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作物学报 ›› 2011, Vol. 37 ›› Issue (05): 832-841.doi: 10.3724/SP.J.1006.2011.00832

• 耕作栽培·生理生化 • 上一篇    下一篇

非对称性增温对水稻品种南粳44米质及关键酶活性的影响

董文军1,田云录1,张彬1,陈金1,张卫建1,2,*   

  1. 1南京农业大学应用生态研究所,江苏南京 210095;2中国农业科学院作物科学研究所 / 农业部作物生理生态与栽培重点开放实验室,北京100081
  • 收稿日期:2010-10-13 修回日期:2011-01-06 出版日期:2011-05-12 网络出版日期:2011-03-24
  • 通讯作者: 张卫建, E-mail: zhangweij@caas.net.cn
  • 基金资助:

    本研究由国家自然科学基金项目(30771278),江苏省自然科学基金重点项目(BK2004002),教育部新世纪优秀人才资助计划(NCET-050492)和中国农业科学院院所长基金资助。

Effects of Asymmetric Warming on Grain Quality and Related Key Enzymes Activities for Japonica Rice (Nanjing 44) under FATI Facility

DONG Wen-Jun1,TIAN Yun-Lu1,ZHANG Bin1,CHEN Jin1,ZHANG Wei-Jian1,2,*   

  1. 1 Institute of Applied Ecology, Nanjing Agricultural University, Nanjing 210095, China; 2 Institute of Crop Sciences, Chinese Academy of Agricultural Sciences / Key Laboratory of Crop Physiology, Ecology & Production, Ministry of Agriculture, Beijing 100081, China
  • Received:2010-10-13 Revised:2011-01-06 Published:2011-05-12 Published online:2011-03-24
  • Contact: 张卫建, E-mail: zhangweij@caas.net.cn

摘要: 气候变暖存在明显的昼夜不同步性,日最低气温升幅大于日最高气温升幅。到目前为止,基于稻田实际增温试验研究非对称性增温对稻米品质形成的影响尚少。笔者利用稻田开放式增温系统在江苏南京开展了昼夜不同增温对稻米品质及其关键酶活性的影响研究。结果表明,3种增温处理均明显提前了水稻的灌浆结实期,并改变了灌浆期高于35℃高温的出现日期和天数,引起了稻米整精米率、垩白率、垩白度、RVA特征谱、淀粉组分、淀粉合成关键酶活性、蛋白质含量以及蛋白质合成关键酶活性的明显变化。稻米的整精米率显著下降,垩白率和垩白度显著增加,总淀粉含量差异不显著,但籽粒中直链淀粉含量显著下降,籽粒中支/直淀粉比例显著提高。其中夜间增温的直链淀粉含量下降最多,全天增温的支/直比提高最多,比常规对照下降4.5%和提高4.6%。灌浆前期3种增温处理均降低了籽粒ADPG-PPase活性,而灌浆中后期表现不一致。增温处理对籽粒SBE活性的影响不明显。增温处理下稻米的峰值黏度、热浆黏度、崩解值和糊化温度呈上升趋势,最终黏度、消解值和回复值呈下降趋势。其中,以全天增温的峰值黏度和崩解值增幅最大,白天增温的最终黏度和回复值降幅最大。增温处理均降低了籽粒中蛋白质含量,全天和夜间增温差异显著,分别较常规对照降低5.6%和4.0%。灌浆前期3种增温处理均降低了籽粒GS、GOGAT活性,灌浆中后期有所差异。上述结果表明,预期的气候变暖将使稻米的加工、外观品质变劣。稻米直链淀粉含量可能受灌浆前期ADPG-PPase活性的影响较大,而支链淀粉含量受SBE活性的影响较大。蛋白质的合成与灌浆前期GS和GOGAT活性关系密切。因此,增温对稻米品质及关键酶的影响较为复杂。

关键词: 气候变暖, 开放式增温, 稻米品质, 淀粉, 蛋白质, 关键酶

Abstract: Climate warming presents significantly asymmetric trends with greatly diurnal differences, greater temperature elevations existing for the daily mean minimum temperature than for the daily mean maximum temperature. So far, the evidence is lacking for the effects of asymmetric warming on grain quality of single cropping rice based on field experiments. We performed field warming experiment under Free Air Temperature Increased (FATI) facility to investigate the impacts of asymmetric warming on grain quality and activities of key enzymes of single cropping rice in 2008 in Nanjing city, Jiangsu province, China. The results showed that the all-day warming (AW), daytime warming (DW) and nighttime warming (NW) treatments obviously advanced the grain filling and seed setting stage and changed the beginning date and the duration of high temperature above 35°C in the stage of grain filling, consequently resulting in obvious changes of head rice rate, chalky grain rate, chalkiness, RVA characteristics, starch content and its components, protein content and the activities of key enzymes for starch and protein syntheses. All the treatments decreased significantly head rice rate, increased significantly chalky grain rate and chalkiness of rice grain, and had no significant impact on the starch content of rice grain but tended to reduce the amylose content and increase the ratio of amylopectin to amylose. And the highest values of the amylose content and the ratio of amylopectin to amylose existed in the NW and AW plots which were 4.5% lower and 4.6% higher than those in the control plots in 2008, respectively. The activity of ADPG-PPase in grain decreased under the warmed plots during the early phase of rice grain filling,while had certain differences during the middle and late phases of rice grain filling. Warming treatments had no significant effect on the activity of SBE in grain. There were increasing trends of peak viscosity, hot viscosity, break down and pasting temperature, and decreasing trends of final viscosity, setback and consistency in rice grain under the warmed plots. The highest increase of peak viscosity and break down existed in the AW plots, and the highest decrease of final viscosity and consistency existed in the DW plots compared with those in control plots. The content of grain protein was decreased by warming treatments. Grain protein contents were significantly decreased by 5.6% and 4.0%, respectively in the AW and NW treatments. The activities of GS and GOGAT in grain were decreased under the warmed plots during the early phase of rice grain filling, while there were differences for them during the middle and late phase of rice grain filling. All these results suggest that milling and appearance qualities of rice would get worse under warming plots. The impact of ADPG-PPase activity was greater on amylose content and that of SBE on amylopectin content in rice during the early phase of grain filling. The protein synthesis was closely related to the activities of GS and GOGAT during the early phase of rice filling. Therefore, the effects of asymmetric climate warming on grain quality and activities of key enzymes for single cropping rice are complicated.

Key words: Climate warming, Free air temperature increased (FATI), Rice quality, Starch, Protein, Key enzyme

[1]IPCC. Climate Change 2007: Synthesis Report: Summary for Policymakers.
[2010-8-28]. http://www.ipcc.ch
[2]Qin D-H(秦大河). Climate change and drought. Sci &Technol Rev (科技导报), 2009, 11: 3?3 (in Chinese)
[3]Harvey L D D. Warm days, hot nights. Nature, 1995, 377: 15?16
[4]Easterling D R, Horton B, Jones P D, Peterson T C, Karl T R, Parker D E, Salinger M J, Razuvayev V, Plummer N, Jamason P, Folland C K. Maximum and minimum temperature trends for globe. Science, 1997, 277: 364?367
[5]Meng Y-L(孟亚利), Zhou Z-G(周志国). Relationship between rice grain quality and temperature during seed setting period. Chin J Rice Sci (中国水稻科学), 1997, 11(1): 51?54 (in Chinese with English abstract)
[6]Lü W-Y(吕文彦), Shao G-J(邵国军), Cao P(曹萍), Cao B-C(曹炳晨). Effect of daily mean temperature on rice quality during grain filling period. Liaoning Agric Sci (辽宁农业科学), 1998, (4): 1?6 (in Chinese)
[7]Yang L-S(杨联松), Sun M(孙明), Zhang P-J(张培江), Bai Y-S(白一松), Xu C-W(许传万), Tang Q(唐旗), She D-H(佘德红). Effect of temperature and light on grain quality of medium japonica hybrid rice 80 you 121. Hybrid Rice (杂交水稻), 1998, 13(6): 23?25 (in Chinese and English abstract)
[8]Cheng F-M(程方民), Zhong L-J(钟连进). Variation of rice quality traits under different climate conditions and its main affected factors. Chin J Rice Sci (中国水稻科学), 2001, 15(3): 187?191 (in Chinese and English abstract)
[9]Teng Z-H(滕中华), Zhi L(智丽), Zong X-F(宗学凤), Wang S-G(王三根), He G-H(何光华). Effects of high temperature on chlorophyll fluorescence, active oxygen resistance activity, and grain quality in grain-filling periods in rice plants. Acta Agron Sin (作物学报), 2008, 34(9): 1662?1666 (in Chinese and English abstract)
[10]Cheng F-M(程方民), Jiang D-A(蒋德安), Wu P(吴平), Shi C-H(石春海). The dynamic change of starch synthesis enzymes during the grain filling stage and effects of temperature upon it. Acta Agron Sin (作物学报), 2001, 27(2): 201?206 (in Chinese and English abstract)
[11]Cheng F-M(程方民), Zhong L-J(钟连进), Sun Z-X(孙宗修). Effects of temperature at grain-filling stage on starch biosynthetic metabolism in developing rice grains of early-indica. Sci Agric Sin (中国农业科学), 2003, 36(5): 492?501 (in Chinese and English abstract)
[12]Hirel B, Bertin P, Quillere I, Bourdoncle W, Attagnant C, Dellay C, Gouy A, Cadiou S, Retailliau C, Falque M, Gallais A. Towards a better understanding of the genetic and physiological basis for nitrogen use efficiency in maize. Plant Physiol, 2001, 125: 1258?1270
[13]Martin A, Lee J, Kichey T, Gerentes D, Zivy M, Tatout C, Dubois F, Balliau T, Valot B, Davanture M, Terce-Laforgue T, Quillere I, Coque M, Gallais A, Gonzalez-Moro M, Bethencourt L, Habash D, Lea P, Charcosset A, Perez P, Murigneux A, Sakakibara H, Edwards K, Hirel B. Two cytosolic glutamine synthetase isoforms of maize are specifically involved in the control of grain production. Plant Cell, 2006, 18: 3252?3274
[14]Liang C-G(梁成刚), Chen L-P(陈利平), Wang Y(汪燕), Liu J(刘佳), Xu G-L(许光利), Li T(李天). Effects of high temperature on key enzyme activities of nitrogen metabolism and protein content during rice grain filling. Chin J Rice Sci (中国水稻科学), 2010, 24(4): 398?402 (in Chinese with English abstract)
[15]Huang Y-J(黄英金), Qi Y-X(漆映雪), Liu Y-B(刘宜柏), Chen D-Z(陈大洲). Effect of climate factors on the contents of protein and four protein fractions in early hsien rice during the milking and mature period. Chin J Agrometeorol (中国农业气象), 2002, 23(2): 9?12 (in Chinese and English abstract)
[16]Tao H-J(陶红娟). Grain Yield and Quality as Affected by High Temperature during Grain Filling Period and Physiological Mechanism in Rice. Postgraduate. Dissertation of Yangzhou University, 2007 (in Chinese and English abstract)
[17]Shi C-L(石春林), Jin Z-Q(金之庆), Ge D-K(葛道阔), Su G-L(苏高利). Gradual effects of climate change on food production and adaptation strategies in the middle and lower valley of Yangtze River. Jiangsu J Agric Sci (江苏农业学报), 2001, 17(1): 1?6 (in Chinese and English abstract)
[18]Tang X-R(唐湘如), Yu T-Q(余铁桥). Effect of temperature on rice quality and some biological and physiologycal properties in milking ripening period. J Hunan Agric Coll (湖南农学院学报), 1991, 17(1): 1?9 (in Chinese and English abstract)
[19]Tang S-X(汤圣祥), Jiang Y-Z(江云珠), Li S-S(李双盛), Yu H-Y(余汉勇), Zhang Y-K(张云康). Observation on the amyloplasts in endosperm of early indica rice with scanning electron microscope. Acta Agron Sin (作物学报), 1999, 25(2): 269?272 (in Chinese and English abstract)
[20]Dong W-J(董文军), Deng A-X(邓艾兴), Zhang B(张彬), Tian Y-L(田云录), Chen J(陈金), Yang F(杨飞), Zhang W-J(张卫建). An experimental study on the effects of different diurnal warming regimes on single cropping rice with Free Air Temperature Increased (FATI) facility. Acta Ecol Sin (生态学报), 2011, 31(8): ????? (In Press) (in Chinese and English abstract)
[21]Supervising Department of Quality and Technology of China (国家质量技术监督局). The National Standard of the People’s Republic of China (中华人民共和国国家标准), High Quality Paddy (优质稻谷). GB/T17891-1999, 1999 (in Chinese)
[22]Shanghai Institute of Plant Physiology Chinese Academy of Sciences, Shanghai Society of Plant Physiology (中国科学院上海植物生理研究所, 上海市植物生理学会). Modern Laboratory Manual of Plant Physiology (现代植物生理学实验指南). Beijing: Science Press, 1999 (in Chinese)
[23]Standard of Ministry of Agriculture, P. R. China (中华人民共和国农业部部颁标准). Method for Rice Quality Measurement (米质测定方法). NY147-88, Beijing: Standard Press of China, 1988. pp 4?6 (in Chinese)
[24]American Association of Cereal Chemists (AACC). Methods 61-02 for RVA. 9th ed. St. Paul, MN: AACC, 1995
[25]Lü B(吕冰), Guo Z-G(郭志刚), Liang J-S(梁建生). Effects of the changes of relative enzyme activities with starch synthesis in rice endosperm on amylopectin fine structure. Sci China, Ser C: Life Sci (中国科学C辑: 生命科学), 2008, 38(8): 766?773 (in Chinese)
[26]Zhao Q-Z(赵全志), Yin C-Y(殷春渊), Ning H-F(宁慧峰), Chen J-R(陈静蕊), Qiao J-F(乔江方), Liu H(刘辉), Yang H-X(杨海霞). Effects of nitrogen regulation on grain relative plumpness of rice and relationship between grain relative plumpness and yield and grain quality. J Henan Agric Univ (河南农业大学学报), 2007, 41(2): 128?133 (in Chinese and English abstract)
[27]Nakamura Y, Yuki K, Park S Y. Carbohydrate metabolism in the developing endosperm of rice grains. Plant Cell Physiol, 1989, 30: 833?839
[28]Ma X-M(马新明), Li L(李琳), Zhao P(赵鹏), Xiong S-P(熊淑萍), Guo F(郭飞). Effect of water control on activities of nitrogen assimilation enzymes and grain quality in winter wheat. Acta Phytoecol Sin (植物生态学报), 2005, 29(1): 48?53 (in Chinese and English abstract)
[29]Hu J(胡健), Yang L-X(杨连新), Zhou J(周娟), Wang Y-L(王余龙), Zhu J-G(朱建国). Effect of free-air CO2 enrichment (FACE) on grain filling dynamics of rice. Sci Agric Sin (中国农业科学), 2007, 40(11): 2443?2451 (in Chinese with English abstract)
[30]Wang F(王丰), Cheng F-M(程方民), Zhong L-J(钟连进), Sun Z-X(孙宗修). Difference of RVA profile among different early indica rice varieties and effect of temperature at grain filling stage on it. Chin J Rice Sci (中国水稻科学), 2003, 17(4): 328?332 (in Chinese with English abstract)
[31]Hak Y. Grain quality characteristic for brow in rice. Korean J Crop Sci, 1994, 39(1): 38?44
[32]Dai Y-Y(戴云云), Ding Y-F(丁艳锋), Liu Z-H(刘正辉), Wang Q-S(王强盛), Li G-H(李刚华), Wang S-H(王绍华). Effects of elevated night temperature by far-infrared radiation at grain filling on grain quality of rice. Chin J Rice Sci (中国水稻科学), 2009, 23(4): 414?420 (in Chinese with English abstract)
[33]Li L(李林), Sha G-D(沙国栋), Lu J-H(陆景淮). Effects of temperature and light on rice quality during grain filling period. Chin J Agrometeorol (中国农业气象), 1989, 10(3): 33?38 (in Chinese)
[34]Shen B(沈波), Cheng N(陈能), Li T-G(李太贵), Luo Y-K(罗玉坤). Effect of temperature on rice chalkiness formation and changes of materials in endosperm. Chin J Rice Sci (中国水稻科学), 1997, 11(3): 183?186 (in Chinese with English abstract)
[35]Li X(李欣), Gu M-H(顾铭洪), Pan X-B(潘学彪). A study on grain quality of rice: II. The effect of environmental factors in the period of grain filling on rice grain quality. J Jiangsu Agric Coll (江苏农学院学报), 1989, 10(1): 7?12 (in Chinese with English abstract)
[36]Takeda K, Sasaki T. Temperature response of amylose content in rice varieties of Hokkaido. Jpn J Breed, 1988, 38: 357?362
[37]Gomez K A. Effect of environment on protein and amylose content of rice. In: Proceedings of the Workshop of Chemical Aspects of Rice Grain Quality. Philippines: International Rice Research Institute, 1979. pp 59?65
[38]Normita D C, Kumar I, Kaushik R P, Khush G S. Effect of temperature during grain development on stability of cooking quality components in rice. Jpn J Breed, 1989, 39: 299?306
[39]Zhou D-Y(周德翼), Zhang S-W(张嵩午), Gao R-S(高如嵩), Zhu B-Y(朱碧岩). The relationship between amylase content in rice grain and temperature in grain-filling stage. Acta Univ Agric Boreali-Occident (西北农业大学学报), 1994, 22(2): 1?5 (in Chinese with English abstract)
[40]Jin Z-X(金正勋), Yang J(杨静), Qian C-R(钱春荣), Liu H-Y(刘海英), Jin X-Y(金学泳), Qiu T-Q(秋太权). Effects of temperature during grain filling period on activities of key enzymes for starch synthesis and rice grain quality. Chin J Rice Sci (中国水稻科学), 2005, 19(4): 377?380 (in Chinese and English abstract)
[41]Shugo C, Heiich K, Yuko S. Effect of temperature at ripening period on the eating quality of rice: Effect of temperature maintained in constant levels during the entire ripening period. Jpn J Crop Sci, 1979, 48: 475?482
[42]Toshio T A. Relation between mean air temperature during ripening period of rice and amylographic characteristics or cooking quality. Jpn J Crop Sci, 1999, 68(1): 45?49
[43]Zhang G-F(张国发), Wang S-H(王绍华), You J(尤娟), Zhang Y-X(张艳霞), Wang Q-S(王强盛), Ding Y-F(丁艳锋). Effects of relatively high temperature at grain-filling stage on rice grain’s starch viscosity profile and magnesium and potassium contents. Chin J Appl Ecol (应用生态学报), 2008, 19(9): 1959?1964 (in Chinese with English abstract)
[44]Zhou G-Q(周广洽), Xu M-L(徐孟亮), Tan Z(谭周), Li X-Z(李训贞). Effects of ecological factors of protein and amino acids of rice. Atca Ecol Sin (生态学报), 1997, 17(5): 537?542 (in Chinese with English abstract)
[45]Ma Q-L(马启林), Li Y-S(李阳生), Tian X-H(田小海), Yan S-Z(鄢圣之), Lei W-C(雷慰慈), Zhong T-S(中田升). Influence of high temperature stress on composition and accumulation configuration of storage protein in rice. Sci Agric Sin (中国农业科学), 2009, 42(2): 714?718 (in Chinese with English abstract)
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