甬优系列籼粳杂交稻的冠层结构与光合特性

doi:10.3724/SP.J.1006.2015.00286

摘要/Abstract

摘要：

旨在阐明甬优系列籼粳杂交稻的冠层结构与光合特性。以甬优籼粳杂交稻(A)为研究对象，以三系杂交粳稻(B)、超级常规粳稻(C)和超级杂交籼稻(D)为对照，在机插高产栽培条件下，对不同类型水稻的叶片受光姿态和群体冠层光分布、光合特性系统比较研究。结果表明: (1)上3张叶片的长度、宽度表现为A>B>D>C，叶基角表现为D>A>B>C，披垂度表现为D>B>C>A。冠层上部叶面积密度表现为D>A>B>C，冠层下部叶面积密度表现为C>B>A>D，最大叶面积密度表现为A>D>B>C，最大叶面积密度出现的相对高度表现为D>A>B>C。冠层上部相对光照表现为A>B>C>D，冠层下部相对光照表现为B>A>C>D，冠层平均相对光照表现为B>A>C>D，冠层消光系数表现为C>D>B>A。(2)抽穗期群体叶面积指数、高效叶面积率均呈D>A>B>C趋势，有效叶面积率呈A>B>C>D趋势；颖花/叶和实粒/叶均表现为A>B>C>D。经济产量、生物产量均表现为A>B>C>D，经济系数呈D>C>B>A趋势；蜡熟期和成熟期剑叶的叶绿素含量、类胡萝卜素含量、PSII的光化学效率及净光合速率呈A>B>C>D趋势；抽穗至成熟期剑叶的MAD含量呈D>C>B>A趋势，SOD、POD、CAT酶活性呈A>B>C>D趋势。与其他3种类型水稻相比，甬优系列籼粳杂交稻的冠层结构与光合特性具有显著优势，这是甬优系列杂交稻产量潜力正常发挥的生态生理基础，也是进一步提高亚种间杂交稻群体生产力的重要途径。

关键词: 籼粳杂交稻, 甬优系列, 冠层结构, 光合特性

Abstract:

Compared with japonica hybrid rice cultivars(B), conventional japonica rice cultivars (C) and indica hybrid rice cultivars (D), Yongyou series of indica-japonica hybrid rice cultivars (A) were adopted to analyze the lightened posture of leave, light distribution of canopy and photosynthetic characteristics of plant systematically. Results were as follows: (1) leaf length, leaf width of top three leaves showed the trend of A>B>D>C, canopy extinction coefficient showed the trend of C>D>B>A, leaf basic angle of top three leaves and relative height of the largest leaf area density were D>A,>B>C, lower canopy leaf area density was C>B>A>D, plant height and largest leaf area density showed the trend of A>D>B>C, leaf drop angle of top three leaves showed the trend of D>B>C>A, upper canopy leaf area density observed D>A>B>C, lower canopy relative light showed the trend of A>B>C>D, lower canopy relative light and canopy average relative light showed the trend of B>A>C>D; (2) population LAI and high valid leaf area rate showed the trend of D>A>B>C at heading, valid leaf area rate, spikelets per cm2 leaf area, filled grains per cm2 leaf area, total biomass, economic yield, Chlorophyll (a+b) content, carotenoid content, PSII actual photochemical efficiency, net photosynthetic rate, enzyme activities of SOD, POD and CAT after heading showed the trend of A>B>C>D, harvest index and MDA content showed the trend of D>C>B>A. Therefore, compared with other three types of rice, Yongyou Series of indica-japonica hybrid rice had significant advantages in the canopy structure and photosynthetic characteristics, which are both normal ecological and physiological bases of high yield, and maybe an important way to improve the population productivity of inter-subspecific hybrid rice.

Key words: Indica-japonica hybrid rice, Yongyou series, Canopy structure, Photosynthetic characteristics

姜元华,许轲,赵可,孙建军,韦还和,许俊伟,魏海燕,郭保卫,霍中洋,戴其根,张洪程*. 甬优系列籼粳杂交稻的冠层结构与光合特性[J]. 作物学报, 2015, 41(02): 286-296.

JIANG Yuan-Hua,XU Ke,ZHAO Ke,SUN Jian-Jun,WEI Huan-He,XU Jun-Wei,WEI Hai-Yan,GUO Bao-Wei,HUO Zhong-Yang,DAI Qi-Gen,ZHANG Hong-Cheng* . Canopy Structure and Photosynthetic Characteristics of Yongyou Series of Indica-Japonica Hybrid Rice under High-yielding Cultivation Condition[J]. Acta Agron Sin, 2015, 41(02): 286-296.

参考文献

[1]凌启鸿. 作物群体质量. 上海: 上海科学技术出版社, 2000. pp 42–210

Ling Q H. Quality of Crop Population. Shanghai: Shanghai Scientific & Technical Publishers, 2000. pp 42–210 (in Chinese)

[2]邓启云, 袁隆平, 蔡义东, 刘建丰, 赵炳然, 陈立云. 超级杂交稻模式株型的光合优势. 作物学报, 2006, 32: 1287?1293

Deng Q Y, Yuan L P, Cai Y D, Liu J F, Zhao B R, Chen L Y. Photosynthetic advantages of model plant-type in super hybrid rice. Acta Agron Sin, 2006, 32: 1287?1293 (in Chinese with English abstract)

[3]王昆, 罗琼, 蔡庆红, 蒋敏明, 匡建业, 丁秋凡, 唐启源. 水稻株型的研究进展. 湖南农业科学, 2013, (17): 1?4

Wang K, Luo Q, Cai Q H, Jiang M M, Kuang J Y, Ding Q F, Tang Q Y. Study progresses of rice plant type. Hunan Agric Sci, 2013, (17): 1?4 (in Chinese with English abstract)

[4]付景, 杨建昌. 超级稻高产栽培生理研究进展. 中国水稻科学, 2011, 25: 343?348

Fu J, Yang J C. Research advances in physiology of super rice under high-yielding cultivation. Chin J Rice Sci, 2011, 25: 343?348 (in Chinese with English abstract)

[5]Peng S B, Khush G S, Virk P, Tang Q Y, Zou Y B. Progress in ideotype breeding to increase rice yield potential. Field Crops Res, 2008, 108: 32?33

[6]Peng S B, Tang Q Y, Zou Y B. Current status and challenges of rice production in china. Plant Product Sci, 2009, 12: 3?8

[7]Donald C M. The breeding of crop ideotypes. Euphytica, 1968, 17: 385?403

[8]Xiang Z F, Yang W Y, Ren W J, Wang X C. Effects of uniconazole on nitrogen metabolism and grain protein content of rice. Rice Sci, 2005, 12: 107?113

[9]杨守仁, 张龙步, 陈温福, 徐正进, 王进民. 水稻超高产育种理论和方法, 中国水稻科学, 1996, 10: 115?120

Yang S R, Zhang L B, Chen W F, Xu Z J, Wang J M. Theories and methods of rice breeding for maximum yield. Chin J Rice Sci, 1996, 10: 115?120 (in Chinese with English abstract)

[10]袁隆平. 杂交水稻超高产育种. 杂交水稻, 1997, 12(6): 1?3

Yuan L P. Hybrid rice breeding for super high yield. Hybrid Rice, 1997, 12(6): 1?3 (in Chinese)

[11]周开达, 汪旭东, 李仕贵, 李平, 黎汉云, 黄国寿, 刘太清, 沈茂松. 亚种间重穗型杂交稻研究. 中国农业科学, 1997, 30(5): 91?93

Zhou K D, Wang X D, Li S G, Li P, Li H Y, Huang G S, Liu T Q, Shen M S. The study on heavy panicle type of inter-subspecific hybrid rice (Oryza sativa L.). Sci Agric Sin, 1997, 30(5): 91?93 (in Chinese with English abstract)

[12]黄耀祥, 林青山. 水稻超高产、特优质株型模式的构想和育种实践. 广东农业科学, 1994, (4): 1?6

Huang Y X, Lin Q S. Thinking and practice on rice breeding method for high yield and good grain quality. Guangdong Agric Sci, 1994, (4): 1?6 (in Chinese with English abstract)

[13]张洪程, 张军, 龚金龙, 常勇, 李敏, 高辉, 戴其根, 霍中洋, 许轲, 魏海燕. “籼改粳”的生产优势及其形成机理. 中国农业科学, 2013, 46: 686?704

Zhang H C, Zhang J, Gong J L, Chang Y, Li M, Gao H, Dai Q G, Huo Z Y, Xu K, Wei H Y. The productive advantages and formation mechanisms of “indica rice to japonica rice”. Sci Agric Sin, 2013, 46: 686–704 (in Chinese with English abstract)

[14]龚金龙, 邢志鹏, 胡雅杰, 张洪程, 戴其根, 霍中洋, 许轲, 魏海燕, 高辉. 籼、粳超级稻光合物质生产与转运特征的差异. 作物学报, 2014, 40: 497?510

Gong J L, Xing Z P, Hu Y J, Zhang H C, Dai Q G, Huo Z Y, Xu K, Wei H Y, Gao H. Difference of characteristics of photosynthesis, matter production and translocation between indica and japonica super rice. Acta Agron Sin, 2014, 40: 497?510 (in Chinese with English abstract)

[15]杨建昌, 王朋, 刘立军, 王志琴, 朱庆森. 中籼水稻品种产量与株型演进特征研究. 作物学报, 2006, 32: 949?955

Yang J C, Wang P, Liu L J, Wang Z Q, Zhu Q S. Evolution characteristics of grain yield and plant type for mid-season indica rice cultivars. Acta Agron Sin, 2006, 32: 949?955 (in Chinese with English abstract)

[16]熊洁, 陈功磊, 王绍华, 丁艳锋. 江苏省不同年代典型粳稻品种的产量及株型差异. 南京农业大学学报, 2011, 34(5): 1?6

Xiong J, Chen G L, Wang S H, Ding Y F. The difference in grain yield and plant type among typical japonica varieties in different years in Jiangsu Province. J Nanjing Agric Univ, 2011, 34(5): 1?6 (in Chinese with English abstract)

[17]张庆, 殷春渊, 张洪程, 魏海燕, 马群, 杭杰, 李敏, 李国业. 水稻氮高产高效与低产低效两类品种株型特征差异研究. 作物学报, 2010, 36: 1011?1021

Zhang Q, Yin C Y, Zhang H C, Wei H Y, Ma Q H J, Li M, Li G Y. Differences of plant-type characteristics between rice cultivars with high and low levels in yield and nitrogen use efficiency. Acta Agron Sin, 2010, 36: 1011?1021 (in Chinese with English abstract)

[18]李敏, 张洪程, 杨雄, 葛梦婕, 马群, 魏海燕, 戴其根, 霍中洋, 许轲. 不同氮利用效率基因型水稻茎秆特性比较. 作物学报, 2012, 38: 1277?1285

Li M, Zhang H C, Yang X, Ge M J, Ma Q, Wei H Y, Dai Q G, Huo Z Y, Xu K. Comparison of culm characteristics with different nitrogen use efficiencies for rice cultivars. Acta Agron Sin, 2012, 38: 1277?1285 (in Chinese with English abstract)

[19]袁隆平, 武小金, 颜应成, 罗孝和. 水稻广谱广亲和系的选育策略. 中国农业科学, 1997, 30(4): 1?8

Yuan L P, Wu X J, Yan Y C, Luo X H. A strategy for developing wide spectrum compatibility rice line. Sci Agric Sin, 1997, 30(4): 1?8 (in Chinese with English abstract)

[20]Li R H, Jiang T B, Xu C G, Li X H, Wang X K. Relationship between morphological and genetic differentiation in rice (Oryza sativa L.). Euphytica, 2000, 114: 1?8

[21]马荣荣, 许德海, 王晓燕, 禹盛苗, 金千瑜, 欧阳由男, 朱练峰. 籼粳亚种间杂交稻甬优6号超高产株形特征与竞争优势分析. 中国水稻科学, 2007, 21: 282?286

Ma R R, Xu D H, Wang X Y, Yu S M, Jin Q Y, Ou-Yang Y N, Zhu L F. Competition advantage on plant morphology of Yongyou 6: an yield indica-japonica super hybrid rice. Chin J Rice Sci, 2007, 21: 282?286 (in Chinese with English abstract)

[22]许德海, 王晓燕, 马荣荣, 禹盛苗, 朱练峰, 欧阳由男, 金千瑜. 重穗型籼粳杂交稻甬优6号超高产生理特性. 中国农业科学, 2007, 21: 281?286

Xu D H, Wang X Y, Ma R R, Yu S M, Zhu L F, Ou-Yang Y N, Jin Q Y. Analysis on physiological properties of the heavy panicle type of indica-japonica inter-subspecific hybrid rice Yongyou6. Sci Agric Sin, 2007, 21: 281?286 (in Chinese with English abstract)

[23]Campbell C S, Heilman J L, Mclnnes K J, Wilson L T, Medley J C, Wu G W, Cobos D R. Seasonal variation in radiation use efficiency of irrigated rice. Agric For Meteorol, 2001, 110: 45?54

[24]Zhang L, van der Werf W, Bastiaans L, Zhang S, Li B, Spiertz J H J. Light interception and utilization in relay intercrops of wheat and cotton. Field Crops Res, 2008, 107: 29?42

[25]陈雨海, 余松烈, 于振文. 小麦生长后期群体光截获量及其分布与产量的关系. 2003, 29: 730?734

Chen Y H, Yu S L, Yu Z W. Relationship between amount or distribution of PAR interception and grain output of wheat communities. Acta Agron Sin, 2003, 29: 730?734 (in Chinese with English abstract)

[26]Chen W F, Xu Z J, Zhang L B, Zhou H F, Yang S R. Effects of different panicle type on canopy properties light distribution and dry matter production of rice population. Acta Agron Sin, 1995, 21: 83?89

[27]吕川根, 邹江石, 胡凝, 姚克敏. 水稻叶片形态对冠层特性和光合有效辐射传输的影响. 江苏农业科学, 2007, 23: 501?508

Lü C G, Zou J S, Hu N, Yao K M. Effects of morphological factors on canopy structure and transmission of photosynthetically active radiation in rice. Jiangsu J Agric Sci, 2007, 23: 501?508 (in Chinese with English abstract)

[28]李迪秦, 唐启源, 秦建权, 张运波, 郑华英, 杨胜海, 陈立军, 邹应斌. 施氮与氮管理模式对超级稻产量和辐射利用率的影响. 核农学报, 2010, 24: 809?814

Li D Q, Tang Q Y, Qin J Q, Zhang Y B, Zheng H Y, Yang S H, Chen L J, Zou Y B. Effects of nitrogen management patterns on grain yield, solar radiant use efficiency in super hybrid rice. J Nucl Agric Sci, 2010, 24: 809?814 (in Chinese with English abstract)

[29]李绪孟, 王小卉, 郑华斌, 黄璜. 水稻群体冠层结构及其光分布研究进展. 作物研究, 2012, 26: 591?595

Li X M, Wang X H, Zheng H B, Huang H. Research progress on canopy structure of and its light distribution in rice. Crops Res, 2012, 26: 591?595 (in Chinese with English abstract)

[30]Peng S, Gassman K G, Virmani S S, Sheehy J, Khush G S. Yield potential trends of tropical rice since release of IR8 and the challenge of increasing rice yield potential. Crop Sci, 1999, 39: 1552?1559

[31] Yang J, Peng S, Zhang Z, Wang Z, Visperas R M, Zhu Q. Grain yield and dry matter yields and partitioning of assimilates in japonica/indica hybrid rice. Crop Sci, 2002, 42: 766?772

[32]凌启鸿, 杨建昌. 水稻群体“粒叶比”与高产栽培途径的研究. 中国农业科学, 1986, 19(3): 1?8

Ling C H, Yang J C. Studies on “grain-leaf ratio” of population and cultural approaches of high yield in rice plants. Sci Agric Sin, 1986, 19(3): 1?8 (in Chinese with English abstract)

[33]杨建昌, 杜永, 吴长付, 刘立军, 王志琴, 朱庆森. 超高产粳型水稻生长发育特性的研究. 中国农业科学, 2006, 39: 1336?1345

Yang J C, Du Y, Wu C F, Liu L J, Wang Z Q, Zhu Q S. Growth and development characteristics of super-high-yielding mid-season japonica rice. Sci Agric Sin, 2006, 39: 1336?1345 (in Chinese with English abstract)

[34]李敏, 张洪程, 杨雄, 葛梦婕, 魏海燕, 戴其根, 霍中洋, 许轲. 高产氮高效型粳稻品种的叶片光合及衰老特性研究. 中国水稻科学, 2013, 27: 168?176

Li M, Zhang H C, Yang X, Ge M J, Wei H Y, Dai Q G, Huo Z Y, Xu K. Leaf photosynthesis and senescence characteristics of japonica rice cultivars with high yield and high N-efficiency. Chin J Rice Sci, 2013, 27: 168?176 (in Chinese with English abstract)

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