摘要
本文以米粉专用稻品种湘早籼33号和高产杂交早稻组合陆两优996为试材,采用核素示踪技术和常规技术相结合,系统研究了两种化学调节剂对其稻米直链淀粉含量(Amylose Content,AC)的影响及其生理基础,有关结论如下:
1、喷施化学调节剂可定向调控米粉稻稻米AC,对其产量也有一定影响。齐穗期喷施调节剂A能降低米粉稻稻米AC,而喷施调节剂B提高稻米AC。调节剂对米粉稻产量的影响因品种而异,调节剂A增加湘早籼33号产量,调节剂B降低其产量,两调节剂都使陆两优996产量降低,但与对照相比,差异都不显著。
2、喷施化学调节剂影响米粉稻籽粒淀粉的积累过程,最终改变其AC。齐穗期喷施调节剂A既能促进米粉稻灌浆前期籽粒淀粉积累,也能促进灌浆后期以支链淀粉为主的籽粒淀粉的积累,最终降低了稻米AC;喷施调节剂B也促进米粉稻灌浆前期籽粒淀粉的积累,但减弱其灌浆后期籽粒淀粉积累,最终提高稻米AC。
3、喷施化学调节剂可改变米粉稻“源—库”特征,影响其产量。喷施调节剂A使湘早籼33号增“源”、强“库”、畅“流”,增加其产量;调节剂B降低了湘早籼33号灌浆后期“流”的畅通性,使其产量降低;两调节剂均破坏了陆两优996灌浆后期“源—库”协调性,导致其减产。
4、喷施化学调节剂不仅可改变米粉稻植株地上部的生长特性,也影响其根系活力。齐穗期喷施调节剂能增强米粉稻根系活力,协调植株地上与地下部生长,增加植株对磷的吸收率,提高植株地上部各部位的磷含量。
Effect of two chemical regulators on Amylose Content(AC) of rice grainand their physiological foundations were studied with isotope tracertechnique and regular technology. Xiangzaoxian 33 and Luliangyou 996 wereused as materials for experiments, the former is a conventional ricevariety of noodle rice, while the latter is a High-yielding Early HybridRice Combination. The conclusions are as follows:
1. AC of noodle rice grain could be directionally changed by sprayingthe chemical regulator on rice plant, which also changed noodle rice yield.AC of noodle rice grain could be decreased by spraying regulator A onnoodle rice plant at full heading stage, while AC could be increased byspraying regulator B. The effects of regulators on yield of noodle ricevary with cultivars and regulators: Regulator A could increase yield ofXiangzaoxian 33, while regulator B decreased it. Both of the regulatorsdecreased yield of Luliangyou 996. But none of these had significantdifference with CK.
2. Grain starch accumulation of noodle rice could be changed byspraying regulators, which finally lead to change of AC. Starchaccumulation of early filling stage could be accelerated by sprayingregulator A at full heading stage, which also accelerated starchaccumulation of later filling stage, when it mainly synthesis Amylopectin.Finally, Grain AC of noodle rice was decreased. Starch accumulation ofearly filling stage also could be accelerated by spraying regulator B,which decreased starch accumulation of later filling stage, increasedgrain AC of noodle rice finally.
3. The "source-sink" relationship of noodle rice was changed byspraying regulators, which finally affected noodle rice yield. "source"、"sink" and "flow" of Xiangzaoxian 33 were increased、promoted and unimpeded by regulator A respectively, which increased itsyield, while yield of Xiangzaoxian 33 was decreased by regulator B, whichdecreased its free "flow" at later filling stage. The yield of LU LIANGYOU 996 were decreased by both of the regulators due to its harmony of"source-sink" was damaged.
4. The root activity of noodle rice was also affected by regulatorsas shoot was. The root activity and uptake percent of phosphorous wereincreased by Spraying regulators on noodle rice plant at full headingstage, which could also harmonized noodle rice growth of root and shoot,increased phosphorous content of all shoot parts.
引文
[1] 黄大金,夏胜平,涂清梅.湖南水稻竞争力分析及财政支持政策建议[J].湖南农业大学学报(社会科学版),2003,4(2):1~5
[2] PhDLeonora N. Panlasigui, PhDLilian U. Thompson, PhDBienvenido O. Juliano, et al. Extruded rice noodles: Starch digestibility and glycemic response of healthy and diabetic subjects with different habitual diets. Nutrition Research, 1992, 12(10): 1195~1204
[3] 王学华,李合松,青先国.米粉稻品质特性及加工研究进展[J].作物研究,2004,(5):304~307
[4] 闵军,黎用朝,黄海明.浅谈湖南专用稻研究现状与发展对策[J].中国稻米,2005(3):3~5
[5] 张喻,杨泌泉,吴卫国,等.大米淀粉特性与米线品质关系研究[J].食品科学,2003,24(6):35~38
[6] 何予卿,吕志仁.籼稻米AC的遗传及其基因剂量效应[J].华中农业大学学,1993,12(5):414~420
[7] 孙义伟.水稻灌浆成熟期气温对稻米品质的影响[J].水稻文摘,1993,12(2):6~8
[8] 李欣,顾铭洪.灌浆期间环境条件对稻米品质的影响[J].江苏农学院报,1989,10(1):7~12
[9] 赵式英.灌浆期气温对稻米食用品质的影响[J].浙江农业科学,1983,(4):178~181
[10] 何光存.稻米品系和品质育种[J].湖北农业科学,1985,(2):35~38
[11] 赵全志,吕强,熊瑛,等.化学调控对稻米品质的影响研究现状及展望[J].中国农学通报,2005,21(6):223~227
[12] 唐启源,邹应斌,黄志远,等.中后期化学调控对两系杂交早稻产量和米质的影响[J].湖南农业大学学报(自然科学版),2001,27(1):4~6
[13] 张喻,杨泌全,吴卫国,等.方便米线品质影响因素的研究[J].粮食与饲料工业,2004(7):16~17
[14] 段蓉.大米制品面面观[J].四川粮油科技,1994(1),21~22
[15] 李里特,成明华.米粉的生产与研究现状[J].食品与机械,2000(3):10~12
[16] 赵思明,刘友明,熊善柏,等.方便米粉的原料适应性与品质特性研究[J].粮食与饲料,2002,(6):37~39
[17] 杨建昌,王志琴.外源植物激素对水稻光合能力与产量的影响[J].江苏农学院学报,1995,16(1):27~31
[18] Tom J. Guilfoyle. Aux/IAA proteins and auxin signal transduction. Trends in Plant Science, 1998, 3(6):205~208
[19] 何之常,徐乃瑜.乙酸氧化酶和过氧化物酶关系的同工酶研究[J].武汉大学学报(自然科学版),1994(1):91~95
[20] Martin C, Smith A M. Starch biosynthesis. The plant cell, 1995, 7: 971~985.
[21] Nakamura Y, Yuki K, Park S Y. Carbohydrate metabolism in the developing endosperm of rice grains. Plant Cell and PhysiologY, 1989, 30: 833~839.
[22] Nakamura Y, Yuki K. Changes in enzyme activities associated with carbohydrate metabolism during development of rice endosperm. Plant Science, 1992, 82:15~20.
[23] 孙亮先.发育中水稻种子淀粉合成分子机制的研究[J].泉州师范学院学报(自然科学版),2004,22(2):94~99
[24] 包劲松,夏英武.水稻淀粉合成的分子生物学研究进展[J].植物学通报,1999,16(4):352~358
[25] 刘保国,任昌福.水稻品种直链淀粉的积累特性与Wx蛋白的关系[J].西南农业大学学报,1989,11(4):378~382
[26] 何秀英,吴东辉,伍时照,等.水稻直链淀粉形成积累动态的研究[J].华南农业大学学报(自然科学版),2003,24(3):9~12
[27] van de Wal M, D' Hulst C, Vincken JP, et al. Amylose is synthesized in vitro by extension of and cleavage from amylopectin. J Biol Chem, 1998,273(35):22232~22240
[28] Ball SG, van de Wal MHBJ, Visser RGF. Progress in understanding the biosynthesis of amylase. Trends Plants Science, 1998,3(12):462~467
[29] 何祖华,申宗坦.水稻糯质基因对籽粒物质积累的影响[J].中国农业科学,1995,28(4):20~24
[30] 陈刚,王忠,刘巧泉,等.转反义Wx基因水稻颖果中与淀粉合成和积累相关酶活性的变化[J].植物生理与分子生物学报,2006,32(2):209~216
[31] 程方民,蒋德安,吴平,等.早籼稻籽粒灌浆过程中淀粉合成酶的变化及温度效应特征[J].作物学报,2001,27(2):201~206
[32] 金正勋,秋太权,孙艳丽,等.稻米品质形成机理研究——品质不同的粳稻品种籽粒灌浆过程中胚乳内涵物质积累动态的比较研究[J].东北农业大学学报,2000,31(2):105~111
[33] P. Jayamani, S. Negrao, C. Brites, et al. Potential of Waxy gene microsatellite and single-nucleotide polymorphisms to develop japonica varieties with desired amylose levels in rice (Oryza sativa L.). Journal of Cereal Science, In Press, Corrected Proof, Available online 14 March 2007
[34] 严长杰,田舜,张正球,等.水稻栽培品种淀粉合成相关基因来源及其对品质的影响[J].中国农业科学,2005,39(5):865~871
[35] 孙业盈,吕彦,董春林,等.水稻Wx基因表达调控的研究进展[J].遗传,2005,27(6):1013~1019
[36] 孙业盈,吕彦,董春林,等.水稻Wx基因与稻米AC、GC和GT的遗传关系[J].作物学报,2005,31(5):535~539
[37] 高方远,王宗阳,李浩杰,等.导入反义Wx基因改良杂交籼稻保持系直链淀粉含量[J].作物学报,2005,31(7):876~881
[38] 陆美芳,刘巧泉,陈秀花,等.反义Wx基因导入我国常规籼稻品种的研究[J].扬州大学学报(农业与生命科学版),2003,24(3):32~36
[39] 邹良平,起登凤,李平,等.利用农杆菌介导法将反义Wx基因导入水稻的研究[J].分子植物育种,2004,2(6):765~770
[40] 陈刚,王忠,刘巧泉,等.转反义Wx基因水稻颖果的发育及物质积累[J].中国水稻科学,2006,20(3):277~282
[41] 陈双龙.影响稻米品质因素分析及配套保优高产栽培技术对策[J].福建稻麦科技,2002,20(3):37~40.
[42] 熊振民,朱旭东.稻米品质研究的新进展[J].水稻文摘,2000.(5):17~20.
[43] 徐辰武,张爱红.几个籼粳杂交组合稻米品质性状遗传表达的鉴别[J].中国水稻科学,1998,12(1):51~54.
[44] Autreyhs. Effects of milling conditions on breakage of rice grains[J].J. Agr. Food Xhem, 1955, 3: 593~599.
[45] 何光存.米粒不同层次淀粉的生理梯度特性[J].水稻文摘,1990,9(3)5~8.
[46] 环爱华.浅谈稻米品质及其影响因素[J].中国稻米,2001,(4):8~10.
[47] 袁定阳,齐绍武.两系杂交稻与品质性状间的典型相关分析[J].杂交水稻,1999,14(4):37~38.
[48] 蔡秋红,黄荣华.杂交籼稻品质性状的基因型与环境效应[J].福建农业大学学报,1994,23(4):386~389.
[49] 石春梅,朱军.籼稻稻米外观品质与其它品质性状的相关分析[J].浙江农业大学学报,1994,20(6):606~610.
[50] 程方民,钟连进,孙宗修.灌浆结实期温度对早籼水稻籽粒淀粉合成代谢的影响[J].中国农业科学,2003,36(5):493~501
[51] 闵绍楷.稻米品质鉴定与改良.国外农学—水稻,1981,(3):113~123
[52] 钟旭华,李太贵.不同结实温度下稻米AC与千粒重的关系[J].中国水稻科学,1994,8(2):126~128.
[53] Comez K A.Effect of environment on protein and amylase content of rice[J].国外农学—水稻,1981,(3):146~148.
[54] 贾志宽,朱碧岩.灌浆气温的分布对稻米直链淀粉累积效应的初步研究[J].云南农业大学学报,1991,(2):65~69.
[55] 谭周镦,周广恰.水稻结实期光照强度对米质影响的研究[J].湖南师范大学学报(自然科学版),1987(5):39~43
[56] 吴关庭,夏英武.环境与栽培对稻米品质的影响[J].中国稻米,1994,(4):37~39
[57] 张云康,汪爱莲,张惠群,等.中国籼稻AC的研究[J].作物品种资源,1993,(1):30~31
[58] 董桂春,王余龙,黄建晔,等.稻米品质性状对开放式空气二氧化碳浓度增高的响应[J].应用生态学报,2004,15(7):1217~1222
[59] 李筱明,刘进明.水稻品种不同季节栽培对稻米品质的影响[J].湖南农业科学,1993(5):16~17
[60] 徐大勇,金军,胡曙鋆,等.氮磷钾肥施用量对稻米AC和淀粉粘滞特性的影响[J].中国农学通报,2004,20(5):99~111
[61] 陶龙兴,王熹,黄效林,等.植物生长调节剂在农业中的应用及发展趋势[J].浙江农业学报,2001,13(5):322~326
[62] 刘松涛,曹雯梅,任景荣.2种土壤活性酶调节剂对水稻产量和品质的影响[J].河南农业科学,2006,(9):85~86
[63] 冯英梅,唐启,邹应斌,等.后期营养调控对食用优质稻产量和品质形成的影响[J].湖南农业大学学报(自然科学版),2002,28(6):457~462
[64] 刘建,魏亚凤,徐少安.几种物质对稻米品质及水稻产量的影响[J].长江大学学报(自科版),2005,2(5):4~8
[65] 李经勇,任天举,唐永群.赤霉素、植物细胞分裂素对再生稻的增产效应[J].西南农业学报,1996,10(2):26~31
[66] 吕艳梅,青先国.稻米AC及其影响因素研究进展[J].湖南农业科学,2003,(5):33~36
[67] 周广恰,谭周磁.关于稻米AC的研究[J].湖南农业科学,1987(6):12~16
[68] 刘宝国,成萍,宴月明,等.稻米品质的化学调控研究[J].西南农业大学学报,1993,15(4):287~290
[69] 唐湘如,谭中文,李之林,等.CPPU和PP333对杂交稻3个淀粉合成酶活性利米质的影响[J].杂交水稻,2002,17(3):44~46
[70] 王熹,陶龙兴,黄效林,等.赤霉素和多效唑对水稻“粒间顶端优势”的调节及对产量的影响[J].中国水稻科学,1999,12(4):217~222
[71] 卢碧林,王维金.新型植物生长调节物质对水稻产量及品质的影响研究[J].作物杂志,2005,5:31~33
[72] 刘德盛,陆修闽,何明忠,等.植物生长调节剂三十烷醇(TA)乳粉对水稻产量的影响[J].中国工程科学,2002,4(11):82~88
[73] 王绍忠,于树林,顾莉,等.植物生长调节剂对水稻产量的影响[J].垦殖与稻作,2005,(1):42~43
[74] 陈子元.不断开创我国同位素示踪技术新体系[J].核农学报,2003,17(5):325-327
[75] 崔远来,李远华,吕国安,等.不同水肥条件下水稻氮素运移与转化规律研究[J],水科学进展,2004,15(3):280~285
[76] 沈阿林,刘春增,张付申,等.不同水分管理对水稻生长与氮素利用的影响[J].植物营养与肥料学报,1997,3(2):111~116
[77] 沈阿林,王永歧,张学斌,等.沿黄稻麦区水稻生长和氮素利用与土壤透水性的关系[J].华北农学报,2003,18(1):90~93
[78] 倪竹如,陈俊伟,阮美颖.氮肥不同施用技术对直播水稻氮素吸收及其产量形成的影响[J].核农学报,2003,17(2):123~126
[79] 黄见良,李合松,李建辉,等.不同杂交水稻吸氮特性与物质生产的关系[J].核农学报,1998,12(2):89~94
[80] 符建荣.控释氮肥对水稻的增产效应及提高肥料利用率的研究[J].植物营养与肥料学报,2001,7(2):145~152
[81] 蔺万煌,萧浪涛,黄见良,等.早籼稻米垩白形成与稻株源-库特性关系的研究[J].核农学报,2003,17(6):462~465
[82] 严进明,翟虎渠,张荣铣,等.重穗型杂种稻光合和光合产物运转特性研究[J].作物学报,2001,27(2):261~266
[83] 姚素梅,王维金,陈国兴.5-氨基酮戊酸对水稻植株中。~(32)P吸收与分配的影响[J].植物营养与肥料学报,2006,12(1):70~75
[84] 唐年鑫,沈金雄.应用~(65)Zn、~(115)Cdm示踪研究水稻施锌肥时对镉的吸收及分布[J].同位素,1994,7(3):155~161
[85] 王玮,李合生.间苯二酚法测定植物中蔗糖含量.植物生理生化实验原理和技术,中国高等教育出版社,2001,199~200
[86] 王福钧.适于液闪测量的制样方法,农学中同位素示踪技术,农业出版社,1989,129~130
[87] SilvermanFP, AAAssiamah, DSBush. Planta, 1998, 205: 23~31
[88] 谢光辉,杨建昌,王志琴,等.水稻籽粒灌浆特性及其与籽粒生理活性的关系[J].作物学报,2001,27(5)557~565
[89] 黄锦文,梁康迳,梁义元,等.不同类型水稻籽粒灌浆过程内源激素含量变化的研究[J].中国生态农业学报,2003,11(2):11~13
[90] 杨建昌,苏宝林,王志琴,等.亚种间杂交稻籽粒灌浆特性及其生理的研究[J].中国农业科学,1998,31(1):7~14
[91] Kato T. Change of sucrose synthase activity in developing endosperm of rice cultivars. Crop Science, 35:827~831
[92] 袁隆平,王三良,马国辉,等.杂交水稻学[M].北京:中国农业出版社,2003:205~209
[93] 左科生,李育,仲平安.水稻理想株型与超高产育种的研究进展[J].江西农业学报,2003,15(1):37~42
[94] 徐正进,陈温福,张文忠,等.水稻产量潜力与株型演变[J].沈阳农业大学学报,2000,31(6):534~436
[95] 周开达,汪旭东,李仕贵,等.亚种间重穗型杂交稻研究[J].中国农业科学,1997,30(5):91~93