer bark beetle-fungal interaction: tolerance by Ips pini and sensitivity by its associate Ophiostoma ips[J]. Environmental Entomology, 2005, 34(2):486-493
[29]	Comte G, Allais D P, Simon A, et al. Crystal structure of sandaracopimaric acid, a lipoxygenase inhibitor from Juniperus phoenicea[J]. J Nat Prod, 1995, 58 (2):239-243
[30]	王正喜,刘大椿,韩旅莎,等. 湿地松高产脂力单株和类型选择及松脂成分的研究[J]. 林产化学与工业,1983(3):1-9
[31]	梁有祥. 马尾松高产脂优树选择[J]. 广西林业科学,2004,33(4):214-216
[32]	蒋云东,李思广,胡光辉,等. 思茅松高产脂优树再选择的研究[J]. 西部林业科学,2008,37(3):1-5

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

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Study on Genetic Variation of Resin Components among Open-pollinated Families of Slash Pine

1. Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Fuyang 311400, Zhejang, China

2. Quality Testing Center for Non-wood Forest Products of State Forestry Administration (Hangzhou), Fuyang 311400, Zhejang, China

3. Fengshushan Forest Farm of Jingdezhen City, Jiangxi Province, Jingdezhen 333000, Jiangxi, China

4. People's Government of Fucun Town, Jindong District, Jinhua City, Jinhua 321037, Zhejiang, China

Received Date: 2012-04-09

Available Online: 2012-12-13

Abstract: To study the genetic variation of slash pine (Pinus elliottii) resin components, 98 individual trees from 38 open pollinated families in Changle Forest Farm, Zhejiang Province, were selected for the determination of resin components and the hereditary correlation analysis, the result shows that slash pine resin contains ten kinds of monoterpene, namely α-pinene, β-pinene, camphene, α-phellandrene, β-phellandrene, β-myrcene, sabinene, tricyclene,estragole and trans-anethole, which altogether account for more than 9.86%. Analysis of variance indicates highly significant differences in all components except for estragole and tricyclene among the families (Pr=-0.46, P<0.01) between α-pinene and β-pinene. The resin acids mainly include twenty components in pimaric type acid and abietic type acid, namely: pimaric acid, palustric acid, sandaracopimaric acid, isopimaric acid, abieticacid, neoabietic acid, dehydroabietate, communic acid, levopimarate, pimaral, isopimaral, 8,12-abietadienoate, 8,15-abietadienoate, 8,13-abietadienoate, 7,13,15-abietatrienoate, 15-hydroxydehydroabietic acid, 8,15-pimarene, rimuen, isosteviol and kaurene, among which the abietic type acids is greater than the pimaric type acid, analysis of variance indicates highly significant differences in pimaric acid, isopimaric acid, abietic acid, neoabietic acid, pimaral, isopimaral, 8,12-abietadienoate, 8,15-abietadienoate, 7,13,15-abietatrienoate, 15-hydroxydehydroabieticacid, 8,15-pimarene, and rimuen, the estimated family heritability for these twelve resin acid components is between 0.50-0.81, the heritability is relatively stable.

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Reference (32)

[1]	胡兴宜,许业洲,杨代贵,等. 高产脂湿地松引种评价及优树选择[J]. 林业科技开发,2006,20(1):19-21
[2]	庄伟瑛,张玉英,邹元熹. 高产脂湿地松选择和相关因子的分析[J]. 江西农业大学学报,2007,29(1):55-65
[3]	张建忠,沈凤强,姜景民,等. 湿地松高产脂家系产脂量和生长量的遗传力估算及协方差分析[J]. 浙江林学院学报,2010,27(3):367-373
[4]	Sandermann W. 天然树脂、松节油和木浆油化学和工艺[M]. 王定选,译. 北京:中国林业出版社,1982:20-21
[5]	楼浙辉,舒洪岚. 松树高产脂力遗传改良的研究进展[J]. 江西林业科技,2002(5):40-41
[6]	张樟德. 中国松香工业的现状及发展对策[J]. 北京林业大学学报,2008,30(3):147-152
[7]	李小林,戴桂根,刘远生,等. 安福县湿地松资源及其松节油成分分析[J]. 江西林业科技,2003(1):13-14
[8]	Alber T G, Snow A G. Research on the improvement of turpentine practices [J]. Economic Botany,1949,3(4): 375-394
[9]	Eberhardt T L, Mahfouz Jolie M, Sheridan P M. Pondering the monoterpene composition of Pinus serotina Michx.: can limonene be used as a chemotaxonomic marker for the identification of old turpentine stumps? [C]// Stanturf J A.Proceedings of the 14th biennial southern silvicultural research conference. Gen. Tech. Rep. SRS-121. Asheville, NC: U.S. Department of Agriculture, Forest Service, Southern Research Station, 2010:535-537
[10]	Huber D A, White T L, Hodge G R.Variance component estimation techniques compared for two mating designs with Forest genetic architecture through computer simulation[J].TAG Theoretical and Applied Genetics, 1994, 88(2):236-242
[11]	Squillace A E, wells O O, Rockwood D L. Inheritance of monoterpene composition in cortical oleoresin of loblolly pine[J]. Silvae Genetica,1980,29(2):141-151
[12]	秦小薇,苏建伟,戈峰,等. 马尾松、湿地松、油松针叶挥发物中手性单萜的组成与相对含量[J] 分析测试学报,2006,25(2):6-9
[13]	伍苏然,马艳粉,李正跃,等. 思茅松松节油化学成分分析[J]. 西部林业科学,2009,38(3):90-92
[14]	粟本超,谢济运,陈小鹏,等. 广西柳州产马尾松和湿地松松针挥发油的GC/MS分析[J]. 质谱学报,2008,29(2):70-75
[15]	阮付贤,周龙昌. 广西几种林化产品化学成分气相色谱分析[J]. 广西大学学报:自然科学版,2008,33(S1):96-100
[16]	庄伟瑛,张玉英,范国荣,等. 湿地松松脂中单萜类组分研究初报[J]. 江西农业大学学报,2008,30 (3):480-498
[17]	庄伟瑛,欧阳道明,范国荣,等. 湿地松松脂中单萜类组分研究续报[J]. 江西农业大学学报,2009,31(3):388-392
[18]	钟国华,梁忠云,沈美英,等. 广西湿地松松脂化学组成的研究[J]. 林产化学与工业,2001,21(3):29-33
[19]	宋湛谦. 松属松脂特征与化学分类[M]. 合肥:中国科学技术大学出版社,2009:48-49
[20]	梅杰娜,张燕君,陈利芳,等. 杂种松松脂化学成分研究[J]. 广东林业科技,2005,21(3):36-38
[21]	陈海燕,李桂珍,梁忠云,等. 越南松节油化学成分分析[J]. 广西林业科学,2010,39(2):100-101
[22]	庞正轰,陈代喜,莫钊志,等. 澳大利亚杂交松产脂量及松脂成分研究[J]. 林业科技开发,2009,23(6):23-26
[23]	黄少伟,钟伟华,陈炳铨. 火炬松半同胞子代配合选择的遗传增益估算[J]. 林业科学,2006,42(4):33-37
[24]	董易之,张茂新,凌冰,等. 马缨丹总岩莰烯对小菜蛾和斜纹夜蛾幼的拒食作用[J]. 应用生态学报,2005,16(12):2361-2364
[25]	韩招久,王宗德,姜志宽,等. 萜类化合物对小菜蛾幼虫的拒食活性[J]. 昆虫知识,2007,44(6):863-867
[26]	陈玉湘,赵振东,李兴迪,等. 海松酸型树脂酸生物活性及应用研究进展[J]. 林产化学与工业,2008,28(4):118-122
[27]	陆军,温常域,袁祥海,等. 湿地松脂松香的基本特征及其技术要求的研究[J]. 林产化工通讯,1997,31(1):10-12
[28]	Kopper B J, Illman B L, Kersten P J, et al. Effects of diterpene acids on components of a conifer bark beetle-fungal interaction: tolerance by Ips pini and sensitivity by its associate Ophiostoma ips[J]. Environmental Entomology, 2005, 34(2):486-493
[29]	Comte G, Allais D P, Simon A, et al. Crystal structure of sandaracopimaric acid, a lipoxygenase inhibitor from Juniperus phoenicea[J]. J Nat Prod, 1995, 58 (2):239-243
[30]	王正喜,刘大椿,韩旅莎,等. 湿地松高产脂力单株和类型选择及松脂成分的研究[J]. 林产化学与工业,1983(3):1-9
[31]	梁有祥. 马尾松高产脂优树选择[J]. 广西林业科学,2004,33(4):214-216
[32]	蒋云东,李思广,胡光辉,等. 思茅松高产脂优树再选择的研究[J]. 西部林业科学,2008,37(3):1-5

Study on Genetic Variation of Resin Components among Open-pollinated Families of Slash Pine

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通讯作者: 陈斌, bchen63@163.com

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Study on Genetic Variation of Resin Components among Open-pollinated Families of Slash Pine

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