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作物学报 ›› 2011, Vol. 37 ›› Issue (06): 1101-1108.doi: 10.3724/SP.J.1006.2011.01101

• 研究简报 • 上一篇    下一篇

吉林省1958-2005年间育成推广水稻品种部分叶片特征的变化

赵国臣1,2,姜楠1,徐克章1,*,凌凤楼1,武志海1,邸玉婷1   

  1. 1吉林农业大学农学院,吉林长春130118;2吉林省农业科学院水稻研究所,吉林长春130124
  • 收稿日期:2010-10-25 修回日期:2011-03-06 出版日期:2011-06-12 网络出版日期:2011-04-12
  • 通讯作者: 徐克章, E-mail: kzx0708@yahoo.com.cn
  • 基金资助:

    本研究由吉林省科学技术厅重点项目(20080201)和农业部跨越计划项目资助(200754)资助。

Changes of Some Leaf Characteristics in Rice (Oryza sativa L.) Varieties Released from 1958 to 2005 in Jilin Province

ZHAO Guo-Chen1,2,JIANG Nan1,XU Ke-Zhang1,*,LING Feng-Lou1,WU Zhi-Hai1,DI Yu-Ting1   

  1. 1 Agronomy College, Jilin Agricultural University, Changchun 130118, China; 2Institute of Rice Research, Jilin Academy of Agricultural Sciences, Changchun 130124, China
  • Received:2010-10-25 Revised:2011-03-06 Published:2011-06-12 Published online:2011-04-12
  • Contact: 徐克章, E-mail: kzx0708@yahoo.com.cn

摘要: 以吉林省1958—2005年间育成并推广的33个水稻品种为材料,研究了植株抽穗后10 d叶片数量、叶面积、光合势(LAD)、上三叶叶片的长度、宽度和叶面积以及剑叶叶绿素含量(CCI)和比叶重(SLW)的变化及其与产量的关系。结果表明,吉林省47年来水稻品种的平均产量由7 756.6 kg hm-2提高到12 807.3 kg hm-2,增加了65.11%,平均每年增加1.39%。随着水稻品种产量的提高,单株叶面积和LAD增加,并与育成年代和产量呈显著正相关。单株叶面积和LAD的增加主要是植株叶片数量和倒三叶叶面积显著增加的结果;倒二叶叶面积变化不大;剑叶长度显著变短,面积呈下降趋势,但剑叶叶绿素含量和SLW与育成年代和产量呈显著正相关。本文结果表明,吉林省水稻品种产量的遗传改良主要是通过增加抽穗后植株叶片数量和倒三叶叶面积,提高了单株叶面积和LAD。水稻抽穗后植株叶片数量、单株叶面积、LAD、CCI值和SLW可以作为高产品种的参考指标。

关键词: 水稻, 产量, 遗传改良, 叶片

Abstract: In order to understand the changes of leaf characteristics associated with yield during the genetic improvement of rice, 33 japonica rice varieties released from 1958 to 2005 were planted under same field conditions. Some indexes related to leaf characteristics, such as leaf number, leaf area per plant, leaf area duration (LAD), length, width and area of top three leaves, chlorophyll content index (CCI) and specific leaf weight (SLW) of flag-leaf were measured at 10d after heading. The results showed that the grain yield was increased from 7 756.6 kg ha-1 in 1958 to 12 807.3 kg ha-1 in 2005, with the increase of 65.11% in 47 years and an annual increase rate of 1.39% according to the calculation of regression equation. The increasing of grain yield was mainly attributed to the increase of leaf number, leaf area per plant and LAD with years of release. By studying on the top three leaves of plant, our results showed that the significant decrease of flag-leaf length resulted in the decline of flag-leaf area; the changes of top second leaf area was not obvious; as the increase in the length and width of top 3rd leaf, significantly increased was found in its area with years of release. Leaf number, leaf area per plant and LAD were all positive correlated with years of release significantly. CCI and SLW of flag-leaf were positively correlated with year of release and with yield significantly. Our results showed that the increase of plantleaf area and LAD were resulted from the increase ofleaf number and the area of top 3rd leaf. CCI and SLW of flag-leaf were increased with years of release. We suggested that leaf number, leaf area per plant, LAD, and CCI as well as SLW of flag-leaf at 10d after heading could be as potential indices in the future high yield rice breeding.

Key words: Rice, Yield, Genetic improvement, Leaf

[1]Zhao G-C(赵国臣), Guo X-M(郭唏明). Prospects of Jilin rice cultivation in 21 century. J Agric Sci Yanbian Univ (延边大学农学学报), 2000, 21(1): 63?65 (in Chinese with English abstract)
[2]Chen W-F(陈温福), Xu Z-J(徐正进), Zhang B-L(张龙步). Theories and methods of breeding japonica rice for super high yield. J Shenyang Agric Univ (沈阳农业大学学报), 2005, 36(1):3?8(in Chinese with English abstract)
[3]Heath O V, Gregory F G. The constancy of the mean net assimilation rate and its ecological importance. Ann Bot, 1938, 2:811?818
[4]Watson D J. Comparative physiological studies on the growth of field crops. Ann Bot, 1947, 11:375?407
[5]Su Z-F(苏祖芳), Wang H-B(王辉斌), Du Y-L(杜永林), Zhang Y-J(张亚洁), Ji C-M(季春梅), Zhou P-N(周培南). Relationship between population quality and yield formation at middle growth stage in rice. Sci Agri Sin (中国农业科学), 1998, 31(5): 19?25 (in Chinese with English abstract)
[6]Yang J-C(杨建昌), Zhu Q-S(朱庆森), Cao X-Z(曹显祖). The effects of the structure and photosynthetic characters of rice canopy on the yield formation in rice plant. Sci Agri Sin (中国农业科学), 1992, 25(4): 7?14 (in Chinese with English abstract)
[7]Ling Q-H(凌启鸿), Zhang H-C(张洪程), Cai J-Z(蔡建中), Su Z-F(苏祖芳), Ling L(凌励). Investigation on the population quality of high yield and its optimizing control program in rice. Sci Agri Sin (中国农业科学), 1993, 26(6): 1?11 (in Chinese with English abstract)
[8]Gladun I V, Karpov E A. Distribution of assimilates from the flag leaf of rice during the reproductive period of development. Russ J Plant Physiol, 1993, 40:215?219.
[9]Wan A-L(万安良), Zhong Y-M(钟永模). Studies on relationship between the flag leaf area and the panicle weight in rice cultivars. Sci Agri Sin (中国农业科学), 1981, 14(6): 21?28 (in Chinese with English abstract)
[10]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 Research, 2008, 108: 32?38
[11]Yang S-R(杨守仁), Zhang B-L(张龙步), Chen W-F(陈温福), Xu Z-J(徐正进), Wang J-M(王进民), Dong K(董克). The research results of ideal morphological breeding in Rice and their comparisons with the same studies at home and abroad. J Shenyang Agric Univ (沈阳农业大学学报), 1991, 22(suppl-1): 1?5 (in Chinese)
[12]Wu Z-H(武志海), Xu K-Z(徐克章), Zhao Y-J(赵颖君), He X-L(何晓亮), Wang X-L(王晓玲), Ling F-L(凌凤楼). Changes of some agronomic traits in japonica rice varieties during forty-seven years of genetic improvement in Jilin province, China. Chin J Rice Sci (中国水稻科学), 2007, 21(5): 507?512 (in Chinese with English abstract)
[13]Wu Z-H(武志海), Zhao G-C(赵国臣), Xu K-Z(徐克章), Di Y-T(邸玉婷),Jiang N(姜楠), Ling F-L(凌凤楼), Zhao Y-J(赵颖君). Changes in photosynthetic indexes of rice varieties during forty-seven years of genetic improvement in Jilin province, China. Chin J Rice Sci (中国水稻科学), 2009, 23(2): 165?171 (in Chinese with English abstract)
[14]Cheng S-H(程式华), Huang C-W(黄超武). Study on the evolutionary changes in yield and related characters of rice cultivars grown in the South-China region. J South China Agric Univ (华南农业大学学报), 1988, 9(1): 17?29 (in Chinese with English abstract)
[15]Yang J-C(杨建昌), Wang P(王朋), Liu L-J(刘立军), Wang Z-Q(王志琴), Zhu Q-S(朱庆森). Evolution characteristics of grain yield and plant type for mid-season indica rice cultivar. Acta Agron Sin (作物学报), 2006, 32(7): 945?955 (in Chinese with English abstract)
[16]Yuan J(袁江), Wang D-Y(王丹英), Ding Y-F(丁艳峰), Liao X-Y(廖西元), Zhang X-F(章秀福), Wang S-H(王绍华). Evolution characteristics of plant type during genetic improvement in early season indica rice. Chin J Rice Sci (中国水稻科学), 2009, 23(3): 277?281 (in Chinese with English abstract)
[17]Xu Z-J(徐正进), Chen W-F(陈温福), Zhang W-Z(张文忠), Liu L-X(刘丽霞), Zhou S-Q(周淑清), Zhang B-L(张步龙), Yang S-R(杨守仁). The yield potentiality of rice and its development of plant type. J Shenyang Agric Univ (沈阳农业大学学报), 2000, 31(6): 534?536 (in Chinese with English abstract)
[18]Xu D-Y(徐大勇), Du Y(杜永), Fang Z-W(方兆伟), Pan Q-M(潘启民), Yang J-C(杨建昌), Zhu Q-S(朱庆森).Comparison on main agronomical and quality characters between japonica cultivars with different panicle types in Jiang-Huai area. Acta Agron Sin (作物学报), 2006, 32(3): 379?384 (in Chinese with English abstract)
[19]Wan Z-B(万志兵), Hong D-L(洪德林), Cheng H-T(程海涛), Guo Y-H(郭玉华). Comparison of plant type traits between new and old varieties in japonica rice (Oryza sativa L.). J Nanjing Agric Univ (南京农业大学学报), 2005, 28(1): 1?5 (in Chinese with English abstract)
[20]Ishizuka Y. Physiology of the rice plant. Adv Agron, 1971, 23: 241?315
[21]Sasaki H, Ishii R. Cultivar differences in leaf photosynthesis of rice bred in Japan. Photosynthesis Res, 1992, 32: 139?146
[22]Di Y-T(邸玉婷), Zhang G-C(赵国臣), Xu K-Z(徐克章), Wu Z-H(武志海), Zhang Z-A(张治安), Ling F-L(凌凤楼), Jiang N(姜楠). Changes in organ biomass in rice cultivars released by Jilin province, China during forty-seven years of genetic improvement. Chin J Rice Sci (中国水稻科学), 2010, 24(3): 251?256 (in Chinese with English abstract)
[23]Matsusima S. High-yielding rice cultivation, Tokyo: University of Tokyo Press, 1976. pp 10?196 (in English)
[24]Yuan L-P(袁隆平). Hybrid Rice (杂交水稻), Changsha: Hunan Science & Technology Press, 1986 (in Chinese)
[25]Yang S-R(杨守仁), Zhang L-B(张龙步), Chen W-F(陈温福) , Xu Z-J(徐正进), Wang J-M(王进民). Theories and methods of rice breeding for maximum yield. Chin J Rice Sci (中国水稻科学), 1996, 10(2): 115?120 (in Chinese with English abstract)
[26]Khush G S. Prospects of and approach to increasing the genetic yield potential of rice. In: Evenson R E, Herdt R W, Hossain M, eds. Rice Research in Asia, Progress and Priorities. Wallingford, UK: CAB International and IRRI, 1996. pp 59?71
[27]ōno G(大野义一). Photosynthetic Efficiency in Differences Varieties and Dry Matter Production of Indica Rice (籼稻光合效率的品种间差异和干物质生产). Beijing: China Agriculture Press, 1979. pp 11?108 (in Chinese)
[28]Chen W-F(陈温福), Xu Z-J(徐正进). The Theory and Method of Super-High Yield Rice Breeding (水稻超高产育种理论与方法), Beijing: Science Press, 2007. pp 78?91 (in Chinese)
[29]Su Z-F(苏祖芳), Xu N-X(许乃霞), Sun C-M(孙成明), Zhang Y-J(张亚洁). Study on the relationship between rice plant type indices after heading stage and yield formation.Sci Agric Sin (中国农业科学), 2003, 36(1): 115?120 (in Chinese with English abstract)
[30]Wu W-G(吴文革), Zhang H-C(张洪程), Qian Y-F(钱银飞), Chen Y(陈烨), Xu J(徐军), Wu G-C(吴桂成), Zhai C-Q(翟超群), Huo Z-Y(霍中洋), Dai Q-G(戴其根). Analysis on dry matter production characteristics of middle-season indica super hybrid rice. Chin J Rice Sci (中国水稻科学), 2007, 21(3): 287?293 (in Chinese with English abstract)
[31]Katsura K, Maeda S, Horie T, Shiraiwa T. Analysis of yield attributes and crop physiological traits of Liangyoupeijiu, a hybrid rice recently bred in China. Field Crops Res, 2007, 103: 170?177
[32]Venkateswarlu B, Visperas R. M.. Source-Sink Relationships in Crop Plants. IRRI Research Paper Series No. 125. Philippines: International Rice Research Institute, 1987. pp 115?133
[33]Mae T. Physiological Nitrogen Efficiency in Rice: Nitrogen Utilization, Photosynthesis and Yield Potential. Plant Soil, 1997, 196: 201?210
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