木荷全同胞家系生长与分枝性状的遗传变异及效应分析

王家燚; 陈焕伟; 张蕊; 肖纪军; 高凯; 骆珍莎; 沈斌; 杜克久; 周志春; 王家燚; 陈焕伟; 张蕊; 肖纪军; 高凯; 骆珍莎; 沈斌; 杜克久; 周志春

doi:10.11833/j.issn.2095-0756.20220634

[1]

欧阳芳群, 祁生秀, 范国霞, 等. 青海云杉自由授粉家系遗传变异与基于BLUP的改良代亲本选择[J]. 南京林业大学学报(自然科学版), 2019, 43(6): 53 − 59.

OUYANG Fangqun, QI Shengxiu, FAN Guoxia, et al. Genetic variation and improved parents selection of open pollination families of Picea crassifolia Kom. basing one BLUP method [J]. Journal of Nanjing Forestry University (Natural Sciences Edition), 2019, 43(6): 53 − 59.

[2]

王明庥. 林木育种学概论[M]. 北京: 中国林业出版社, 1989.

WANG Mingxiu. Introduction to Forest Breeding Science [M]. Beijing: China Forestry Publishing House, 1989.

[3]

SPRAQUE O K, TATUM L A. General verses specific combining ability in single crosses of corn [J]. Journal of the American Society of Agronomy, 1942, 34: 923 − 932.

[4]

JONES G, LIZINIEWICV M, ADAMOPOULOS S, et al. Genetic parameters of stem and wood traits in full-sib silver birch families[J/OL]. Forests, 2021, 12(2): 159[2022-09-10]. doi: 10.3390/f12020159.

[5]

MUNEERA PARVEEN A B, MUTHUPANDI M, KUMAR N, et al. Quantitative genetic analysis of wood property traits in biparental population of Eucalyptus camaldulensis × E. tereticornis [J]. Journal of Genetics, 2021, 100(46): 1 − 11.

[6]

VÁZQUEZ-GONZÁLEZ C, GOLDAR L X, ALÍA R, et al. Genetic variation in resin yield and covariation with tree growth in maritime pine [J/OL]. Forest Ecology and Managemen, 2021, 482(2)[2022-09-10]. doi:10.1016/j.foreco.2020.118843.

[7]

李力, 施季森, 陈孝丑, 等. 杉木两水平双列杂交亲本配合力分析[J]. 南京林业大学学报, 2000, 24(5): 9 − 13.

LI Li, SHI Jisen, CHEN Xiaochou, et al. Combining ability analyses of parents in two-level diallel cross experiment of Chinese fir [J]. Journal of Nanjing Forestry University, 2000, 24(5): 9 − 13.

[8]

齐明. 杉木育种中 GCA 与 SCA 的相对重要性[J]. 林业科学研究, 1996, 9(5): 498 − 503.

QI Ming. Relative importance of GCA and SCA in genstic breeding of Chinese fir [J]. Forest Research, 1996, 9(5): 498 − 503.

[9]

赵奋成, 张应中, 李宪政, 等. 湿地松半双列子代遗传分析[J]. 林业科学研究, 2001, 14(6): 641 − 647.

ZHAO Fencheng, ZHANG Yingzhong, LI Xianzheng, et al. Genetic analysis of half diallel progeny of slash pine [J]. Forest Research, 2001, 14(6): 641 − 647.

[10]

曹士晗, 张桂芹, 赵兴江, 等. 水曲柳种子园半双列杂交配合力测定初报[J]. 林业科技, 2013, 38(5): 22 − 24.

CAO Shihan, ZHNAG Guiqin, ZHAO Xingjiang, et al. The determination of half diallel cross combining ability of Fraxinus mandshurica seed orchard [J]. Forestry Science &Technology, 2013, 38(5): 22 − 24.

[11]

沈乐, 徐建民, 李光友, 等. 尾叶桉与巨桉杂种F1代生长性状遗传分析[J]. 林业科学, 2019, 55(7): 68 − 76.

SHEN Le, XU Jianmin, LI Guangyou, et al. Genetic parameters for growth traits in Eucalyptus urophylla×E. grandis F1 crossings [J]. Scientia Silvae Sinicae, 2019, 55(7): 68 − 76.

[12]

辛娜娜, 张蕊, 范辉华, 等. 5年生木荷生长和形质性状的家系变异和选择[J]. 林业科学研究, 2014, 27(3): 316 − 322.

XIN Nana, ZHANG Rui, FAN Huihua, et al. Family variation and selection of growth and quality characteristics of 5-year-old Schima superba seedlings [J]. Forest Research, 2014, 27(3): 316 − 322.

[13]

辛娜娜, 张蕊, 徐肇友, 等. 木荷F1代育种群体遗传多样性分析[J]. 林业科学研究, 2015, 28(3): 332 − 338.

XIN Nana, ZHANG Rui, XU Zhaoyou, et al. Genetic diversity among breeding parents of Schima superba revealed by SSR [J]. Forest Research, 2015, 28(3): 332 − 338.

[14]

王云鹏, 张蕊, 周志春, 等. 木荷优树自由授粉家系早期生长性状遗传变异动态规律[J]. 林业科学, 2020, 56(9): 77 − 86.

WANG Yunpeng, ZHANG Rui, ZHOU Zhichun, et al. Dynamic patterns of genetic variation in early growth traits of the open-pollinated families of Schima superba plus tree [J]. Scientia Silvae Sinicae, 2020, 56(9): 77 − 86.

[15]

徐肇友, 王云鹏, 肖纪军, 等. 不同产地木荷优树无性系表型多样性[J]. 东北林业大学学报, 2021, 49(2): 5 − 10, 17.

XU Zhaoyou, WANG Yunpeng, XIAO Jijun, et al. Phenotypic diversity analysis of Schima superba superior clones from different locations [J]. Journal of Northeast Forestry University, 2021, 49(2): 5 − 10, 17.

[16]

王云鹏, 张蕊, 周志春, 等. 10年生木荷生长和材性性状家系变异及选择[J]. 南京林业大学学报 (自然科学版), 2020, 44(5): 85 − 92.

WANG Yunpeng, ZHANG Rui, ZHOU Zhichun, et al. A variation and selection of growth and wood traits for 10-year-old Schima superba [J]. Journal of Nanjing Forestry University (Natural Sciences), 2020, 44(5): 85 − 92.

[17]

YANG Hanbo, ZHANG Rui, SONG Ping, et al. The floral biology, breeding system and pollination efficiency of Schima superba Gardn. et Champ. (Theaceae)[J/OL]. Forests, 2017, 8(11)[2022-09-10]. doi: 10.3390/f8100404.

[18]

翟虎渠, 王建康. 应用数量遗传[M]. 2版. 北京: 中国农业科学技术出版社, 2007.

ZHAI Huqu, WANG Jiankang. Applied Quantitative Inheritance [M]. 2nd ed. Beijing: China Agricultural Science and Technology Press, 2007.

[19]

朱之悌. 林木遗传学基础[M]. 北京: 中国林业出版社, 1990.

ZHU Zhiti. Genetic Basis of Forest Trees [M]. Beijing: China Forestry Publishing House, 1990.

[20]

谭小梅, 金国庆, 周志春. 马尾松3代种质苗高生长参数的配合力分析[J]. 林业科学研究, 2011, 24(5): 663 − 667.

TAN Xiaomei, JIN Guoqing, ZHOU Zhichun. Combining ability analysis on seedling shoot elongation and growth parameters for the third generation germplasm of Pinus massoniana [J]. Forest Research, 2011, 24(5): 663 − 667.

[21]

赵颖, 周志春, 金国庆. 马尾松苗木生长和根系性状的GCA/SCA及磷素环境影响[J]. 林业科学, 2009, 45(6): 27 − 33.

ZHAO Ying, ZHOU Zhichun, JIN Guoqing. GCA/SCA of seedling growth and root parameters in Pinus massoniana and the phosphorus environment influence [J]. Scientia Silvae Sinicae, 2009, 45(6): 27 − 33.

[22]

董虹妤, 刘青华, 周志春, 等. 马尾松子代生长杂种优势与亲本配合力、遗传距离的相关性[J]. 林业科学, 2017, 53(2): 65 − 75.

DONG Hongyu, LIU Qinghua, ZHOU Zhichun, et al. Correlation between heterosis in the growth of progeny and combining ability and genetic distance of the parents for Pinus massoniana [J]. Scientia Silvae Sinicae, 2017, 53(2): 65 − 75.

[23]

YANG Yong, SUN Miao, LI Shanshan, et al. Germplasm resources and genetic breeding of Paeonia: a systematic review[J/OL]. Horticulture Research, 2020, 7(1): 107[2022-09-10]. doi: org/10.1038/s41438-020-0332-2.

[24]

金国庆, 秦国峰, 刘伟宏, 等. 马尾松测交系杂交子代生长性状遗传分析[J]. 林业科学, 2008, 44(1): 70 − 76.

JIN Guoqing, QIN Guofeng, LIU Weihong, et al. Genetic analysis of growth traits on tester strain progeny of Pinus massoniana [J]. Scientia Silvae Sinicae, 2008, 44(1): 70 − 76.

[25]

刘青华, 金国庆, 储德裕, 等. 基于马尾松测交系子代的生长、干形和木材密度的配合力分析[J]. 南京林业大学学报(自然科学版), 2011, 35(2): 8 − 14.

LIU Qinghua, JIN Guoqing, CHU Deyu, et al. Genetic analysis on combining ability of growth, stem form and wood basic density of Pinus massoniana by testcross mating design [J]. Journal of Nanjing Forestry University (Natural Science Edition), 2011, 35(2): 8 − 14.

[26]

张振, 金国庆, 余启新, 等. 马尾松三代测定林抽梢性状的遗传效应及与针叶氮磷钾养分的遗传相关[J]. 林业科学, 2017, 53(8): 26 − 34.

ZHANG Zhen, JIN Guoqing, YU Qixin, et al. Genetic effects of shoot growth and its genetic correlation with N, P and K contents in needles of the third generation trial plantation of Pinus massoniana [J]. Scientia Silvae Sinicae, 2017, 53(8): 26 − 34.

[27]

齐明, 王海蓉, 叶金俊, 等. 杉木全双列杂交试验的遗传分析及优良品种的选择[J]. 林业科技通讯, 2019(12): 8 − 11.

QI Ming, WANG Hairong, YE Jinjun, et al. Cunninghamia lanceolata, complete diallel cross experiment of genetic analysis and the selection of good varieties [J]. Forest Science and Technology, 2019(12): 8 − 11.

[1]	欧阳芳群, 祁生秀, 范国霞, 等. 青海云杉自由授粉家系遗传变异与基于BLUP的改良代亲本选择[J]. 南京林业大学学报(自然科学版), 2019, 43(6): 53 − 59. OUYANG Fangqun, QI Shengxiu, FAN Guoxia, et al. Genetic variation and improved parents selection of open pollination families of Picea crassifolia Kom. basing one BLUP method [J]. Journal of Nanjing Forestry University (Natural Sciences Edition), 2019, 43(6): 53 − 59.
[2]	王明庥. 林木育种学概论[M]. 北京: 中国林业出版社, 1989. WANG Mingxiu. Introduction to Forest Breeding Science [M]. Beijing: China Forestry Publishing House, 1989.
[3]	SPRAQUE O K, TATUM L A. General verses specific combining ability in single crosses of corn [J]. Journal of the American Society of Agronomy, 1942, 34: 923 − 932.
[4]	JONES G, LIZINIEWICV M, ADAMOPOULOS S, et al. Genetic parameters of stem and wood traits in full-sib silver birch families[J/OL]. Forests, 2021, 12(2): 159[2022-09-10]. doi: 10.3390/f12020159.
[5]	MUNEERA PARVEEN A B, MUTHUPANDI M, KUMAR N, et al. Quantitative genetic analysis of wood property traits in biparental population of Eucalyptus camaldulensis × E. tereticornis [J]. Journal of Genetics, 2021, 100(46): 1 − 11.
[6]	VÁZQUEZ-GONZÁLEZ C, GOLDAR L X, ALÍA R, et al. Genetic variation in resin yield and covariation with tree growth in maritime pine [J/OL]. Forest Ecology and Managemen, 2021, 482(2)[2022-09-10]. doi:10.1016/j.foreco.2020.118843.
[7]	李力, 施季森, 陈孝丑, 等. 杉木两水平双列杂交亲本配合力分析[J]. 南京林业大学学报, 2000, 24(5): 9 − 13. LI Li, SHI Jisen, CHEN Xiaochou, et al. Combining ability analyses of parents in two-level diallel cross experiment of Chinese fir [J]. Journal of Nanjing Forestry University, 2000, 24(5): 9 − 13.
[8]	齐明. 杉木育种中 GCA 与 SCA 的相对重要性[J]. 林业科学研究, 1996, 9(5): 498 − 503. QI Ming. Relative importance of GCA and SCA in genstic breeding of Chinese fir [J]. Forest Research, 1996, 9(5): 498 − 503.
[9]	赵奋成, 张应中, 李宪政, 等. 湿地松半双列子代遗传分析[J]. 林业科学研究, 2001, 14(6): 641 − 647. ZHAO Fencheng, ZHANG Yingzhong, LI Xianzheng, et al. Genetic analysis of half diallel progeny of slash pine [J]. Forest Research, 2001, 14(6): 641 − 647.
[10]	曹士晗, 张桂芹, 赵兴江, 等. 水曲柳种子园半双列杂交配合力测定初报[J]. 林业科技, 2013, 38(5): 22 − 24. CAO Shihan, ZHNAG Guiqin, ZHAO Xingjiang, et al. The determination of half diallel cross combining ability of Fraxinus mandshurica seed orchard [J]. Forestry Science &Technology, 2013, 38(5): 22 − 24.
[11]	沈乐, 徐建民, 李光友, 等. 尾叶桉与巨桉杂种F1代生长性状遗传分析[J]. 林业科学, 2019, 55(7): 68 − 76. SHEN Le, XU Jianmin, LI Guangyou, et al. Genetic parameters for growth traits in Eucalyptus urophylla×E. grandis F1 crossings [J]. Scientia Silvae Sinicae, 2019, 55(7): 68 − 76.
[12]	辛娜娜, 张蕊, 范辉华, 等. 5年生木荷生长和形质性状的家系变异和选择[J]. 林业科学研究, 2014, 27(3): 316 − 322. XIN Nana, ZHANG Rui, FAN Huihua, et al. Family variation and selection of growth and quality characteristics of 5-year-old Schima superba seedlings [J]. Forest Research, 2014, 27(3): 316 − 322.
[13]	辛娜娜, 张蕊, 徐肇友, 等. 木荷F1代育种群体遗传多样性分析[J]. 林业科学研究, 2015, 28(3): 332 − 338. XIN Nana, ZHANG Rui, XU Zhaoyou, et al. Genetic diversity among breeding parents of Schima superba revealed by SSR [J]. Forest Research, 2015, 28(3): 332 − 338.
[14]	王云鹏, 张蕊, 周志春, 等. 木荷优树自由授粉家系早期生长性状遗传变异动态规律[J]. 林业科学, 2020, 56(9): 77 − 86. WANG Yunpeng, ZHANG Rui, ZHOU Zhichun, et al. Dynamic patterns of genetic variation in early growth traits of the open-pollinated families of Schima superba plus tree [J]. Scientia Silvae Sinicae, 2020, 56(9): 77 − 86.
[15]	徐肇友, 王云鹏, 肖纪军, 等. 不同产地木荷优树无性系表型多样性[J]. 东北林业大学学报, 2021, 49(2): 5 − 10, 17. XU Zhaoyou, WANG Yunpeng, XIAO Jijun, et al. Phenotypic diversity analysis of Schima superba superior clones from different locations [J]. Journal of Northeast Forestry University, 2021, 49(2): 5 − 10, 17.
[16]	王云鹏, 张蕊, 周志春, 等. 10年生木荷生长和材性性状家系变异及选择[J]. 南京林业大学学报 (自然科学版), 2020, 44(5): 85 − 92. WANG Yunpeng, ZHANG Rui, ZHOU Zhichun, et al. A variation and selection of growth and wood traits for 10-year-old Schima superba [J]. Journal of Nanjing Forestry University (Natural Sciences), 2020, 44(5): 85 − 92.
[17]	YANG Hanbo, ZHANG Rui, SONG Ping, et al. The floral biology, breeding system and pollination efficiency of Schima superba Gardn. et Champ. (Theaceae)[J/OL]. Forests, 2017, 8(11)[2022-09-10]. doi: 10.3390/f8100404.
[18]	翟虎渠, 王建康. 应用数量遗传[M]. 2版. 北京: 中国农业科学技术出版社, 2007. ZHAI Huqu, WANG Jiankang. Applied Quantitative Inheritance [M]. 2nd ed. Beijing: China Agricultural Science and Technology Press, 2007.
[19]	朱之悌. 林木遗传学基础[M]. 北京: 中国林业出版社, 1990. ZHU Zhiti. Genetic Basis of Forest Trees [M]. Beijing: China Forestry Publishing House, 1990.
[20]	谭小梅, 金国庆, 周志春. 马尾松3代种质苗高生长参数的配合力分析[J]. 林业科学研究, 2011, 24(5): 663 − 667. TAN Xiaomei, JIN Guoqing, ZHOU Zhichun. Combining ability analysis on seedling shoot elongation and growth parameters for the third generation germplasm of Pinus massoniana [J]. Forest Research, 2011, 24(5): 663 − 667.
[21]	赵颖, 周志春, 金国庆. 马尾松苗木生长和根系性状的GCA/SCA及磷素环境影响[J]. 林业科学, 2009, 45(6): 27 − 33. ZHAO Ying, ZHOU Zhichun, JIN Guoqing. GCA/SCA of seedling growth and root parameters in Pinus massoniana and the phosphorus environment influence [J]. Scientia Silvae Sinicae, 2009, 45(6): 27 − 33.
[22]	董虹妤, 刘青华, 周志春, 等. 马尾松子代生长杂种优势与亲本配合力、遗传距离的相关性[J]. 林业科学, 2017, 53(2): 65 − 75. DONG Hongyu, LIU Qinghua, ZHOU Zhichun, et al. Correlation between heterosis in the growth of progeny and combining ability and genetic distance of the parents for Pinus massoniana [J]. Scientia Silvae Sinicae, 2017, 53(2): 65 − 75.
[23]	YANG Yong, SUN Miao, LI Shanshan, et al. Germplasm resources and genetic breeding of Paeonia: a systematic review[J/OL]. Horticulture Research, 2020, 7(1): 107[2022-09-10]. doi: org/10.1038/s41438-020-0332-2.
[24]	金国庆, 秦国峰, 刘伟宏, 等. 马尾松测交系杂交子代生长性状遗传分析[J]. 林业科学, 2008, 44(1): 70 − 76. JIN Guoqing, QIN Guofeng, LIU Weihong, et al. Genetic analysis of growth traits on tester strain progeny of Pinus massoniana [J]. Scientia Silvae Sinicae, 2008, 44(1): 70 − 76.
[25]	刘青华, 金国庆, 储德裕, 等. 基于马尾松测交系子代的生长、干形和木材密度的配合力分析[J]. 南京林业大学学报(自然科学版), 2011, 35(2): 8 − 14. LIU Qinghua, JIN Guoqing, CHU Deyu, et al. Genetic analysis on combining ability of growth, stem form and wood basic density of Pinus massoniana by testcross mating design [J]. Journal of Nanjing Forestry University (Natural Science Edition), 2011, 35(2): 8 − 14.
[26]	张振, 金国庆, 余启新, 等. 马尾松三代测定林抽梢性状的遗传效应及与针叶氮磷钾养分的遗传相关[J]. 林业科学, 2017, 53(8): 26 − 34. ZHANG Zhen, JIN Guoqing, YU Qixin, et al. Genetic effects of shoot growth and its genetic correlation with N, P and K contents in needles of the third generation trial plantation of Pinus massoniana [J]. Scientia Silvae Sinicae, 2017, 53(8): 26 − 34.
[27]	齐明, 王海蓉, 叶金俊, 等. 杉木全双列杂交试验的遗传分析及优良品种的选择[J]. 林业科技通讯, 2019(12): 8 − 11. QI Ming, WANG Hairong, YE Jinjun, et al. Cunninghamia lanceolata, complete diallel cross experiment of genetic analysis and the selection of good varieties [J]. Forest Science and Technology, 2019(12): 8 − 11.