东乡野生稻BILs群体苗期抗旱性综合评价及其遗传分析

本研究选用旱稻、R974//R974/东乡野生稻回交重组自交系及其亲本等66份水稻材料,进行苗期抗旱性鉴定及其综合指标筛选,测定了水分胁迫下最大根长、根基数、茎长、根干重、根鲜重、根系相对含水量、叶片相对含水量、卷叶级别及干旱反复存活率等9个性状。利用主成分分析和逐步回归分析法进行苗期抗旱综合评价,结果表明株系1949最为抗旱;回归分析和相关分析表明最大根长、根数、根鲜重和根系相对含水量对抗旱性影响显著,可作为苗期抗旱性鉴定综合指标。采用综合抗旱D值进行抗旱遗传分析,表明BILs群体的苗期抗旱性表现2对独立主基因+多基因控制。结果可知,东乡野生稻可作为水稻抗旱遗传改良的宝贵资源。     

薏苡种质资源萌发期抗旱性鉴定及抗旱指标筛选

干旱是影响薏苡生产的主要因素之一,鉴定薏苡种质资源的抗旱性,筛选抗旱指标,培育抗旱品种,对薏苡产业的发展具有重要意义。本研究首先以抗旱性不同的6份薏苡种质为材料,通过调查5个不同浓度的PEG-6000水溶液模拟干旱胁迫下的发芽率,确定了薏苡萌发期模拟干旱胁迫的最适PEG-6000水溶液渗透势为-0.1 MPa。然后以-0.1 MPa的PEG-6000水溶液模拟干旱胁迫,探讨50份薏苡种质发芽势、发芽率、萌发指数、芽长、芽粗、芽鲜重、芽干重、根长、根粗、根鲜重和根干重的变化,利用综合评价法对50份薏苡种质进行萌发期抗旱性鉴定及抗旱指标筛选。结果表明,干旱胁迫对薏苡萌发期各指标均有极显著影响。筛选出萌发期抗旱性强的薏苡种质分别为yy18-1、yy14-3和yy13-1,可为薏苡抗旱育种、抗旱机理及干旱调控缓解机制的研究提供基础材料。芽长、芽干重、根长、根鲜重和根干重可作为薏苡种质资源萌发期简单、直观的抗旱性评价指标。     

籼粳稻杂交衍生RIL系的苗期抗旱性评价

为鉴定籼粳稻杂交衍生系的苗期抗旱性,以课题组自育的高代抗逆品系ZD15为母本、籼稻品种IR29为父本,以及杂交衍生的重组自交系群体120份为试验材料,利用PEG-6000对各材料苗期进行干旱胁迫处理,测定根长、根冠比、地上部鲜重、地下部鲜重、地上部干重和地下部干重;利用PEG-6000对各材料芽期进行干旱胁迫处理,测定芽鞘长和芽长。采用主成分分析和隶属函数法对各材料的抗旱性进行综合评价,根据综合抗旱D值可将122份材料分成3类,D值在0.201～0.400之间的有33份,属于不抗旱材料;D值在0.401～0.600之间的有79份,属于中等抗旱材料;D值在0.601～0.800之间的有10份,属于抗旱材料。利用D值进行逐步回归分析,结果表明根长、根冠比、地上部鲜重、地下部鲜重、地上部干重、地下部干重、芽鞘长和芽长8个性状均可作为水稻苗期抗旱性的评价指标。本研究筛选出的抗旱材料,可作为育种中间材料进一步培育,或作为育种资源加以利用,以丰富本区水稻育种的资源库。     

江西东乡野生稻苗期抗旱基因定位

普通野生稻是栽培稻的祖先种,其遗传多样性远远大于栽培稻,蕴涵着栽培品种中难以找到的重要性状.以江西东乡普通野生稻为供体、以桂朝2号为遗传背景的野生稻基因渗入系（BC4F5、BC4F6）为材料,利用30%的PEG人工模拟干旱环境,对渗入系二叶一心苗期进行抗旱鉴定,共定位了12个与抗旱有关的QTL,其中在第2、6和12染色体上发现了4个QTL的加性效应值为正,来自东乡野生稻的等位基因能使渗入系的抗旱性增强,特别是位于第12染色体RM17附近的qSDT12-2在多次重复中均被检测到,在PEG处理后1-8 d能稳定表达.通过对抗旱性QTL的动态分析,发现不同QTL表达时间不同.     

东乡野生稻回交重组系的抗旱性评价体系

选用协青早B//东乡野生稻/协青早B回交重组系及其亲本共79份水稻材料,研究了水稻发芽期、苗期、孕穗期、成熟期的种子萌发抗旱指数等31个指标与东乡野生稻回交重组系抗旱性的关系.结果表明:15％ PEG-6000溶液处理的相对发芽势、20％ PEG-6000溶液处理的种子萌发抗旱指数和相对发芽势及水分胁迫后最长根长、苗高、根鲜质量、根干质量、根系相对含水量、萎蔫率、叶片可溶性糖含量、叶片脯氨酸含量、叶片丙二醛含量、叶片相对含水量、卷叶级别、株高、单株分蘖数、单株有效穗数、穗实粒数、着粒密度、结实率、千粒重等21个指标的相对值与抗旱系数或抗旱指数的相关性显著.通过逐步回归分析筛选出9个抗旱性鉴定指标:20％ PEG-6000溶液处理的相对发芽势及水分胁迫后根干质量、根系相对含水量、叶片可溶性糖含量、叶片脯氨酸含量、叶片丙二醛含量、单株有效穗、结实率和千粒重的相对值.根据这些指标和偏相关系数,建立了不同时期的抗旱性评价(D值)方程和评价体系,可对东乡野生稻回交重组系抗旱性进行较好的评价.     

山西省主推小麦品种芽期及苗期的抗旱性评价

水分对小麦生长发育具有重要的作用。山西省水资源严重匮乏,鉴定山西省主推小麦品种的抗旱性,对于培育优异抗旱品种具有重要意义。本研究以40份山西省各麦区主推小麦品种为试材,分别在芽期和苗期对其进行模拟干旱(20%PEG-6000)处理,分析干旱胁迫对小麦芽期和苗期形态指标的影响,并利用隶属函数和抗旱综合评价值,对参试小麦品种的抗旱性进行评价。结果表明：小麦芽期和苗期的各项指标均不同程度受干旱胁迫的影响,芽期的芽长、根长、芽鲜重、根鲜重和苗期的叶鲜重、根鲜重受干旱胁迫的影响较大;芽期共筛选出抗旱型品种21个(52.5%),其中山农17综合评价值最高,达0.783;苗期共筛选出抗旱型品种5个(12.5%),分别为山农24、晋麦66、长麦6135、晋麦62、长麦3897;芽期和苗期皆为抗旱型的小麦品种是长麦3897;拟合芽期和苗期抗旱性综合评价值之间的关系表明,参试品种2个时期的抗旱性之间无显著相关性。本研究结果可为山西省选取旱地小麦生产用品种以及抗旱性的改良提供参考。     

30份普通菜豆苗期抗旱性鉴定及抗旱指标的确定

以30份普通菜豆为试验材料,采用PEG6000溶液模拟干旱胁迫处理种子和苗期盆栽自然干旱法,研究了干旱胁迫对种子发芽率、植株地上部鲜重、地下部鲜重、叶片含水量、电导率和叶绿素荧光参数等11个指标的影响,通过隶属函数法和灰色关联分析法对普通菜豆进行抗旱性和抗旱指标综合评定。结果显示,每个抗旱指标在不同材料之间都具有明显差异,说明材料之间存在明显的抗旱差异性;发芽率、地下鲜重、地上鲜重、全株鲜重、电导率和Fv/Fm的关联度均大于0.8,与综合抗旱指数的关系较为紧密,可以作为普通菜豆苗期抗旱性筛选的主要鉴定指标;鉴定出F1863、F2973、F3992和F3057抗旱性较强的普通菜豆。以上结果表明应用多抗旱指标综合分析法能很好地评价材料的抗旱性。     

小豆种质资源苗期抗旱性评价及抗旱资源筛选

为了探讨小豆苗期抗旱性特点,建立抗旱性鉴定指标评价体系,筛选抗旱基因型材料,本研究以苗期盆栽控水方式,对不同来源的235份小豆种质资源进行了干旱胁迫试验。在测定其根系形态、株高、生物量和冠层萎蔫等15项指标的基础上,利用隶属函数值法、主成分分析和聚类分析对抗旱性进行了综合评价。结果表明,干旱胁迫条件下主根长、侧根长、总根长和根冠比值均比对照组高;主根表面积、侧根表面积、总根表面积、主根体积、侧根体积、总根体积、地上部干重、地下部干重、整株干重和株高值均低于对照组。各性状隶属函数值相关性分析表明隶属函数值平均值与总根表面积相关性最大。主成分分析将15个性状归纳成3个主成分(累积贡献率为82.8%),其中第Ⅰ主成分的载荷主要是根表面积,第Ⅱ主成分的载荷主要是干重,第Ⅲ主成分的载荷主要是主根长。聚类分析将235份小豆种质资源聚成抗旱型、中间型和敏感型3类,分别占供试材料的8%、63%、29%。根据隶属函数值法和主成分分析法结合不同类型根系形态,可将总根表面积作为小豆苗期抗旱性评价的主要指标。初步筛选出15份小豆耐旱资源材料,为进一步开展小豆抗旱育种和挖掘抗旱基因提供了基础材料。     

普通菜豆种质资源芽期抗旱性鉴定

摘要：干旱是影响我国普通菜豆生产的主要因素之一,筛选芽期抗旱性种质资源,培育抗旱品种,有利于提高普通菜豆品种的出苗率和幼苗长势,对发展我国普通菜豆生产具有重要意义。本研究首先以4份普通菜豆种质为材料,检测了不同渗透势PEG6000溶液模拟旱胁迫下的发芽率和发芽势,确定了PEG6000溶液的最适渗透势为-0.7MPa（浓度为19.6%）;以-0.7MPa的PEG6000溶液对121份普通菜豆种质进行芽期模拟旱胁迫,测定发芽率、发芽势、下胚轴长、胚根长、干重和鲜重等10项指标;通过主成分分析筛选出相对发芽率、相对发芽势、相对鲜重、相对干重、相对胚根长,相对总芽长,相对胚根/下胚轴指数、相对发芽指数、相对活力指数等9项指标可以有效评价普通菜豆的芽期抗旱性;利用隶属函数分析法对121份种质的芽期抗旱性进行综合评价,筛选出跃进豆（F0000156）、白扁豆（F0000613）等芽期抗旱性种质,为普通菜豆抗旱生理与机制研究、抗旱育种奠定了基础。     

谷子全生育期抗旱性鉴定及抗旱指标筛选

作物全生育期抗旱性对发掘和利用抗旱品种和抗旱基因至关重要,但谷子全生育期抗旱鉴定至今未有报道,抗旱鉴定缺乏鉴定指标。本试验在干旱池模拟干旱条件下,对苗期抗旱性表现不同的谷子品种进行了全生育期抗旱性研究,调查分析了根干重等形态和生理性状在干旱胁迫条件下的变化;采用相关和灰色关联度等方法,分析这些指标与抗旱性(DRI)的关系。结果表明,相对根冠比、相对单穗粒重和灌浆期光合速率、蒸腾速率同抗旱性表现极显著相关,可以作为谷子全生育期抗旱性鉴定的指标;而相对根干重、相对单穗重、相对株高和气孔导度则可以作为谷子全生育期抗旱性鉴定的参考指标;在供试的品种中,红根谷和大齐头白表现了良好的综合抗旱性。本文还讨论了抗旱性的复杂性以及不同性状对干旱胁迫的反应,所建立的指标对谷子全生育期抗旱鉴定具有指导意义。     

苗期水稻根部性状的QTL定位

耐旱是水稻抗逆研究中最重要的性状之一。利用水稻籼粳品种窄叶青8号（ZYQ8）和京系17（JX17）及其通过杂交F1代花药培养获得的127个单株组成的双单倍体分离群体（double haploid,DH)为材料,在营养液中培养10天后,对影响抗旱能力的根部几个主要性状进行了分析,发现最大根长（Maximum root Length,MRL)、根干重（Dry Root Weight,DRW)和根茎干重比（Root/Shoot Ratio of Dry Weight,RSR)3个性状在群体中变异较大,利用该群体建立的水稻分子遗传图谱,对上述3个水稻性状进行数量性状座位（Quantitative Trait Locus,QTL)的分析定位,结果表明,2／1／2个QTLs的亲本JX17等位基因分别控制着最大根长、根干重和茎士重比的表达,对表型变异的解释率分别为16．4％、17．0％、16．4％、10．4％和19．9％;2／1个QTLs的亲本ZYQ8等位基因分别控制着最大根长和根茎干重比的增加,表表型变异的解释率分别为19．6％、13．0％和13．2％。检测到的8个QTLs分别位地水稻的染色体2、3、4、5、6、9和10上。与其他已发表的定位结果比较表现,在3个性状的总共8个QTLs中,各有1个性状的1个QTL（控制最大根长的L169－CT106A,控制根干重的G45－G1314A和控制根茎干重比的G62－G144）与早先报道的结果相吻合。     

Mapping Quantitative Trait Loci Associated with Toot Traits Using Sequencing-Based Genotyping Chromosome Segment Substitution Lines Derived from 9311 and Nipponbare in Rice (Oryza sativa L.)

Identification of quantitative trait loci (QTLs) associated with rice root morphology provides useful information for avoiding drought stress and maintaining yield production under the irrigation condition. In this study, a set of chromosome segment substitution lines derived from 9311 as the recipient and Nipponbare as donor, were used to analysis root morphology. By combining the resequencing-based bin-map with a multiple linear regression analysis, QTL identification was conducted on root number (RN), total root length (TRL), root dry weight (RDW), maximum root length (MRL), root thickness (RTH), total absorption area (TAA) and root vitality (RV), using the CSSL population grown under hydroponic conditions. A total of thirty-eight QTLs were identified: six for TRL, six for RDW, eight for the MRL, four for RTH, seven for RN, two for TAA, and five for RV. Phenotypic effect variance explained by these QTLs ranged from 2.23% to 37.08%, and four single QTLs had more than 10% phenotypic explanations on three root traits. We also detected the correlations between grain yield (GY) and root traits, and found that TRL, RTH and MRL had significantly positive correlations with GY. However, TRL, RDW and MRL had significantly positive correlations with biomass yield (BY). Several QTLs identified in our population were co-localized with some loci for grain yield or biomass. This information may be immediately exploited for improving rice water and fertilizer use efficiency for molecular breeding of root system architectures.     

Identification of quantitative trait loci for four morphologic traits under water stress in rice （Oryza sativa L.）

Late season drought coinciding with the rice booting to heading stage affects the development of plant height,panicle exsertion,and flag leaf size,and causes significant yield loss.In this study,a recombinant inbred line population derived from a cross between paddy and upland cultivars was used for data collection of the morphologic traits under well water and drought stress conditions.bought stress was applied at the stage of panicle initiation in the field in 2002 and at the booting stage in PVC pipes in 2003.The data from stress con ditions and their ratios(tait measured under stress condition/trait measured under well water condition)or differences(trait measured under stress condition minus trait measured under well water condition)were used for OTL analysis.Totally,17 and 36 QTLs for these traits were identified in 2002 and 2003,respectively,which explained a range of 2.58%-29.82%Of the phenotypic variation.Among them,six QTLs were commonly identified in the two years,suggesting that the drought stress in the two years was different.The genetic basis of these traits will provide useful information for improving rice late season drought resistance,and their application as indirect indices in rice late season drought resistance screening was also discussed.     

Genetic analysis for drought resistance of rice at reproductive stage in field with different types of soil

Drought resistance of rice is a complex trait and is mainly determined by mechanisms of drought avoidance and drought tolerance. The present study was conducted to characterize the genetic basis of drought resistance at reproductive stage in field by analyzing the QTLs for drought response index (DRI, normalized by potential yield and flowering time), relative yield, relative spikelet fertility, and four traits of plant water status and their relationships with root traits using a recombinant inbred population derived from a cross between an indica rice and upland rice. A total of 39 QTLs for these traits were detected with individual QTL explained 5.1–32.1% of phenotypic variation. Only two QTLs for plant water status were commonly detected in two environments, suggesting different mechanisms might exist in two types of soil conditions. DRI has no correlation with potential yield and flowering time under control, suggesting that it can be used as a good drought resistance index in field conditions. The co-location of QTLs for canopy temperature and delaying in flowering time suggested a usefulness of these two traits as indexes in drought resistance screening. Correlation and QTL congruence between root traits and putative drought tolerance traits revealed that drought avoidance (via thick and deep root traits) was the main genetic basis of drought resistance in sandy soil condition, while drought tolerance may play more role in the genetic basis of drought resistance in paddy soil condition. Therefore, both drought mechanisms and soil textures must be considered in the improvement of drought resistance at reproductive stage in rice.     

胡麻种质萌发期抗旱性综合评价

为研究不同类型胡麻种质萌发期抗旱性表现,以筛选抗旱品种,为抗旱育种提供科技支撑。本研究采用不同浓度的PEG-6000高渗溶液模拟干旱胁迫的方法,对定亚17、陇亚8号和2011621080进行渗透胁迫试验,筛选适宜浓度的PEG-6000溶液。对161份不同类型的胡麻种质在萌发期进行渗透胁迫试验,考查与抗旱性相关的5个性状,并运用单项抗旱系数、综合抗旱系数、隶属函数和灰色关联度相结合的方法对种质资源的抗旱性进行综合评价。结果表明,不同浓度PEG-6000胁迫对胡麻种质的萌发均有影响,当PEG-6000的浓度在18%时,各种指标的抑制作用均显著加强,因此本研究选用18%的PEG-6000浓度模拟干旱胁迫试验;PEG-6000胁迫降低了161份胡麻种质资源的相对发芽率,抑制了幼芽的生长,种质间表现出较大差异。根据抗旱性量度值将供试种质划为5级,其中1级抗旱型2份、2级15份、3级28份、4级82份、5级34份;供试种质的抗旱性强弱与地理来源息息相关。试验结果说明选择多个性状,综合评价胡麻萌发期抗旱性是可行且准确的。     

Association mapping for yield and grain quality traits in rice (Oryza sativa L.)

Association analysis was applied to a panel of accessions of Embrapa Rice Core Collection (ERiCC) with 86 SSR and field data from two experiments. A clear subdivision between lowland and upland accessions was apparent, thereby indicating the presence of population structure. Thirty-two accessions with admixed ancestry were identified through structure analysis, these being discarded from association analysis, thus leaving 210 accessions subdivided into two panels. The association of yield and grain-quality traits with SSR was undertaken with a mixed linear model, with markers and subpopulation as fixed factors, and kinship matrix as a random factor. Eight markers from the two appraised panels showed significant association with four different traits, although only one (RM190) maintained the marker-trait association across years and cultivation. The significant association detected between amylose content and RM190 was in agreement with previous QTL analyses in the literature. Herein, the feasibility of undertaking association analysis in conjunction with germplasm characterization was demonstrated, even when considering low marker density. The high linkage disequilibrium expected in rice lines and cultivars facilitates the detection of marker-trait associations for implementing marker assisted selection, and the mining of alleles related to important traits in germplasm.     

栽培稻旱胁迫叶片相关性状的遗传解析

利用籼稻窄叶青8号(ZYQ8)和粳稻京系17(JX17)衍生的加倍单倍体(DH)群体127个株系,2002年在杭州采用田间断水法栽培,在水分胁迫下,对叶片的卷叶、相对含水量和电导率3个性状进行了评价和QTL分析。结果表明,3个性状在DH群体中均存在双向超亲分离,接近正态分布,受数量性状基因的控制;检测到影响这些性状的6个QTL,其中卷叶3个(qLR—1,qLR—5和qLR—11)、相对含水量2个(qRWC—1和qRWC—6和电导率1个(qERC—6）。旱胁迫时,目测卷叶方便易行,适于对大批品种或资源筛选,对抗旱栽培稻品种的筛选和利用具有一定的指导意义。