Photosynthetic Characteristics of a Super High Yield Cultivar of Winter Wheat During Late Growth Period

文献类型: 外文期刊

第一作者: Meng Qing-wei

作者: Meng Qing-wei;Tian Ji-chun;Zhao Shi-jie;Sui Na;Li Meng

作者机构:

关键词: super high yield;wheat;photosynthetic characteristic;xanthophyll cycle;senescence

期刊名称:AGRICULTURAL SCIENCES IN CHINA ( 影响因子:0.82; 五年影响因子:0.997 )

ISSN: 1671-2927

年卷期: 2010 年 9 卷 3 期

页码:

收录情况: SCI

摘要: The mechanism of high yield of winter wheat in the field at late growth period was investigated by measuring the photosynthetic characteristics of photosystem II (PSII) and xanthophylls cycle, which could provide physiological reference for breeding. Weimai 8 (W8), a super high yield cultivar, and Lumai 14 (L14), a control cultivar were object. The photosynthetic rate (Pn), parameters of chlorophyll fluorescence and chlorophyll content were measured. The Pn, maximum photochemical efficiency of PSII (Fv/Fm), quantum yield of PSII electron transport (Phi PSII), efficiency of excitation energy capture by open PSII reaction centers (Fv'/Fm'), and photochemical quenching coefficient (qP) were higher in Weimai 8 compared to that in Lumai 14, a commercial high yield cultivar. Furthermore, Weimai 8 showed a lower non-photochemical quenching coefficient and a lower de-epoxidized ratio of the xanthophyll cycle pigments than of Lumai 14 at late growth period. At mature stage, chlorophyll content of different leaves decreased both in Weimai 8 and Lumai 14. Chlorophyll content in flag, second and third leaf from the top of plant decreased more in Lumai 14 than in Weimai 8. These results suggested that Weimai 8 had more antenna pigments to absorb light energy, and had higher photosynthetic capability and photochemical efficiency of PSII. The yield of Weimai 8 was also higher than that of Lumai 14.

分类号:

  • 相关文献

[1]Photosynthetic and biochemical activities in flag leaves of a newly developed superhigh-yield hybrid rice (Oryza sativa) and its parents during the reproductive stage. Zhang, C. -J.,Chu, H. -J.,Chen, G. -X.,Shi, D. -W.,Zuo, M.,Wang, J.,Lu, C. -G.,Wang, P.,Chen, L..

[2]Photochemical and antioxidative responses of the glume and flag leaf to seasonal senescence in wheat. Kong, Lingan,Sun, Mingze,Xie, Yan,Wang, Fahong,Zhao, Zhendong,Sun, Mingze. 2015

[3]Remobilization of vegetative nitrogen to developing grain in wheat (Triticum aestivum L.). Kong, Lingan,Xie, Yan,Hu, Ling,Feng, Bo,Li, Shengdong.

[4]Ferredoxin-quinone reductase benefits cyclic electron flow around photosystem 1 in tobacco leaves upon exposure to chilling stress under low irradiance. Li, X. -G.,Xu, P. -L.,Zhao, J. -P.,Meng, J. -J.,He, Q. -W.. 2006

[5]Xanthophyll Cycle and Inactivation of Photosystem II Reaction Centers Alleviating Reducing Pressure to Photosystem I in Morning Glory Leaves under Short-term High Irradiance. Li, Xin-Guo,Li, Jian-Yong,Zhao, Jin-Ping,Xu, Ping-Li,He, Qi-Wei.

[6]Changes in Violaxanthin Deepoxidase Activity and Unsaturation of Thylakoid Membrane Lipids in Indica and Japonica Rice Under Chilling Condition and Strong Light. Ji, BH,Cao, YY,Xie, HS,Zhu, SQ,Ma, Q,Jian, DM.

[7]Roles of the transthylakoid proton gradient and xanthophyll cycle in the non-photochemical quenching of the green alga Ulva linza. Zhang, Xiaowen,Mou, Shanli,Cao, Shaona,Fan, Xiao,Xu, Dong,Ye, Naihao.

[8]Occurrence of the PsbS and LhcSR products in the green alga Ulva linza and their correlation with excitation pressure. Zhang, Xiaowen,Ye, Naihao,Mou, Shanli,Xu, Dong,Fan, Xiao.

[9]Some photosynthetic responses to salinity resistance are transferred into the somatic hybrid descendants from the wild soybean Glycine cyrtoloba ACC547. Yang, Yong,Yan, Cheng-Qi,Cao, Bao-Hua,Xu, Hong-Xia,Chen, Jian-Ping,Jiang, De-An.

[10]Effects of heat and high irradiance stress on energy dissipation of photosystem II in low irradiance-adapted peanut leaves. Guo, F.,Yang, S.,Zhang, J. L.,Meng, J. J.,Li, X. G.,Feng, Y.,Wan, S. B..

[11]Analysis of Delta pH and the xanthophyll cycle in NPQ of the Antarctic sea ice alga Chlamydomonas sp ICE-L. Mou, Shanli,Zhang, Xiaowen,Ye, Naihao,Xu, Dong,Fan, Xiao,Miao, Jinlai,An, Meiling,Cao, Shaona. 2013

[12]Photoinhibition and photooxidation in leaves of indica and japonica rice under different temperatures and light intensities. Ji, BH,Jiao, DM. 2001

[13]Photochemical efficiency of PSII and membrane lipid peroxidation in leaves of indica and japonica rice (Oryza sativa) under chilling temperature and strong light stress conditions. Ji, BH,Zhu, SQ,Jiao, DM. 2002

[14]DEFICIENCY OF PHYTOCHROME B ALLEVIATES CHILLING-INDUCED PHOTOINHIBITION IN RICE. Yang, Jian-Chao,Han, Guo-Liang,Sui, Na,Wang, Bao-Shan,Li, Meng,Xie, Xian-Zhi. 2013

[15]An integration of photosynthetic traits and mechanisms that can increase crop photosynthesis and grain production. Black, CC,Tu, ZP,Counce, PA,Yao, PF,Angelov, MN. 1995

[16]Mutations of genes in synthesis of the carotenoid precursors of ABA lead to pre-harvest sprouting and photo-oxidation in rice. Fang, Jun,Chai, Chenglin,Li, Chunlai,Tang, Jiuyou,Huang, Zejun,Guo, Xiaoli,Sun, Changhui,Liu, Min,Wang, Yiqin,Cheng, Zhukuan,Chu, Chengcai,Fang, Jun,Chai, Chenglin,Li, Chunlai,Tang, Jiuyou,Huang, Zejun,Guo, Xiaoli,Sun, Changhui,Liu, Min,Wang, Yiqin,Cheng, Zhukuan,Chu, Chengcai,Fang, Jun,Chai, Chenglin,Li, Chunlai,Tang, Jiuyou,Huang, Zejun,Guo, Xiaoli,Qian, Qian,Sun, Lei,Zhang, Yan,Lu, Qingtao,Lu, Congming,Han, Bin,Chen, Fan.

[17]A transthylakoid proton gradient and inhibitors induce a non-photochemical fluorescence quenching in unicellular algae Nannochloropsis sp.. Cao, Shaona,Wang, Yitao,Wang, Wenqi,Cao, Shaona,Zhang, Xiaowen,Xu, Dong,Fan, Xiao,Mou, Shanli,Ye, Naihao.

[18]Effects of selenium and sulfur on antioxidants and physiological parameters of garlic plants during senescence. Cheng Bo,Lian Hai-feng,Yu Xin-hui,Sun Ya-li,Sun Xiu-dong,Shi Qing-hua,Liu Shi-qi,Liu Ying-ying. 2016

[19]Cloning and characterization of a gene encoding cysteine proteases from senescent leaves of Gossypium hirsutum. Shen, FF,Yu, SX,Han, XL,Fan, SL.

[20]Photosynthetic changes of flag leaves during senescence stage in super high-yield hybrid rice LYPJ grown in field condition. Wang, Yuwen,Zhang, Jingjing,Yu, Jing,Jiang, Xiaohan,Sun, Lingang,Wu, Min,Chen, Guoxiang,Wu, Min,Lv, Chuangen.

作者其他论文 更多>>

微信小程序