稻鸭共生有机栽培模式对黄河三角洲稻米品质的影响

在黄河三角洲地区设计稻鸭共生、人工除草、常规稻作3种栽培模式,研究其对稻米加工品质、外观品质、蒸煮和食味品质、卫生品质的影响.结果表明:与常规稻作相比,稻鸭共生可以增加水稻粒宽,提高糙米率、精米率、整精米率,减少垩白,这主要是由于有效穗数和籽粒重的提高以及弱势粒的降低所致.稻鸭共生和人工除草栽培模式可以增加胶稠度,降低直连淀粉和蛋白质含量,改善稻米食味性,这主要归功于有机肥的施用.由于生产过程不施用化学肥料和农药,稻鸭共生、人工除草模式可以大幅降低甚至检测不到农药残留.稻鸭共生既可改善稻米品质,又能保护环境,为优质水稻生产提供了一条较好的生态技术途径.     

鸭稻共作对水稻生理特性的影响

为探讨鸭稻共作对水稻某些生理特性的影响,本研究设计了不同的鸭稻共作处理区,研究了鸭子活动对水稻植株的某些生理学特性的影响.结果表明,鸭稻共作能降低叶片的质膜透性、丙二醛含量和脯氨酸含量,提高超氧化物歧化酶、过氧化物酶、过氧化氢酶的活性及可溶性糖含量.说明鸭稻共作方式对提高水稻植株的抗性、延缓叶片衰老以及对水稻的生长发育均具有积极作用.     

稻鸭共作对稻田水体环境的影响

通过田间对比试验,研究了稻鸭共作技术对稻田水体环境性质的影响.结果表明：稻鸭共作能够降低稻田表层水体的温度与pH值,提高电导率、氧化还原电位、混浊度和总氮、总磷、总钾三大营养元素的含量,其中总氮、总磷、总钾的含量分别比常规稻作增加1.85～5.06倍、2.01～8.70倍和42.79%～109.18%.说明稻鸭共作对改善水体理化性质、提高有效肥力供应,进而优化稻田生态环境和促进水稻的生长发育均具有积极作用.     

施氮对水稻植株和颖果发育及稻米品质的影响

以'扬稻6号'和'粳稻941'为材料,在施氮总量相同条件下分别设置低分蘖肥高孕穗肥和高分蘖肥低孕穗肥2个施氮处理,通过盆栽试验研究施氮量和施氮时期对水稻植株生长、颖果发育和稻米品质的影响.结果表明:水稻植株鲜重、干重、分蘖数和株高随分蘖期氮肥用量增加而增加;增加孕穗期氮肥用量比例能显著提高抽穗期水稻剑叶和颖果光合速率、颖壳叶绿素含量、呼吸速率、颖果CAT及SOD活性;增加孕穗期氮肥用量还能提高水稻籽粒出糙率、精米率、整精米率,降低稻米垩白率,改善稻米的碾米品质和营养品质.因此,增加分蘖期施氮比例能促进水稻植株生长,而提高孕穗期施氮量则有利于水稻颖果发育和稻米品质改善.     

稻麦两熟地区机插水稻品质形成的播期效应

合理播期是机插稻实现高产、优质稻米生产的关键技术。本文研究了播期对粳型超级稻和籼粳交水稻机插方式下稻米品质形成特征的影响,为机插稻高产、优质稻米生产提供依据。结果表明:稻米糙米率、精米率、整精米率随播期推迟而升高,碾米品质变优,但早播稻糙米产量、精米产量、整精米产量显著高于晚播稻(P0.05);不同播期的稻米垩白粒率、垩白度变异较大,均随播期推迟而下降,早播与晚播间差异达显著水平(P0.05);外观品质改善,推迟播期,稻米直链淀粉含量降低,胶稠度变短,峰值黏度、热浆黏度、最终黏度、崩解值呈规律性下降,消减值变化幅度较大,逐渐升高,糊化温度波动较小,RVA谱变劣,稻米蒸煮食味品质变差;稻米蛋白质含量及蛋白质产量均随播期推迟而下降(P0.05),营养品质变差;机插粳稻适期早播,易取得高的糙米、精米、整精米及蛋白质产量,提升营养品质及蒸煮食味品质,改善米粉RVA谱特征,但降低稻米碾米品质和外观品质。因此,麦茬机插稻于5月26—31日播种,是实现较优品质稻米较高产量的最佳时期。     

稻鸭共作对水稻条纹叶枯病发生规律的影响

由灰飞虱传毒危害的水稻条纹叶枯病是近年来在我国部分稻作区严重发生的病毒病害.作为稻作生产生态实践模式之一的稻鸭共作技术对稻田病虫草具有显著的控制效应,然而目前还没有关于稻鸭共作对灰飞虱和条纹叶枯病影响的报道.因此,于2004～2005年在南京农业大学东台试验场进行了田间实验,共设计了4个处理,分别为常规稻作区（不养鸭、施药）、稻鸭共作区（养鸭、不施药）和秧田期覆盖防虫网、栽后大田稻鸭共作区（秧田覆盖防虫网、栽后稻田养鸭、不施药）和对照区（不养鸭、不施药）.结果表明：稻鸭共作以及秧田期覆盖防虫网、栽后大田稻鸭共作处理对灰飞虱有显著的控制效应,因此也显著降低了两处理在水稻整个生长期间条纹叶枯病的发病率;稻鸭共作处理对条纹叶枯病的综合防效为79.44﹪,略高于常规稻作78.82﹪的防效,而秧田期覆盖防虫网、栽后大田稻鸭共作处理对稻田灰飞虱和条纹叶枯病的防治效果最好,对条纹叶枯病的防效超过94.01﹪.总之,通过以上试验结果可知,稻鸭共作尤其是秧田期覆盖防虫网、栽后稻鸭共作处理为防治条纹叶枯病提供了一条安全高效的生态控制途径.     

稻鸭共作下水稻植株的壮秆效应及生理特性

通过田间小区对比试验,分析了稻鸭共作下水稻植株的壮秆效应及其相关生理特性.结果表明：由于鸭子在稻田的活动使水稻植株形态发生了明显变化,植株碳水化合物含量、植株碳氮比、茎秆干物质输出率都明显增加,茎秆基部节间长度比对照缩短2.88%,茎粗增加64.90%,茎秆强度和抗倒伏指数也分别提高了11.78%和10.95%;稻鸭共作提高了水稻深层根系比例和根系活力,黑根比例降低了16.63%.因此,稻鸭共作对水稻植株有壮秆效应,提高了植株的抗逆性,有利于水稻稳产高产.     

灌浆期气温与源库强度对稻米品质的影响及其生理分析

利用自然条件下的早、晚季种植作为温度处理,选择米质低、中、优等级的6个水稻品种（组合）作为供试材料,研究了早、晚季种植下的稻米品质、淀粉分支酶活性变化,以及温度处理间的差异.结果表明,在籽粒灌浆初期,高温环境下灌浆充实的籽粒,其稻米的垩白增加、透明度变差、整精米率下降,对出糙率及精米率没有明显影响.与早季种植的稻米相比,晚季种植稻米的胶稠度、整精米率、透明度增加.早、晚季种植对稻米直链淀粉含量、蛋白质含量等没有显著影响.剪叶限源处理显著降低稻米质量,疏粒减库处理显著提高稻米品质.     

稻蟹共作对田间生态环境与水稻生长的影响研究进展

稻蟹共作模式是我国较成熟的稻田综合种养模式。由于"蟹"的加入,稻蟹共作带来较高经济价值的同时,对田间生态环境和水稻生长也带来显著影响,但对其影响结果及原因缺少系统总结与分析。基于此,本文结合近年国内外稻蟹共作相关研究,总结了稻蟹共作对田间气体排放、养分循环及生态效益的影响,进一步探讨稻蟹共作对水稻品种选择、田间水肥管理及水稻产量品质的影响。提出未来研究应更关注整体生态环境效应,研究方法应加强大范围田间实验与小规模模拟实验结合,研究内容应加强机理研究,深入稻蟹共作整体效应,研究周期应加强长期定位研究,研究方向应关注协同、优质、高效等问题。以期深入了解稻蟹共作对田间生态环境及水稻生长的影响,进而为稻蟹共作理论创新与技术突破提供理论支撑。     

稻鸭共作技术的生物防治效应

稻鸭共作是一项种养复合的、环境友好型的农业综合生产技术,起源于我国传统的稻田养鸭。鸭子与水稻共育于稻田中,二者存在共生互利关系,鸭子对稻田有害生物具有一定控制作用。文章综述了国内近年来利用稻鸭共作技术防治稻田病虫草害以及对稻田天敌的影响研究进展。从已有的研究中可以看出,稻鸭共作对草害和主要虫害有较好的控制效果,可在全生育期取代相应化学药剂的使用,对某些水稻病害具有一定的防治效果,对天敌种群也会产生一定的影响。但在鸭子对病虫草害防治的确切效应及其内在过程与机理方面,尚有待开展深入探究。     

鸭稻共作方式对水稻生长的影响

对鸭稻共作生产方式下水舀几个生育期的株高、叶面积指数、生物量、根系活力、根系形态特征指标等进行了对比研究。结果表明,鸭稻共作生态模式中由于鸭子的活动,对水稻生长发育有一定影响。与常规水稻栽培方式相比,鸭稻共作方式下水稻株高、叶面积指数、生物量有减小的趋势,而且在有效分蘖期和幼穗分化期存在着显著或极显著差异。鸭子活动对水稻根系生长状况(根／冠比、根系活力)也具有一定作用,与常舰水稻栽培方式相比,鸭稻共作方式下水稻根冠比和根系活力有增加趋势,根冠比在幼穗分化期达到显著差异,根系活力在有效分蘖期存在显著差异;鸭稻共作方式下水稻根系总长变化无明显规律,根系表面积与常规栽培方式下相比无显著差异。     

Genetic studies for grain quality traits and correlation analysis of mineral element contents on Al-Ahsa rice and some different varieties (Oryza Sativa L.)

One of the most significant goals in plant breeding programs is to generate new rice varieties with increased elements and good grain quality. In this experiment, ten rice genotypes were evaluated for grain quality traits and protein percentage. Also, milled rice of the ten genotypes were used for analysis of mineral elements. The results revealed that mean squares attributable to genotypes were significant for all traits during the two growing seasons, showing the presence of broad genetic variability among genotypes for all traits under consideration. However, the Indica type (Egyptian Yasmin and Giza 182) gave the highest value for grain length (7.10, 6.52 mm) and grain shape (2.87, 2.82 mm) under the two seasons. While, Al-Ahsa Type1 and Al-Ahsa Type2 rice varieties gave the highest values in protein percentage, which gave 10.80 and 9.80%. Correlation coefficients among the nine grain quality traits clarifying eight absolute positive correlation grain length with grain shape, grain width with hulling % and head rice %; grain shape with amylose content %; hulling % with milled rice and head rice %; milled rice % with head rice %; head rice % with gelatinization temperature. On the other hand, there were seven absolute negative correlations between grain length with grain width; grain width with grain shape and amylose content %; grain shape with hulling % and head rice %; amylose content % with milled rice %, head rice % and gelatinization temperature. In micronutrient elements Al-Ahsa Type1 and Al-Ahsa Type2 varieties gave the heights value for N, P, K, Mg %. Also, gave the heights value for Na (73.25, 73), Fe (20.12, 19.80), and Zn (125.60, 122.70). Pearson’s correlation observed eight absolute positive and significant correlations, which were between; nitrogen content (N), P, K, Mg, Na, Fe, Zn, Cu and protein percentage.     

粳稻穗角与稻米品质的相关性及稻米品质遗传分析

测定了粳稻直立穗品种丙8979与弯曲穗品种C堡杂交组合的P1、P2及其重组自交系349个株系的穗角和10个稻米品质性状, 分析了穗角与稻米品质性状之间的相关性, 并运用主基因+多基因混合遗传模型, 对稻米品质10个性状进行了遗传分析。结果表明,穗角与糙米率、整精米率、垩白粒率、垩白度、糊化温度、胶稠度和直链淀粉含量均无显著相关; 与精米率呈显著正相关(r=0.124*); 与粒长和长宽比均呈极显著正相关(相关系数分别为0.470**和0.241**)。糙米率、精米率和直链淀粉含量均受2对主基因+多基因控制, 2对主基因具有累加作用和加性×加性的上位性作用; 整精米率、粒长、长宽比和胶稠度受2对加性-上位性主基因+多基因控制;垩白粒率、垩白度和糊化温度均受3对加性-上位性主基因+多基因控制。糙米率、精米率、整精米率、垩白粒率、垩白度和糊化温度6个品质性状以主基因遗传为主,粒长、长宽比、胶稠度和直链淀粉含量4个性状以多基因遗传为主。     

Genome-Wide Association Study of Grain Appearance and Milling Quality in a Worldwide Collection of Indica Rice Germplasm

Grain appearance quality and milling quality are the main determinants of market value of rice. Breeding for improved grain quality is a major objective of rice breeding worldwide. Identification of genes/QTL controlling quality traits is the prerequisite for increasing breeding efficiency through marker-assisted selection. Here, we reported a genome-wide association study in indica rice to identify QTL associated with 10 appearance and milling quality related traits, including grain length, grain width, grain length to width ratio, grain thickness, thousand grain weight, degree of endosperm chalkiness, percentage of grains with chalkiness, brown rice rate, milled rice rate and head milled rice rate. A diversity panel consisting of 272 indica accessions collected worldwide was evaluated in four locations including Hangzhou, Jingzhou, Sanya and Shenzhen representing indica rice production environments in China and genotyped using genotyping-by-sequencing and Diversity Arrays Technology based on next-generation sequencing technique called DArTseq™. A wide range of variation was observed for all traits in all environments. A total of 16 different association analysis models were compared to determine the best model for each trait-environment combination. Association mapping based on 18,824 high quality markers yielded 38 QTL for the 10 traits. Five of the detected QTL corresponded to known genes or fine mapped QTL. Among the 33 novel QTL identified, qDEC1.1 (qGLWR1.1), qBRR2.2 (qGL2.1), qTGW2.1 (qGL2.2), qGW11.1 (qMRR11.1) and qGL7.1 affected multiple traits with relatively large effects and/or were detected in multiple environments. The research provided an insight of the genetic architecture of rice grain quality and important information for mining genes/QTL with large effects within indica accessions for rice breeding.     

中国南方集约多熟稻田保护性耕作制度

总结了南方集约多熟农区稻田耕作制度的发展和演变过程,分析了南方集约多熟稻田保护性耕作制的技术特征、模式和研究进展。认为中国南方稻区已形成一系列突破性保护性耕作关键技术,并取得了显著的生态、经济和社会效益,为南方集约多熟稻区的粮食生产和生态环境保护提供了有益的途径;指出了研究和推广中存在的不足,提出在今后南方集约多熟稻区保护性耕作的发展过程中,要继续加强区域布局、技术机理和生态经济评价方面的研究,进一步规范模式和技术集成,为制定保护性耕作技术生态补偿政策提供科学依据。     

Genetic bases of appearance quality of rice grains in Shanyou 63, an elite rice hybrid

Appearance quality of the rice grain represents a major problem of rice production in many rice-producing areas of the world, especially in hybrid rice production in China. In this study, we conducted a molecular marker-based genetic analysis of the traits that are determinants of the appearance quality of rice grains, including traits specifying grain shape and endosperm opacity. The materials used in the analysis included an F_2:3 population and an F₁₀ recombinant inbred line population from a cross between the parents of Shanyou 63, the most widely grown rice hybrid in China. Molecular marker-based QTL (quantitative trait locus) analyses revealed that grain length and grain width were each controlled by a major QTL accounting for a very large proportion of the genetic variation, plus one or two minor QTLs each explaining a small proportion of the genetic variation. The major QTLs can be detected in both the F_2:3 and recombinant inbred line population using both paddy rice and brown rice, whereas the minor QTLs were detected only occasionally. The QTL located in the interval of RG393-C1087 on chromosome 3 is the major locus for grain length, and the one in the interval RG360-C734a on chromosome 5 plays a major role in determining grain width. Similarly, white belly, which largely determines the opacity of the endosperm, is almost entirely controlled by a major locus on chromosome 5, located in the same genomic region as the major QTL for grain width. The implications of the results with respect to hybrid rice improvement were discussed. Received: 20 February 2000 / Accepted: 21 March 2000     

川东南高温伏旱区杂交中稻超稀栽培对稻米整精米率的影响与组合间库源结构的关系

 以18个杂交中稻组合材料,研究了超稀栽培与传统栽培间稻米整精米率的变异与组合间库源结构的关系。结果表明：中小穗型组合在超稀栽培条件下的整精米率会明显改善,而大穗型组合的整精米率反而降低。其原因在于中小穗型组合在传统栽培条件下的叶粒比和灌浆速率较高,改为超稀栽培后,叶粒比和灌浆速率明显降低,相对提高了籽粒容重,近而提高了整精米率。大穗型组合在传统栽培条件下的叶粒比和灌浆速率较低,改为超稀栽培后, 叶粒比和灌浆速率进一步明显降低,此时因库源比例失调,源明显不足以致籽粒充实度差, 从而相对降低了籽粒容重和整精米率。超稀栽培应选用传统栽培条件下着粒数不超过177粒的组合为宜。