俄罗斯水稻种质资源的苗期耐盐鉴定

采用在沿海滩涂用海水灌溉的方法,对从俄罗斯引进的104份水稻种质资源进行了苗期耐盐性鉴定.结果表明,随着海水灌溉时间延长,土壤电导率和盐度逐渐增加,水稻受盐害的程度加剧,不同材料之间差异明显.敏感对照日本晴在海水灌溉第9天全部死亡.根据国际水稻所水稻耐盐性9级分级方法进行苗期耐盐性评价,从俄罗斯资源中筛选出1级耐盐材料2份, 3级耐盐材料14份,两次重复鉴定结果基本一致.试验结果表明,水稻耐盐性受生态环境影响较大,有必要对引进的资源进行重新筛选和评价.     

63份谷子种质的耐盐综合评价及耐盐品种筛选

谷子是我国北方重要的粮食作物,具有较强的耐盐抗旱能力。盐碱地是我国重要的后备耕地资源,加强谷子种质耐盐评价,筛选耐盐碱的谷子品种对促进盐碱地资源利用、保障国家粮食安全具有非常重要的作用。本试验以63份谷子种质资源为研究对象,以1.0%质量浓度NaCl溶液进行盐胁迫,用蒸馏水作为对照,采用全营养培养基发芽法在人工气候培养箱(昼/夜,30℃/20℃,光周期14 h/d)中进行谷子种质萌发期的耐盐性鉴定;利用相关性分析和主成分分析明确8项耐盐指标在耐盐性评价中的权重;通过模糊数学中的隶属函数法和聚类分析法对63份谷子种质的耐盐性进行综合评价和耐盐等级划分。结果表明:谷子种质资源的耐盐性存在广泛的变异;1.0%质量浓度的盐胁迫下,谷子的发芽率、发芽指数、根长、芽长、相对芽长、相对根长之间互成极显著正相关关系,而与相对盐害率呈极显著负相关;主成分分析结果表明,发芽率、发芽指数、相对芽长、相对根长可作为谷子耐盐性评价的关键指标;通过聚类分析可将63份谷子种质分为极端耐盐种质、耐盐种质、盐敏感种质和极端盐敏感种质4类;基于模糊数学中的隶属函数得分进行综合评价,筛选获得了济谷16、汾特11号、峰红谷、晋谷57、晋汾106号等5份耐盐谷子品种。     

水稻种质资源芽期耐冷性的鉴定与评价

对新收集的879份水稻种质资源进行了水稻芽期耐冷性的鉴定与评价,从中筛选出芽期耐冷性极强的水稻种质资源39份,均为贵州地方粳稻品种.供试粳稻品种61.23%具有强芽期耐冷性(3级),而籼稻品种只有13.77%具有强芽期耐冷性(3级 ),粳稻品种的芽期耐冷性显著强于籼稻品种.无论籼稻,还是粳稻,贵州地方稻种的芽期耐冷性显著强于来自其他地区的品种,从贵州地方稻种中挖掘极强耐冷种质资源的潜力较大 .     

小麦种质芽期和苗期的耐盐性鉴定评价

【目的】研究不同来源小麦种质资源的耐盐性差异,筛选耐盐性较好的品种（系）,探索不同生育期小麦耐盐性鉴定的适合盐浓度,为小麦耐盐鉴定及耐盐小麦品种选育提供参考。【方法】对来源不同的293份小麦种质,在1.5%NaCl盐溶液下进行盐胁迫处理,调查各种质的芽期相对盐害指数;选择芽期相对耐盐指数小于40%的24份小麦资源,在苗期进行不同盐浓度胁迫鉴定,测量不同处理的根长及苗高相对生长率。【结果】筛选出16份芽期相对盐害指数小于20%的高耐盐种质和42份芽期相对盐害指数20-40%耐盐的小麦种质;苗期鉴定表明1.0% NaCl盐浓度为合适的筛选浓度、根长相对生长率为适合的苗期耐盐性鉴定指标,以此为鉴定技术筛选出了Marmin-Minhardi譎44-Minturki和花树蒲两份芽期及苗期均表现耐盐的优异小麦种质;【结论】来源不同的小麦资源中芽期综合耐盐性大小依次为地方品种>国外引进品种>中间试验品系;Marmin-Minhardi譎44-Minturki和花树蒲两份耐盐小麦种质可作为小麦耐盐育种新种质。     

水稻孕穗期耐热种质资源的初步筛选

在人工气候室设定极端高温条件下,对来源于不同国家和地区的58份处于温度敏感期的水稻品种耐热性进行鉴定,以结实率下降的百分率为指标,通过方差分析,对水稻种质资源的耐热性进行评价。结果表明,种质间的耐热性存在显著差异,筛选出极端耐热品种2份（IRAT118和冷水白）。     

俄罗斯水稻种质资源的苗期耐盐鉴定

采用在沿海滩涂用海水灌溉的方法,对从俄罗斯引进的104份水稻种质资源进行了苗期耐盐性鉴定。结果表明,随着海水灌溉时间延长,土壤电导率和盐度逐渐增加,水稻受盐害的程度加剧,不同材料之间差异明显。敏感对照日本晴在海水灌溉第9天全部死亡。根据国际水稻所水稻耐盐性9级分级方法进行苗期耐盐性评价,从俄罗斯资源中筛选出1级耐盐材料2份,3级耐盐材料14份,两次重复鉴定结果基本一致。试验结果表明,水稻耐盐性受生态环境影响较大,有必要对引进的资源进行重新筛选和评价。     

全球水稻分子育种核心种质资源耐低钾品种的苗期筛选

以全球水稻分子育种计划提供的117份核心种质资源为供试材料,进行苗期水培试验,比较两种不同K 浓度处理下的苗期根茎性状表现.结果表明:两种处理条件下,品种间存在显著差异;以发根数、总根长、苗高、地下部干重、地上部干重等5个性状相对指数的平均值构成品种的综合指数,作为筛选耐低钾品种的评判标准,结合稻苗生长情况,从117份核心种质资源中筛选出9个耐低钾品种和32个较耐低钾品种.     

大豆耐盐性种质资源SSR遗传多样性及标记辅助鉴定

本研究利用60对SSR引物对93份大豆1级耐盐种质资源和57份盐敏感种质资源(5级)进行分析,以确定耐盐种质资源和盐敏感种质资源的遗传多样性,以及耐盐相关标记在种质资源耐盐性鉴定中的利用程度.60个位点共检测出等位变异792个,平均13.2个,其中耐盐种质资源特有等位变异133个,盐敏感种质资源特有等位变异106个,但76.0%的等位变异频率低于0.10,仅有1.8%的等位变异出现频率高于0.40.耐盐种质资源多态性信息含量(PIC)平均为0.78(0.47～0.90),盐敏感种质资源PIC平均为0.80(0.46～0.94).根据主成分分析,耐盐和盐敏感种质资源多样性分布规律相似.然而,与耐盐基因相关的一个SSR位点的等位变异分布频率在耐盐和盐敏感种质资源间无显著差异.根据UPGMA聚类分析结果,耐盐种质资源按生态区分为3个类群,类群Ⅰ和Ⅲ分别以东北春大豆和北方春大豆为主,类群Ⅱ为黄淮夏大豆和其他生态类型的混合群.     

水稻资源芽期和苗期耐盐碱性综合评价及耐盐基因分析

培育耐盐碱水稻品种是应对全球人口日益增长的重要途径之一。文中以21份耐盐碱性不同的水稻品种(系)为材料,在芽期和苗期设置6个不同盐碱浓度处理,测定了发芽势、发芽率、芽长、根长、根数、芽鲜重和苗鲜总重等指标,以各指标盐害率的平均值作为耐盐碱性的综合评价标准。结果表明随着盐碱浓度的提升,对种子萌发和生长的抑制越明显。在1%NaCl加0.25%NaHCO3溶液处理下,发芽率盐害率变异最大,为0%–89.80%。在所有浓度处理下,各性状指标的盐害率都具有相似的变化趋势。筛选到4份综合耐盐碱能力强(大酒谷、日本晴、魔王谷和02428)和7份弱的种质资源。比较了4份耐盐碱强和3份耐盐碱弱的资源耐盐基因序列:OsHAL3和OsRR22基因在7份材料中没有差异,SKC1和DST基因在耐盐碱强和耐盐碱弱的品种之间有明显的变异。研究结果为进一步挖掘水稻耐盐碱基因和培育耐盐碱水稻新品种提供了种质资源和理论基础。     

水稻分蘖期耐盐性鉴定评价方法确立及种质筛选

分蘖期是水稻由秧田生长向本田生长过渡的营养生长关键时期。在盐渍化土壤上种植水稻,分蘖期耐盐性对水稻能否正常生长至关重要。合适的耐盐性鉴定方法是水稻耐盐种质筛选的前提。本研究目的在于通过水稻分蘖期盐浓度梯度筛选试验,明确水稻分蘖期耐盐性鉴定最适盐胁迫浓度和调查时间;利用确立的鉴定方法,筛选出水稻分蘖期耐盐种质。本研究选取具有不同程度耐盐性的26份水稻品种,于2015年和2016年分别在10个和7个盐浓度梯度下,以盐害等级为分蘖期耐盐评价指标,开展水稻分蘖期耐盐性鉴定评价试验。结果表明,在0.5%盐浓度下,处理4～6周后供试种质的盐害等级差异表现为最大,因此认为0.5%盐浓度是水稻分蘖期耐盐性鉴定的最适盐胁迫浓度,盐处理后4～6周是水稻分蘖期盐害等级调查的最佳调查时间。参照国际水稻所提出的水稻分蘖期耐盐性评价标准,本研究对其进行了改进,提出以单株为单位进行水稻分蘖期耐盐性评价方法,利用平均盐害等级评估分蘖期耐盐性。该方法能够方便、准确地评价水稻耐盐性强弱。依据上述确立的水稻分蘖期耐盐性鉴定评价方法,本研究于2017-2019年期间对2886份来自不同生态区域的水稻种质进行分蘖期耐盐性鉴定评价,鉴定筛选出137份耐盐种质,为水稻耐盐遗传机制和育种研究提供资源支撑。     

几个粳稻品种抗白背飞虱的研究

本研究用苗期群体鉴定法对若干水稻品种进行了抗白背飞虱(Sogatella furcifera)比较测定,并探讨籼、粳稻品种抗性差异和粳稻抗性性质.结果指出:在供试“80079”,“中国91”、“盐粳2号”等粳稻品种上,白背飞虱生物学表现明显不同.粳稻抗性可分两类:(1)“80079”对白背飞虱取食、生存、发育没有抗生作用,对种群为害还表现有耐虫性;(2)“中国91”、“盐粳2号”对白背飞虱取食、生存、发育没有抗生作用,但却有一定的拒产卵机制,对种群为害还兼有耐虫性,从而能有效地抑制白背飞虱种群的建立.     

QTL Analysis of Na+ and K+ Concentrations in Roots and Shoots under Different Levels of NaCl Stress in Rice (Oryza sativa L.)

The key to plant survival under NaCl salt stress is maintaining a low Na⁺ level or Na⁺/K⁺ ratio in the cells. A population of recombinant inbred lines (RILs, F_2∶9) derived from a cross between the salt-tolerant japonica rice variety Jiucaiqing and the salt-sensitive indica variety IR26, was used to determine Na⁺ and K⁺ concentrations in the roots and shoots under three different NaCl stress conditions (0, 100 and 120 mM NaCl). A total of nine additive QTLs were identified by QTL Cartographer program using single-environment phenotypic values, whereas eight additive QTLs were identified by QTL IciMapping program. Among these additive QTLs, five were identified by both programs. Epistatic QTLs and QTL-by-environment interactions were detected by QTLNetwork program in the joint analyses of multi-environment phenotypic values, and one additive QTL and nine epistatic QTLs were identified. There were three epistatic QTLs identified for Na⁺ in roots (RNC), three additive QTLs and two epistatic QTLs identified for Na⁺ in shoots (SNC), four additive QTLs identified for K⁺ in roots (RKC), four additive QTLs and three epistatic QTLs identified for K⁺ in shoots (SKC) and one additive QTL and one epistatic QTL for salt tolerance rating (STR). The phenotypic variation explained by each additive, epistatic QTL and QTL×environment interaction ranged from 8.5 to 18.9%, 0.5 to 5.3% and 0.7 to 7.5%, respectively. By comparing the chromosomal positions of these additive QTLs with those previously identified, five additive QTLs, qSNC9, qSKC1, qSKC9, qRKC4 and qSTR7, might represent novel salt tolerance loci. The identification of salt tolerance in selected RILs showed that a major QTL qSNC11 played a significant role in rice salt tolerance, and could be used to improve salt tolerance of commercial rice varieties with marker-assisted selection (MAS) approach.     

Identification of QTLs with main, epistatic and QTL?×?environment interaction effects for salt tolerance in rice seedlings under different salinity conditions

Salt tolerance of rice (Oryza sativa L.) at the seedling stage is one of the major determinants of its stable establishment in saline soil. One population of recombinant inbred lines (RILs, F (2:9)) derived from a cross between the salt-tolerant variety Jiucaiqing and the salt-sensitive variety IR26 was used to determine the genetic mechanism of four salt tolerance indices, seedling height (SH), dry shoot weight (DSW), dry root weight (DRW) and Na/K ratios (Na/K) in roots after 10 days in three salt concentrations (0.0, 0.5 and 0.7 % NaCl). The main effect QTLs (M-QTLs) and epistatic QTLs (E-QTLs) were detected by QTL IciMapping program using single environment phenotypic values. Eleven M-QTLs and 11 E-QTLs were identified for the salt tolerance indices. There were six M-QTLs and two E-QTLs identified for SH, three M-QTLs and five E-QTLs identified for DSW, two M-QTLs and one E-QTL identified for DRW, and three E-QTLs identified for Na/K. The phenotypic variation explained by each M-QTL and E-QTL ranged from 7.8 to 23.9 % and 13.3 to 73.7 %, respectively. The QTL-by-environment interactions were detected by QTLNetwork program in the joint analyses of multi-environment phenotypic values. Six M-QTLs and five E-QTLs were identified. The phenotypic variation explained by each QTL and QTL × environment interaction ranged from 0.95 to 6.90 % and 0.02 to 0.50 %, respectively. By comparing chromosomal positions of these M-QTLs with those previously identified, five M-QTLs qSH1.3, qSH12.1, qSH12.2, qDSW12.1 and qDRW11 might represent novel salt tolerance genes. Five selected RILs with high salt tolerance had six to eight positive alleles of the M-QTLs, indicating that pyramiding by marker-assisted selection (MAS) of M-QTLs can be applied in rice salt tolerance breeding programs.     

Assessment of Genetic Diversity Among Rice Genotypes with Differential Adaptations to Salinity Using Physio-morphological and Molecular Markers

Breeding for salt tolerance using traditional screening and selection methods have been limited by the complex and polygenic nature of salt tolerance trait. This study was designed to evaluate some of the premium Basmati rice varieties for salt tolerance and to characterize genetic diversity among the rice varieties with different adaptations to saline soils using microsatellite (SSR) and ISSR markers. Plants of nine rice varieties including salt tolerant, salt sensitive and traditional Basmati, were grown in hydroponics using Yoshida solution containing 0 (control, pH 5.0) and 30 mM NaCl (Electrical conductivity 4.8 d/S, pH 5.0) and assessed for salinity tolerance on 1–9 scale as per IRRI standard evaluation system using seedling growth parameters, visual salt injuries and Na-K ratio. Physio-morphological studies showed that traditional Basmati rice varieties (Basmati 370 and HBC19) were more sensitive than the salt sensitive control variety, MI-48. SSR as well as ISSR marker systems generated higher levels of polymorphism and could distinguish between all the 9 rice cultivars. A total of 299 (225 polymorphic) and 437 (430 polymorphic) bands were detected using 28 UBC ISSR primers and 100 welldistributed mapped SSR markers, respectively. ISSR and SSR marker data-sets showed moderate levels of positive correlation (Mantel test, r = 0.43). The ISSR and SSR marker data analyzed using clustering algorithms showed two distinct clusters separating the Basmati (Basmati 370, HBC19 and CSR-30) from other non-aromatic indica (IR36, Pokkali, CSR10 and MI-48) rice varieties indicating greater divergence between Basmati and non-aromatic indica rice genotypes. Marker analysis showed a close relationship among the two traditional (Basmati 370 and HBC19) and cross-bred (CSR30) Basmati rice varieties and greater diversity between the two salt-tolerant genotypes, Pokkali and BR4-10.     

低酚棉种质资源耐盐性鉴定

为了解决粮棉争地矛盾,棉花向更加盐碱干旱区域发展是大势所趋。因此进行耐盐鉴定筛选抗性种质意义重大。本研究在培养室条件下,利用发芽盒和石英砂对179份来源不同的低酚棉种质资源的耐盐性进行了评价。结果表明,179份低酚棉资源材料中,没有高抗材料;抗盐材料4份,占所鉴定材料的2.2%;耐盐材料54份,占30.2%;盐敏感材料121份,占67.6%。筛选出8份耐盐性突出的材料,其耐盐性达到了耐盐或抗盐的水平,包括豫无424、衡无87-306、中无1651、中无3385、多毛101、中无374-G、中无1038和中无642,这些材料在盐胁迫下的相对成活苗率均在70%以上。国内材料耐盐性好于国外材料,国内材料中河北省、山东省、河南省的材料耐盐性明显好于其他省份。本研究筛选出了耐盐性好的低酚棉材料,为低酚棉育种提供了优异的种质资源。     

Identification of antibiosis and tolerance in rice varieties carrying brown planthopper resistance genes

Brown planthopper (BPH) [Nilaparvata lugens (Stål) (Hemiptera: Delphacidae)] is a major pest in rice [Oryza sativa L. (Poaceae)] production. Identification of resistance genes and development of BPH‐resistant varieties is an economical and effective way to control this pest. In this study, BPH honeydew excretion, survival rate, and emergence rate were used as indicators to detect the antibiotic level, whereas the relative growth rates of plant height (R_H) and fresh weight (R_W), and the number of days until yellowing were used to identify the level of tolerance to BPH in rice varieties. Rice varieties Swarnalata and B5, which showed high levels of antibiosis and tolerance to BPH, thus were highly resistant in the seedling bulk test; Mudgo and T12, which showed moderate resistance to the insects, had a high level of tolerance and moderate antibiosis to BPH. Varieties Rathu Heenati, ARC 10550, and Chin Saba were identified to be susceptible to BPH, showing a moderate level of tolerance and no antibiosis. In comparison to the evaluation methods of BPH resistance, the honeydew excretion and survival rate could be used to detect the antibiotic level, and the R_H, R_W, or leaf yellowing days could be employed as indicators to evaluate the rice varieties’ tolerance. Overall, a combined application of these indicators can effectively identify the levels of antibiosis and tolerance to BPH in rice varieties, and BPH‐resistance levels of the varieties were mainly determined by the antibiosis level. The results should help in understanding BPH‐resistance categories of rice varieties and for resistance breeding.     

Linkage Disequilibrium in Salt Tolerant Genotypes of Rice (Oryza sativa L)

Genome wide linkage disequilibrium (LD) was investigated in a set of 32 genotypes representing salt tolerant improved varieties and landraces and six salt sensitive genotypes of rice with 64 microsatellite markers to identify the genomic regions that are associated with salt tolerance in rice. Out of 64 markers analyzed, 36% SSR pairs exhibited significant LD at 0.05. A few regions were identified as targets of selection in 10 chromosomes with high r ² values. The model-based groups from Bayesian clustering analysis are largely consistent with known pedigrees of the lines. The increased percentage of association of SSR loci in the improved varieties indicated the role of selection in linkage disequilibrium especially for salt tolerance. LD was extended as far as 100 cM in the present study. Most of the markers (43.8%) with significant LD values were observed in the genomic regions of reported QTL for salt tolerance in rice.     

Effect of zinc fertilization on the mineral nutrition of rices differing in tolerance to zinc deficiency

Summary The effects of four Zn levels on the electrochemical and chemical properties of the soil solution, and on the growth and mineral nutrition of two rice varieties (IR26 and IR34) differing in tolerance to Zn deficiency were studied in the greenhouse using Zn-deficient soils from two locations. A similar experiment was conducted in culture solution to check how Zn addition affects translocation of other nutrients.In both soil and culture solution, plant Zn concentrations alone was not enough to account for varietal tolerance to Zn deficiency. Comparison of nutrient to Zn and shoot to root ratios of nutrients was more useful in determining the possible mechanism of varietal tolerance. IR 34 appeared to tolerate the disorder due to its lower Zn requirement, more efficient Zn translocation and ability to maintain lower Fe/Zn, Cu/Zn, Mg/Zn and P/Zn ratios in the shoot than the more susceptible variety, IR26. This was shown to be due to decreased translocation of Fe, Mg and P to shoots and decreased absorption of Cu by the root in IR34 in culture solution studies. Adding Zn further reduces translocation or absorption of these nutrients and depending on the nutrient supply of the soil, could cause deficiencies or mineral imbalances, especially of Fe, Cu, and P.These observed varietal differences regarding Zn requirement and the interaction of Zn with absorption and translocation of plant nutrients necessitates revision of recommendations for Zn fertilization. There is an inevitable need for Zn application in severely Zn-deficient soils regardless of rice variety. But on marginally Zn-deficient soils especially those low in Fe, Cu, or P, Zn fertilization is not advisable when resistant rice varieties are used.     

不同生态区主要育成谷子品种芽期耐旱性鉴定

以-0.5 MPa的PEG6000作渗透介质模拟干旱条件,对不同生态区的谷子(Setaria italica(L.)Beauv.)品种(系)进行种子萌发耐旱鉴定。结果表明:在PEG6000胁迫下,萌发耐旱指数与相对根芽比、芽生长抑制率呈极显著负相关;与根生长抑制率呈正相关,但相关系数小,相关不显著;与相对发芽势呈极显著正相关,且相关系数达0.939,可以反映谷子芽期耐旱性。根据萌发耐旱指数,将201份谷子品种(系)划分为极抗旱、抗旱、中度抗旱、不抗旱和极不抗旱5个等级。