Effects of Different Ecological Conditions on Grain Quality and RVA Profile Characteristics of Japonica Rice Varieties from Yunnan Plateau of China and Korea

[Objective] This study aimed to investigate the variation characteristics of Yunnan and Korean japonica rice quality under different environmental conditions in Yunnan Plateau. [Method] Ten Yunnan japonica rice varieties and six Korean japonica rice varieties were selected to investigate the effects of ecological conditions on grain quality characteristics and starch RVA profile characteristic values of Yunnan and Korean japonica rice. [Result] The coefficient of variation of Yunnan and Korean japonica rice reached the maximum in setback viscosity (SBV). The coefficients of variation of brown rice length (BRL), chalkiness rate (CR), amylose content (AC), protein content (PC), alkali digestion value (ADV), final viscosity (FLV), setback viscosity (SBV) and peak time (PeT) of Yunnan japonica rice varieties were significantly higher than those of Korean japonica rice, while other grain quality characteristics were contrary. With the increasing altitudes, BRL, brown rice width (BRW), length-width ratio (L/W), whiteness (WH), AC, ADV, FLV and consistence viscosity (CTV) of Yunnan japonica rice and BRL, BRW, WH, PC, peak viscosity (PKV), hot viscosity (HTV) and breakdown viscosity (BDV) of Korean japonica rice were significantly reduced , while CR, PC, HTV and PeT of Yunnan japonica rice and L/W, AC, ADV and CTV of Korean japonica rice significantly increased, but CR of Korean japonica rice showed no significantly variation. PKV, BDV and pasting temperature (PaT) of Yunnan japonica rice and PaT of Korean japonica rice showed an upward trend after an initial drop with the increasing altitudes, while SBV of Yunnan japonica rice and FLV and PeT of Korean japonica rice were contrary. [Conclusion] This study provided theoretical basis for breeding of japonica rice in Yunnan Plateau.

杂交稻淀粉RVA谱特征值的配合力及杂种优势研究

以6个籼型三系杂交稻不育系和5个恢复系按不完全双列杂交配制的30个杂交稻组合及其亲本为材料,对其淀粉RVA谱特征值进行了测定和分析。结果表明:淀粉RVA谱特征值在各组合间均存在极显著遗传差异,其加性效应和非加性效应对杂交稻淀粉RVA谱特征值均存在极显著的影响,并以加性效应为主;杂交稻亲本RVA谱特征值一般配合力(GCA)效应高的,其后代特殊配合力(SCA)效应不一定高;杂交稻母本RVA谱特征值GCA方差在总的基因型方差中所占比重远远大于父本和组合SCA方差,表明杂交稻淀粉RVA谱特征值主要受不育系的影响;杂交稻淀粉RVA谱特征值的竞争优势与母本的GCA极显著正相关,且决定系数较高,表明杂交稻母本的一般配合力高,其所配杂交稻组合的竞争优势也强;杂交稻淀粉RVA谱特征值的峰值黏度存在明显的超高亲优势;糊化开始温度存在超低亲优势;其他性状存在中亲优势。

籼型杂交稻淀粉RVA谱特征值的杂种优势分析

以6个籼型三系不育系和5个籼型恢复系按不完全双列杂交设计配制的30个杂交稻组合及其亲本为材料,对其子粒淀粉RVA谱特征值进行了测定和分析。结果表明:1)亲本间和杂交稻组合间的淀粉RVA谱特征值均存在极显著的差异,其中变异最大的是消减值,最小的是糊化开始温度。2)杂交稻组合淀粉RVA谱特征值的变异系数均小于杂交稻亲本的变异系数;峰值粘度、崩解值、最低粘度和最终粘度的平均值杂交稻组合大于亲本,其他性状的平均值杂交稻组合小于亲本。3)峰值粘度存在极显著的正向超亲优势;崩解值、最低粘度、最终粘度和回复值存在极显著的正向中亲优势;消减值和峰值时间存在极显著的负向中亲优势和正向低亲优势;糊化开始温度存在极显著的负向低亲优势;最终粘度、回复值和糊化开始温度表现为极显著的负向竞争优势,其他性状表现为正向竞争优势。4)峰值粘度、崩解值、消减值和回复值等4个性状,各杂交稻组合与其母本、中亲值呈极显著正相关,峰值时间与中亲值呈显著正相关。而与其父本的相关性均未达显著水平。

应用RVA测定米粉淀粉成糊温度

淀粉的糊化温度是稻米淀粉品质的重要指标,决定淀粉在食品及工业上的用途,也与食用稻米的蒸煮品质密切相关。淀粉的糊化温度可以用淀粉谱仪(如快速淀粉黏滞性测定仪,Rapid Visco-analyser,RVA)间接测定,但用淀粉谱仪测定的是淀粉的成糊温度(pasting temperature,PT),它是指淀粉黏度刚开始升高时的温度。在许多情况下,从RVA配套软件Thermocline for Windows中测定的PT是过高的。提出了两种能够用RVA较准确测定成糊温度的方法。一种是改变参数设置来"筛选"出能反映真正成糊温度的点;另一种是手工记录下淀粉黏度刚开始升高时的时间,利用公式(45/3.8)×(T1-1)+50计算出稻米的成糊温度。利用手工计算出的成糊温度与通过差示扫描量热仪测定的最高糊化温度呈极显著正相关(r=0.97)。

再生稻与晚稻常规米质及RVA谱特征的对比研究

以黄华占、天优华占、农香32、泰优390、甬优4149和湘晚籼17为试验材料,设置再生稻、一季晚稻和双季晚稻3种种植方式,测定了再生稻与晚稻稻米品质及RVA谱特征。结果表明:再生稻的整精米率比双季晚稻的提高了16.8%,但与一季晚稻的差异不显著;再生稻的垩白度和垩白粒率比双季晚稻的分别降低了7.7%和15.9%,而与一季晚稻的相差较小;再生稻的直链淀粉含量比双季晚稻的降低了3.3%,但比一季晚稻的提高了2.9%;再生稻的胶稠度比一季晚稻的提高了1.9%,比双季晚稻的提高了3.0%。再生稻和一季晚稻种植下,6个品种的RVA谱特征参数无显著差异,一季晚稻的峰值黏度和崩解值显著高于双季晚稻的。综合来看,再生稻稻米品质整体介于一季晚稻和双季晚稻之间,表现较稳定。

开花期剪叶和疏花对‘宁粳1号’和‘镇稻88’稻米淀粉RVA谱特征值的影响

为了确定源和库的改变及其平衡对稻米淀粉RVA谱特征值的影响,通过不同剪叶和疏花处理,研究其与稻米淀粉RVA谱特征值的关系。以粳稻品种‘宁粳1号’和‘镇稻88’为材料,在水稻开花期采用剪叶和疏花处理方法调控单茎叶面积和颖花数的差异,研究其对稻米淀粉RVA谱特征值的影响。结果表明,随剪叶数量增加,叶花比下降,峰值黏度、热浆黏度和冷胶粘度显著降低;随疏花数量增多,叶花比提高,峰值黏度、热浆黏度和冷胶粘度显著上升;崩解值、消减值和回复值变化较复杂。本研究还发现了叶花比在一定范围之前,峰值黏度、热浆黏度和冷胶粘度变化较快,当叶花比超过一定范围继续增大时峰值黏度、热浆黏度和冷胶粘度变化趋缓甚至不再变化。剪叶和疏花处理以及叶花比与稻米淀粉RVA谱特征值关系显著,研究初步明确了3.0左右为叶花比影响粳米稻米淀粉RVA谱特征值的临界值,其结果可供粳稻优质育种和栽培参考。

施硅量对粳稻品种武育粳3号产量和品质的影响

以迟熟中粳稻武育粳3号为材料,研究了不同硅肥水平对粳稻产量和稻米品质的影响。结果表明,大田基施硅肥0-450 kg/hm2范围内,随着施硅量的增加,穗数、每穗粒数、千粒重、产量先增后降,精米率、回复值有增加的趋势,整精米率显著增加,RVA谱曲线降低,直链淀粉含量、峰值黏度、热浆黏度、冷胶黏度、到达峰值黏度时间呈下降的趋势,消减值则先下降然后上升。施硅对出糙率、透明度无明显影响。适量施硅可以降低垩白米率、垩白大小和垩白度,改善稻米的外观品质。施硅能提高稻米胶稠度、崩解值,有提高稻米蛋白质含量的趋势。综合产量和品质性状,以施硅肥225 kg/hm2的处理较好。

两个籼稻品种垩白对稻米蒸煮食味与营养品质的影响

以冈优527(杂交籼稻)和窄叶青8号(常规籼稻)为材料,研究垩白对稻米蒸煮食味品质及营养品质的影响。与非垩白米相比,冈优527垩白米的直链淀粉含量极显著升高,最终黏度、消减值、回复值显著升高,胶稠度、峰值黏度、崩解值显著降低,RVA谱的其余指标无显著变化。窄叶青8号垩白米与非垩白米的上述各指标间无显著差异。窄叶青8号垩白米的粗蛋白含量显著低于非垩白米,而冈优527垩白米的粗蛋白含量与非垩白米相比无显著变化。2个品种垩白米的清蛋白、球蛋白、醇溶蛋白、赖氨酸含量与非垩白米间无显著差异,但谷蛋白含量显著低于非垩白米。

不同食品成分对红薯淀粉糊黏度特性的影响

利用快速粘度分析仪分析了不同食品成分,如淀粉乳浓度、氯化钠、蔗糖、明矾、玉米淀粉对红薯淀粉糊黏度特性的影响,结果表明:随着红薯淀粉浓度的增加,其淀粉糊峰值黏度提高,回生性增强;氯化钠使红薯淀粉糊的峰值黏度下降,蔗糖则使红薯淀粉糊的峰值黏度升高,二者均能增强淀粉糊的回生性;明矾对红薯淀粉糊峰值黏度影响较大,对其回生性影响较小;玉米淀粉可以使红薯淀粉糊的最终黏度升高,回生性增强。

利用淀粉粘滞性谱快速检测稻米辐照研究

为了快速鉴别或检测稻米是否经过辐照杀虫处理,研究了粳米经辐照处理后淀粉粘滞性谱的变化规律。结果表明,随吸收剂量增大淀粉粘滞性显著下降,在检测助剂的调控下,辐照与未辐照的淀粉粘滞性谱有明显差异。利用淀粉的最高粘度、热浆粘度、冷胶粘度与吸收剂量之间的变化关系,可估算稻米辐照后的吸收剂量。借助检测助剂的调控,可快速检测稻米是否经过辐照处理。

有机无机肥料及抽穗期气温升高对水稻籽粒淀粉合成相关酶活性及淀粉品质形成的影响

为探讨不同肥料处理下抽穗期高温胁迫对水稻籽粒淀粉酶活性及淀粉品质形成的影响,本试验以优质食味水稻南粳9108为材料,设置施用有机肥(OF)和常规化肥(CF)处理,于抽穗期进行常温(NT)、+2℃(较常温增加2℃,MT)和+5℃(较常温增加5℃,HT)处理,对籽粒淀粉合成特性进行研究。结果表明,抽穗期温度升高降低了蔗糖合成酶(SS)、淀粉合成酶(SSS)和淀粉分支酶(SBE)的活性,提高了蔗糖磷酸合成酶(SPS)和焦磷酸化酶(AGP)的活性。蔗糖含量、淀粉平均粒径、热焓值与峰值温度均表现为HT>MT>NT;淀粉含量、直链淀粉含量与黏度值则随着温度升高而下降。在肥料处理方面,各淀粉相关酶活性均表现为OF>CF,且在OF处理下有较好的淀粉品质。综上所述,温度升高通过抑制淀粉合成,加速了形成淀粉原料的积累,进而导致籽粒中蔗糖含量升高;有机肥处理能促进蔗糖合成并提高淀粉合成相关酶活性。从气候变暖应对措施方面,可选择有机肥替代化肥调控淀粉相关酶活性,进一步改善淀粉品质。本研究结果为减少高温对水稻的危害与提高淀粉品质提供了技术参考。

Effects of soluble starch synthase genes on eating and cooking quality in semi waxy japonica rice with Wx^(mp)

The purpose of this study is to reveal the genetic mechanism of the variation of amylose content among different semi waxy or glutinous japonica rice in the background of Wxmp gene.Sixty-four semi waxy lines derived from the hybrid progenies of Wujing 13 and Milky Princess(Kantou 194)with polymorphism in soluble starch synthase gene SSIIa(SSII-3)and SSIIIa(SSIII-2)but no polymorphism in other starch synthase related genes were used as test materials.The genotypes of SSIIa and SSIIIa allele were identified by molecular markers,and the allelic effects of SSIIa and SSIIIa gene on amylose content(AC),gel consistency(GC),gelatinization temperature(GT)and rapid visco analyzer(RVA)profile characteristics were analyzed.The significant effects of SSIIa and SSIIIa alleles and the interactive effects between two genes on AC,GT,GC and RVA profile characteristics were found.The SSIIa and SSIIIa alleles from Wujing13 shown positive effects on AC with an average increase of 1.87 and 1.23%in 2 years respectively.There was no significant effect on GT for SSIIa or SSIIIa allele but remarkable influence on GT when the co-existence of the two genes.The genotype SSIIa^(mp)SSIIIa^(mp) shown 1.34℃higher GT than genotype SSIIawjSSIIIawj(mp and wj indicated that the gene was derived from Milky Princess and Wujing 13 respectively,the same as in the below).Different genes and alleles resulted in significant different GC.The genetic effect of SSIIawj and SSIIIamp on GC was 8.74 and 9.62mm respectively.The GC of SSIIa^(wj)SSIIIa^(mp) was 10.64 and 16.95mm higher than that of SSIIa^(mp)SSIIIa^(wj) and SSIIawjSSIIIawj,respectively.The allele SSIIa^(wj) could increase the peak viscosity(PKV),hot paste viscosity(HPV),cool paste viscosity(CPV)and breakdown viscosity(BDV),while decrease the consistency viscosity(CSV)and setback viscosity(SBV).However for the allele SSIIIa^(wj) the opposite was true.The genotype SSIIa^(wj)SSIIIa^(mp) had the largest PKV,HPV and CPV,the genotype SSIIa^(wj)SSIIIa^(wj) had the largest BDV and CSV,but the genotype SSIIa^(wj)SSIIIa^(mp) had the least SBV.According to the comprehensive effect of each trait,the genotype SSIIawjSSIIIamp was the best.The allelic variation and interaction effect of SSIIa and SSIIIa genes have important reference value for improving cooking and eating quality of semi waxy japonica rice.