Maternal and Paternal Effects on Photosynthetic Characteristics ofSeveral Larix kaempferi × L. olgensis Hybrids

XU Chen-lu; SUN Xiao-mei; ZHANG Shou-gong; DONG Jian

Volume 24 Issue 1

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Maternal and Paternal Effects on Photosynthetic Characteristics ofSeveral Larix kaempferi × L. olgensis Hybrids

1.
Research Institute of Forestry,Chinese Academy of Forestry, Key Laboratory of Tree Breeding and Cultivation,State Forestry Administration,Beijing 100091,China
2.
Liaoning Academy of Forestry, Shenyang 110032, Liaoning, China

Received Date: 2009-06-04

Abstract

In order to investigate maternal and paternal effects on photosynthetic characteristics of Larix kaempferi × L. olgensis hybrids, The light response curse and CO2 response curse were examined among three poly-crossed families and three full-sib families. Results demonstrated that significant differences existed in apparent quantum yield, dark respiration rate, carboxylation efficiency and very significant differences existed in light compensation point, CO2 compensation point among poly-crossed families, while very significant differences was detected only in dark respiration rate of three full-sib hybrid families. Maternal effect played a major role in determining photosynthetic characteristics of Larix kaempferi × L. olgensis hybrids. More attention should be paid to maternal effects when selecting high photosynthetic efficiency parents which are used for breeding for high photosynthetic efficiency.
- Larix kaempferi × L. olgensis hybrid,
- photosynthetic characteristics,
- maternal and paternal effects

References

[1]	吴承祯,侯智勇,洪伟,等.桉树无性系光合光响应研究[J].福建林学院学报,2008,28(3):198-202
[2]	江锡兵,李博,张志毅,等.美洲黑杨与大青杨杂种无性系苗期光合特性研究[J].北京林业大学学报,2009,31(5):151-154
[3]	曹珂,朱更瑞,冯义斌,等.杏、李和杏李光合特性比较及优质种质筛选[J].植物遗传资源学报,2007,8(3):331-335
[4]	贺立红,贺立静,梁红,等.银杏不同品种叶绿素荧光参数的比较[J].华南农业大学学报,2006,27(4):43-46
[5]	胡延吉,赵檀方.小麦光合作用的遗传和改良潜力的初步研究[J].中国农业科学,1995, 28(增刊):14-21
[6]	刘振业,刘贞琦.作物光合作用的遗传与育种研究进展[J].贵州农学院学报,1991,10(2):20-28
[7]	赵明,杨相勇,赵秀琴,等.利用野生资源进行水稻高光效资源创新[M]//. 匡廷云.作物光能利用效率与调控.济南:山东科学技术出版社, 2004:318-336
[8]	段美娟,唐海燕,袁定阳,等.水稻关键光合功能因子及高光效育种途径刍议[J].杂交水稻,2008,23(4):1-3
[9]	杜维广,张桂茹,满为群,等.大豆高光效品种(种质)选育及高光效育种再探讨[J].大豆科学,2001,20(2):110-115
[10]	Major J E , Barsi D C, Mosseler A, et al. Predominant paternal inheritance pattern of light-energy processing adaptive traits in red and black spruce hybrids[J]. Can J For Res, 2007, 37(2): 293-305
[11]	赵明,王美云.玉米亲本及杂交种光合速率的关系[J].北京农业大学学报,1995,21(3):265-269
[12]	张其德,朱新广,王强,等.冬小麦杂种F1及其亲本光合特性的研究初报[J].作物学报,2001,27(5):653-657
[13]	季本华,焦德茂.光抑制条件下水稻籼粳亚种及其正反交F₁杂种的PSⅡ光化学效率和CO₂交换特点[J]. 植物学报, 1999,41(5):508-514
[14]	盛宁,姚青菊,任全进.夏腊梅和美国腊梅属间杂种形态和光合生理特征[J].浙江林学院学报,2008,25(6):728-732
[15]	Major J E, Barsi D C, Mosseler A, et al. Genetic variation and control of chloroplast pigment concentrations in Picea rubens, Picea mariana and their hybrids. I. Ambient and elevated environments[J]. Tree Physiol. 2007, 27(3): 353-364
[16]	姜卫兵,庄猛,戴美松,等.桃不同杂交组合亲子代品种的光合特性初探[J].江苏农业科学,2005(4):66-68
[17]	Prioul J L,Chartier P.Partitioning of transfer and carboxylation components of intercellular resistance to photosynthetic CO₂ fixation: a critical analysis of the methods used[J]. Annals of Batony, 1977,41:789-800
[18]	许大全. 光合作用效率[M]. 上海:上海科学技术出版社,2002:44-45
[19]	Medrano R E,Keys A J, Lawlor D W, et al. Improving plant production by selection for survival at low CO₂concentrations[J]. J Exp Bot,1995,46:1389-1396
[20]	焦德茂,季本华,童红玉,等.水稻籼粳亚种杂交1代的光合光抑制特性[J].植物学报,1994,36(3):190-196
[21]	Sutton, B C S, Flanagan D J, Gawley J R, et al.Inheritance of chloroplast and mitochondrial DNA in Picea and composition of hybrids from introgression zones[J]. Theor Appl Genet,1991, 82(2):242-248
[22]	Neale D B, Wheeler N C, Allard RW. Paternal inheritance of chloroplast DNA in Douglas-fir[J]. Can J For Res,1986, 16(5): 1152-1154
[23]	Wagner D B, Furnier G R, Saghai-Maroof M A, et al. Chloroplast DNA polymorphisms in lodgepole and jack pines and their hybrids[J]. Proc Natl Acad Sci USA, 1987, 84(7): 2097-2100
[24]	欧志英,彭长连,林桂珠.田间条件下超高产水稻培矮64S/E32及其亲本旗叶的光合特性[J].作物学报,2005,31(2):209-213
[25]	翟虎渠,曹树青,唐运来,等.籼型杂交水稻光合性状的配合力及遗传力分析[J].作物学报,2002,28(2):154-160
[26]	孙晓梅,张守攻,王笑山,等.日本落叶松×长白落叶松杂种组合间生根性状及幼林生长的遗传变异[J].林业科学,2008,44(4):41-47
[27]	Ceulemans R,Impens U,Steenackers V. Variations in photosynthetic, anatomical,and enzymatic leaf traits and correlations with growth in recently selected Populus hybrids[J]. Can J Bot,1987,17: 273-283
[28]	周永斌,马学文,姚鹏,等.不同生长速度杨树品种的光合生理生态特性研究[J].沈阳农业大学学报,2007,38(3):336-339
[29]	Cannell M G R, Last F T. Tree physiology and yield improvement[M]. London, New York: Academic Press,1976:46-47

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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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Maternal and Paternal Effects on Photosynthetic Characteristics ofSeveral Larix kaempferi × L. olgensis Hybrids

1. Research Institute of Forestry,Chinese Academy of Forestry, Key Laboratory of Tree Breeding and Cultivation,State Forestry Administration,Beijing 100091,China

2. Liaoning Academy of Forestry, Shenyang 110032, Liaoning, China

Received Date: 2009-06-04

Abstract: In order to investigate maternal and paternal effects on photosynthetic characteristics of Larix kaempferi × L. olgensis hybrids, The light response curse and CO2 response curse were examined among three poly-crossed families and three full-sib families. Results demonstrated that significant differences existed in apparent quantum yield, dark respiration rate, carboxylation efficiency and very significant differences existed in light compensation point, CO2 compensation point among poly-crossed families, while very significant differences was detected only in dark respiration rate of three full-sib hybrid families. Maternal effect played a major role in determining photosynthetic characteristics of Larix kaempferi × L. olgensis hybrids. More attention should be paid to maternal effects when selecting high photosynthetic efficiency parents which are used for breeding for high photosynthetic efficiency.

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Reference (29)

[1]	吴承祯,侯智勇,洪伟,等.桉树无性系光合光响应研究[J].福建林学院学报,2008,28(3):198-202
[2]	江锡兵,李博,张志毅,等.美洲黑杨与大青杨杂种无性系苗期光合特性研究[J].北京林业大学学报,2009,31(5):151-154
[3]	曹珂,朱更瑞,冯义斌,等.杏、李和杏李光合特性比较及优质种质筛选[J].植物遗传资源学报,2007,8(3):331-335
[4]	贺立红,贺立静,梁红,等.银杏不同品种叶绿素荧光参数的比较[J].华南农业大学学报,2006,27(4):43-46
[5]	胡延吉,赵檀方.小麦光合作用的遗传和改良潜力的初步研究[J].中国农业科学,1995, 28(增刊):14-21
[6]	刘振业,刘贞琦.作物光合作用的遗传与育种研究进展[J].贵州农学院学报,1991,10(2):20-28
[7]	赵明,杨相勇,赵秀琴,等.利用野生资源进行水稻高光效资源创新[M]//. 匡廷云.作物光能利用效率与调控.济南:山东科学技术出版社, 2004:318-336
[8]	段美娟,唐海燕,袁定阳,等.水稻关键光合功能因子及高光效育种途径刍议[J].杂交水稻,2008,23(4):1-3
[9]	杜维广,张桂茹,满为群,等.大豆高光效品种(种质)选育及高光效育种再探讨[J].大豆科学,2001,20(2):110-115
[10]	Major J E , Barsi D C, Mosseler A, et al. Predominant paternal inheritance pattern of light-energy processing adaptive traits in red and black spruce hybrids[J]. Can J For Res, 2007, 37(2): 293-305
[11]	赵明,王美云.玉米亲本及杂交种光合速率的关系[J].北京农业大学学报,1995,21(3):265-269
[12]	张其德,朱新广,王强,等.冬小麦杂种F1及其亲本光合特性的研究初报[J].作物学报,2001,27(5):653-657
[13]	季本华,焦德茂.光抑制条件下水稻籼粳亚种及其正反交F₁杂种的PSⅡ光化学效率和CO₂交换特点[J]. 植物学报, 1999,41(5):508-514
[14]	盛宁,姚青菊,任全进.夏腊梅和美国腊梅属间杂种形态和光合生理特征[J].浙江林学院学报,2008,25(6):728-732
[15]	Major J E, Barsi D C, Mosseler A, et al. Genetic variation and control of chloroplast pigment concentrations in Picea rubens, Picea mariana and their hybrids. I. Ambient and elevated environments[J]. Tree Physiol. 2007, 27(3): 353-364
[16]	姜卫兵,庄猛,戴美松,等.桃不同杂交组合亲子代品种的光合特性初探[J].江苏农业科学,2005(4):66-68
[17]	Prioul J L,Chartier P.Partitioning of transfer and carboxylation components of intercellular resistance to photosynthetic CO₂ fixation: a critical analysis of the methods used[J]. Annals of Batony, 1977,41:789-800
[18]	许大全. 光合作用效率[M]. 上海:上海科学技术出版社,2002:44-45
[19]	Medrano R E,Keys A J, Lawlor D W, et al. Improving plant production by selection for survival at low CO₂concentrations[J]. J Exp Bot,1995,46:1389-1396
[20]	焦德茂,季本华,童红玉,等.水稻籼粳亚种杂交1代的光合光抑制特性[J].植物学报,1994,36(3):190-196
[21]	Sutton, B C S, Flanagan D J, Gawley J R, et al.Inheritance of chloroplast and mitochondrial DNA in Picea and composition of hybrids from introgression zones[J]. Theor Appl Genet,1991, 82(2):242-248
[22]	Neale D B, Wheeler N C, Allard RW. Paternal inheritance of chloroplast DNA in Douglas-fir[J]. Can J For Res,1986, 16(5): 1152-1154
[23]	Wagner D B, Furnier G R, Saghai-Maroof M A, et al. Chloroplast DNA polymorphisms in lodgepole and jack pines and their hybrids[J]. Proc Natl Acad Sci USA, 1987, 84(7): 2097-2100
[24]	欧志英,彭长连,林桂珠.田间条件下超高产水稻培矮64S/E32及其亲本旗叶的光合特性[J].作物学报,2005,31(2):209-213
[25]	翟虎渠,曹树青,唐运来,等.籼型杂交水稻光合性状的配合力及遗传力分析[J].作物学报,2002,28(2):154-160
[26]	孙晓梅,张守攻,王笑山,等.日本落叶松×长白落叶松杂种组合间生根性状及幼林生长的遗传变异[J].林业科学,2008,44(4):41-47
[27]	Ceulemans R,Impens U,Steenackers V. Variations in photosynthetic, anatomical,and enzymatic leaf traits and correlations with growth in recently selected Populus hybrids[J]. Can J Bot,1987,17: 273-283
[28]	周永斌,马学文,姚鹏,等.不同生长速度杨树品种的光合生理生态特性研究[J].沈阳农业大学学报,2007,38(3):336-339
[29]	Cannell M G R, Last F T. Tree physiology and yield improvement[M]. London, New York: Academic Press,1976:46-47

Maternal and Paternal Effects on Photosynthetic Characteristics ofSeveral Larix kaempferi × L. olgensis Hybrids

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References

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通讯作者: 陈斌, bchen63@163.com

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Maternal and Paternal Effects on Photosynthetic Characteristics ofSeveral Larix kaempferi × L. olgensis Hybrids

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