Genetics of adult plant stripe rust resistance in four Australian wheats and the French cultivar 'Hybride-de-Bersée'

Long-term resistance to rust diseases depends on the identification and use of durable resistance sources or on the continuing use of new resistances and combinations of genes for specific resistance. These studies include four Australian wheats with intermediate, but inadequate levels of resistance and a French wheat ‘Hybride-de-Bersée’ (‘Bersee’), with reputed durable resistance to stripe rust. Studies of F₂ and F₃ populations from crosses with the susceptible ‘Avocet’ indicated that intermediate levels of adult plant stripe rust resistance in cultivars ‘Harrier’, ‘Flinders’ and ‘M2435’ were inherited monogenically, whereas King possessed two genes for resistance. Cultivars Harrier and M2435 possessed the same gene. Similarly, cvs. King and Flinders carried a gene in common. Like ‘Harrier’ and ‘M2435’, ‘King’ and ‘Flinders’ share common parents. The higher level of resistance in ‘Bersee’ was controlled by four genes. This conclusion was based on conventional genetic analysis, tests on F₂-derived F₇ single-seed descent lines and testcross progenies.     

Genetics of leaf rust resistance in three Americano landrace-derived wheat cultivars from Uruguay

A genetic analysis of the landrace‐derived wheat accessions Americano 25e, Americano 26n, and Americano 44d, from Uruguay was conducted to identify the leaf rust resistance genes present in these early wheat cultivars. The three cultivars were crossed with the leaf rust susceptible cultivar ‘Thatcher’ and approximately 80 backcross (BC1) F₂ families were derived for each cross. The BC1F₂ families and selected BC1F₄ lines were tested for seedling and adult plant leaf rust resistance with selected isolates of leaf rust, Puccinia triticina. The segregation and infection type data indicated that Americano 25e had seedling resistance genes Lr3, Lr16, an additional unidentified seedling gene, and one adult plant resistance gene that was neither Lr12 nor Lr13, and did not phenotypically resemble Lr34. Americano 26n was postulated to have genes Lr11, Lr12, Lr13, and Lr14a. Americano 44d appeared to have two possibly unique adult plant leaf rust resistance genes.     

小偃麦新种质CH7102抗条锈病特性的遗传分析

对衍生于普通小麦与八倍体小偃麦‘小偃7430’杂种后代的抗条锈病新种质CH7102进行抗性鉴定和遗传分析,明确其抗性来源及其遗传方式。采用条锈菌流行小种CYR31、CYR32对CH7102及其亲本进行苗期抗性评价;对CH7102分别与感病品种和已知抗性基因载体品系的杂交后代接种CYR32进行成株期抗条锈性遗传分析和等位性测验。CH7102具有与其抗病亲本‘小偃7430’和彭提卡偃麦草相似的侵染型,而所有的小麦亲本均感病,表明CH7102的抗性来自彭提卡偃麦草;CH7102与感病品种‘台长29’和‘绵阳11’杂交、回交,其F2、BC1、F2:3代的抗、感分离比分别符合3:1、1:1和1:2:1的单显性基因分离模式。而CH7102与已知抗性基因载体品系杂交F2代的抗感分离比为15:1。CH7102对条锈病的抗性来自彭提卡偃麦草,其抗性受1对显性核基因控制,而且与已知的抗CYR31、CYR32的抗性基因Yr5、Yr10、Yr15、Yr24/Yr26、Yr41不存在等位关系,属新的抗条锈病基因。     

Responses of Israeli wild emmers to selected Australian pathotypes of Puccinia species

Summary Seedling responses to one Australian isolate of each of the stripe rust, stem rust and leaf rust pathogens were determined for 541 accessions of T. dicoccoides collected from 23 locations in Israel. Resistance to stripe rust was more frequent than resistance to stem rust. Stripe rust responses showed a wide range of variability indicative of a number of genes for resistance. Comparison of the present stem rust data and that reported for the same accessions tested in Israel indicated that different genes were operating in each country. Only moderately resistant responses to stem rust were obtained. This level of resistance is probably inadequate for transfer to commercial wheat cultivars. We found no potentially useful seedling resistance to leaf rust.     

Potential use of doubled haploid lines for the screening of resistance to yellow rust (Puccinia striiformis) in hexaploid wheat

Doubled haploid lines derived from anther culture of two Iranian spring wheat genotypes‘Ghods’susceptible and‘9106’resistant to yellow rust in Iranian field conditions, and their F₁ hybrids were used in this study. Seedlings of 36 doubled haploid lines, selected out of 96 according to their agronomic traits and the two parental genotypes were inoculated with eight races of yellow rust. The parental genotypes (‘Ghods’and‘9106’) were segregating for some of the races but their doubled haploid lines were either resistant or susceptible to them.‘Ghods’was susceptible to three of the races studied but three doubled haploid lines derived from it were resistant to them. Five selected doubled haploids from the‘9106’genotype and six from F₁ hybrid plants were resistant to all eight races tested. After further investigations in Iranian field conditions it was found that some of these lines can be used as donor genotypes for resistance to yellow rust in wheat breeding programmes. Use of these genotypes should be possible if the French yellow rust races used for selection also represent the dominant races in Iran. It can be concluded that anther culture provides an efficient method for fixing genes of resistance to yellow rust and desirable doubled haploids from F₁ plants can be derived.     

小麦‘西农291’成株期抗条锈病遗传分析

为明确‘西农291’抗条锈性的遗传基础。对‘西农291’在温室和田间进行多个小麦条锈菌小种的抗条锈鉴定;采用常规杂交方法,将‘西农291’分别与感病品种‘铭贤169’与AvS杂交,构建其F1、F2遗传群体,用小麦条锈菌小种CYR32进行温室抗条锈性鉴定、混合小种（CYR32:CYR33≈1:1）进行田间抗条锈性鉴定。结果表明,在温室条件下,‘西农291’在苗期对条锈菌CYR32与CYR33表现高度感病、成株期对CYR32、CYR33、Su11-4及Su11-7表现高度抗条锈性;田间混合小种接种诱发发病（陕西杨凌）和自然发病（甘肃天水）抗条锈性鉴定均表明‘西农291’在成株期高度抗条锈病。群体抗条锈性鉴定结果表明‘西农291’与感病品种铭贤169和AvS杂交的F2群体的抗:感分离比例均符合3R:1S的理论比例。以上结果说明‘西农291’具有非小种专化性的、广谱抗性的成株期抗条锈性;对CYR32的成株抗条锈性受1对显性基因控制。     

Inheritance of partial rust resistance in pearl millet

Quantitative disease resistance should be exploited to complement the use of genes for qualitative or hypersensitive resistance. The expression and inheritance of partial rust resistance of pearl millet inbreds 700481-21-8 and ‘ICMP 501’ crossed to moderately susceptible Tift 383’ were evaluated in seedling assays in the greenhouse and in generation mean and single-seed descent populations in the field. Uredinium sizes on seedling leaves of hybrids were generally intermediate to those of the parental inbreds and consistent differences could be discerned in uredinium lengths. Area under the disease progress curves (AUDPCs) of individual plants of the parents, F₁, F₂, and backcross F₁S to each parent were determined from field trials. Broad-sense heritability estimates for both crosses were 43%. In generation mean analyses, additive genetic effects were significant in the cross of 700481–21–8 × Tift 383′, whereas additive, dominance, and dominance × dominance epistatic effects were significant for ‘ICMP 501’בTift 383’. The number of genes conferring partial resistance was estimated to be two for 700481–21–8 and 2.5 for ‘ICMP 501’. A hierarchical single-seed descent analysis revealed significant differences in AUDPC among F₃-derived F₄ progenies in the F₆ generation. Selection for progenies with greater resistance should be possible among F₄ families. Higher levels of resistance were observed in progeny derived from ‘ICMP 501’. Because segregation of resistance differed among progeny derived from 700481–21–8 and ‘ICMP 501’, the genetic basis for resistance probably differs between the two inbreds.     

Temperature-dependent resistance to crown rust infection in perennial ryegrass, Lolium perenne

Differences were found in the expression of resistance of perennial ryegrass, Lolium perenne, cultivars to crown rust, Puccinia coronata Corda, when plants were incubated at either 10°C or 25°C. In an extreme example, all the genotypes of ‘Carrick’ were resistant at 10°C but susceptible at 25°C. The variation between cultivars was due both to a general increase in expression of susceptibility and the proportion of plants which became susceptible. A BC₁ line containing a stay‐green gene derived from Festuca pratensis was insensitive to temperature, while a sister line was sensitive.     

从美国引进的小麦抗锈品种的抗锈性测定和我国及美国小麦叶锈菌的毒性比较研究

1981年在河北农业大学温室分别用中国小麦叶锈菌4个小种360、376、377和60对从美国引进的13个抗锈品种进行了抗叶锈性测定,在河北省植保所田间进行了成株期对叶、条锈的抗性测定.1982年在美国堪萨斯州立大学温室分别用美国的小麦叶绣菌培养物PRTUS1、3、4、5、6、7、8、9、10、11、13和19对13个品种中的9个进行了抗叶锈性测定.苗期测定结果指出,其中3个品种Kans 63324,STW 646407和II-11996-4R-SM-1R对所测的中国小种都表现抵抗,但对美国的培养物大多数抵抗,而在所测的9个品种中没有对所有美国培养物都抵抗的.在对比两国之间中国小麦叶锈菌小种和美国小麦叶锈菌培养物的毒性时进一步指出,有些品种犹如LA1415,STW597725和STW597947对美国的少数培养物抵抗,而对所有的中国小种感染.田间试验用小麦条锈菌小种19和21接种指出品种NB61975、NB66523和STW597944对条锈是免疫的,NB61977和II-119966-4R-SM-1R是高抗的.     

Genes for wheat stem rust resistance postulated in German cultivars and their efficacy in seedling and adult‐plant field tests

Stem rust of wheat (caused by Puccinia graminis f.sp. tritici) gained high international attention in the last two decades, but does not occur regularly in Germany. Motivated by a regional epidemic in 2013, we analysed 15 spring and 82 winter wheat cultivars registered in Germany for their resistance to stem rust at the seedling stage and tested 79 of these winter wheat cultivars at the adult‐plant stage. A total of five seedling stem rust resistance genes were postulated: Sr38 occurred most frequently (n = 29), followed by Sr31 (n = 11) and Sr24 (n = 8). Sr7a and Sr8a occurred only in two spring wheat genotypes each. Four cultivars had effective seedling resistance to all races evaluated that could only be explained by postulating additional resistance genes (‘Hyland’, ‘Pilgrim PZO’, ‘Tybalt’) or unidentified gene(s) (‘Memory’). The three winter wheat cultivars (‘Hyland’ ‘Memory’ and ‘Pilgrim PZO’) were also highly resistant at the adult‐plant stage; ‘Tybalt’ was not tested. Resistance genes Sr24 and Sr31 highly protected winter wheat cultivars from stem rust at the adult‐plant stage in the field. Disease responses of cultivars carrying Sr38 varied. Mean field stem rust severity of cultivars without postulated seedling resistance genes ranged from 2.71% to 41.51%, nine of which were significantly less diseased than the most susceptible cultivar. This suggests adult‐plant resistance to stem rust may be present in German wheat cultivars.     

Resistance to stripe rust in Triticum turgidum,T. tauschii and their synthetic hexaploids

Resistance to stripe rust (caused by Puccinia striiformis Westend.) of 34 Triticum turgidum L. var.durum, 278 T. tauschii, and 267 synthetic hexaploid wheats (T. turgidum x T. tauschii) was evaluated at the seedling stage in the greenhouse and at the adult-plant stage at two field locations. Mexican pathotype 14E14 was used in all studies. Seedling resistance, expressed as low infection type, was present in all three species. One hundred and twenty-eight (46%) accessions of T. tauschii, 8 (23%) of T. turgidum and 31 (12%) of synthetic hexaploid wheats were highly resistant as seedlings. In the field tests, resistance was evaluated by estimating area under disease progress curve (AUDPC). Synthetic hexaploid wheats showed a wide range of variability for disease responses in both greenhouse and field tests, indicating the presence of a number of genes for resistance. In general, genotypes with seedling resistance were also found to be resistant as adult plants. Genotypes, which were susceptible or intermediate as seedlings but resistant as adult plants, were present in both T. turgidum and the synthetic hexaploids. Resistances from either T. turgidum or T. tauschii or both were identified in the synthetic hexaploids in this study. These new sources of resistance could be incorporated into cultivated hexaploid wheats to increase the existing gene pool of resistance to stripe rust.     

小麦品种小偃9323抗条锈基因的遗传分析和分子作图

小偃9323是小偃6号的同源材料,具有早熟、抗逆性强、适应性广、抗条锈性强等许多优良的生物学特性。为明确其抗条锈性及遗传规律,利用当前流行的中国条锈菌小种CYR32对抗病品种小偃9323与感病品种铭贤169及其杂交后代F₁、F₂、F₃和BC₁代进行苗期抗条锈性遗传分析,并对其抗条锈基因进行SSR分子标记。结果表明,小偃9323对CYR32小种具有良好的抗性,由1对隐性基因所控制。利用F₂代分离群体,筛选到6个与抗病基因连锁的SSR标记,分别是Xwmc807、Xbarc3、Xwmc684、Xwmc201、Xwmc553和Xwmc179;该抗病基因位于小麦6AL染色体上,其最近的标记为Xwmc201和Xwmc553,遗传距离分别是2.6 cM和3.7 cM。分析表明,该基因不同于已知抗条锈基因,暂被命名为YrXY9323。用YrXY9323两侧遗传距离最近的标记Xwmc201和Xwmc553对42个黄淮麦区主栽小麦品种进行分子检测,结果表明有19%的品种具有与YrXY9323相同的标记位点。本结果对YrXY9323在小麦抗条锈病育种中的应用提供了理论依据。     

Association of leaf rust and powdery mildew resistance in a recombinant derived from a Hordeum vulgare × Hordeum bulbosum hybrid

While studying powdery mildew resistance in a recombinant line (code 81882) derived from a Hordeum vulgare (cv. ‘Vada’) ×Hordeum bulbosum hybrid, a low infection type of resistance to leaf rust was observed. To determine the mode of inheritance of the leaf rust resistance and whether there was linkage between the two resistances, F₂ and F₃ progenies from crosses between 81882 and ‘Vada’ were inoculated with the leaf rust and powdery mildew pathogens. Southern blots were prepared using restricted DNA extracted from leaves of 82 F₂ plants and four chromosome 2HS sequences were hybridized with the blots to define the length of the introgression. The leaf rust resistance appears to be inherited as a single dominant gene on chromosome 2HS, which co-segregates with the powdery mildew resistance. There was an almost complete association between the resistances and the respective molecular markers, but it is likely that the strong linkage results from the frequent inheritance of the introgressed H. bulbosum DNA as an intact segment of chromatin with only low levels of recombination within the segment.     

Molecular mapping of a stripe rust resistance gene in wheat cultivar Wuhan 2

Stripe rust (or yellow rust), caused by Puccinia striiformis f. sp. tritici, is one of the most destructive diseases of wheat worldwide. Growing resistant cultivars is the best approach to control the disease. To identify and map genes for stripe rust resistance in wheat cultivar ‘Wuhan 2', an F₂ population was developed from a cross between the cultivar and susceptible cultivar Mingxian 169. The parents, 179 F₂ plants and their derived F_2:3 lines were evaluated for responses to Chinese races CYR30 and CYR31 of the pathogen in a greenhouse. A recessive gene for resistance was identified. DNA bulked segregant analysis was applied and resistance gene analog polymorphism (RGAP) and simple sequence repeat (SSR) techniques were used to identify molecular markers linked to the resistance gene. A genetic map consisting of five RGAP and six SSR markers was constructed. The recessive gene, designated Yrwh2, was located on the short arm of chromosome 3B and flanked by SSR markers Xwmc540 and Xgwm566 at 5.9 and 10.0 cM, respectively. The chromosomal location of the resistance gene and its close marker suggest that the locus is different from previously reported stripe rust resistance genes Yr30, QYr.ucw-3BS, Yrns-B1, YrRub and QYrex.wgp-3BL previously mapped to chromosome 3B. Yrwh2 and its closely linked markers are potentially useful for developing stripe rust resistance wheat cultivars if used in combination with other genes.     

Seedling and adult plant resistance to yellow rust in Iranian bread wheats

In order to evaluate wheat response to yellow rust, 25 advanced, promising and commercial bread wheat cultivars were tested as seedlings in greenhouse conditions in Karaj, Iran, and as adult plants in field conditions at four locations. Five pathotypes of yellow rust, 14E176A⁺, 134E142A+, 6E210A+, 4E128A- and 64E146A+ prevailing in field test locations, were used in the seedling tests. The results showed that some of the cultivars have seedling or overall resistance to the pathotypes and some have adult plant resistance. Cultivars M-70-4 and MV17 were resistant to all pathotypes as seedlings and showed good adult plant resistance. This revised version was published online in August 2006 with corrections to the Cover Date.     

具特异性状人工合成小麦的条锈病抗性改良

为了解3份具特异优良性状但高感条锈病的人工合成小麦SHW-Z1、SHW-Z2和SHW-Z4感病性的遗传特点,进行更好的育种利用。用高抗条锈病的普通小麦材料5157与上述人工合成小麦分别进行正反杂交,对6个杂交组合的亲本、F¹世代的条锈病抗性与F²代的条锈病抗感分离情况进行了分析以探究其感病性的遗传特点,结果表明：（1）本研究的普通小麦和人工合成小麦杂交后代的条锈病抗性由多对基因控制,遗传上表现出加-显效应;(2)SHW-Z1条锈病的抗性改良效果优于SHW-Z2和SHW-Z4;（3）本研究材料的条锈病抗性基因可能还受到遗传背景的影响。本研究对这3份人工合成小麦的条锈病抗性改良和育种利用提供了理论依据,同时可为相关研究提供参考。     

Screening for resistance to clover rot (Sclerotinia spp.) among a diverse collection of red clover populations (Trifolium pratense L.)

Red clover (Trifolium pratense) is an important perennial forage crop that is widely cultivated in Europe. Clover rot remains a major disease in red clover, but resistance breeding is hampered by the lack of available sources of resistance. Moreover, little is known about the factors that influence clover rot resistance. In this paper we evaluated the variation in clover rot susceptibility among a diverse collection of 113 red clover accessions, with the aim of identifying more resistant accessions. Clover rot susceptibility was assessed with a high throughput bio-test on young plants. We found significant variation in clover rot susceptibility, within and among accessions. ‘Tedi’, ‘Maro’ and ‘No 292’ were the most resistant accessions. Fifteen diploid accessions were more susceptible than the average accession with the cultivar ‘Nemaro’ being the most susceptible. Clover rot susceptibility was not correlated with isoflavone levels from Mullaney et al. (Agronomy abstract. ASA, Madison, p 195, 2000). Cultivars were more resistant than landraces and wild accessions and tetraploid cultivars were more resistant than diploid cultivars. Besides the in-depth analysis for clover rot susceptibility, possible correlations with plant architecture and other diseases were investigated. Growth habit, branching, plant yield, flowering date and susceptibility to mildew, virus and rust diseases were investigated in a 3-year field trial. Unlike previously suggested, clover rot susceptibility was not correlated with branching or with plant yield over three years. On the other hand, late flowering accessions and accessions with erect growth habit were less susceptible to clover rot. Clover rot susceptibility was not correlated with susceptibility to rust disease (Uromyces trifolii) or viral diseases, but negatively with susceptibility to mildew (Erysiphe polygoni). Because no completely resistant accessions were found, the best way to improve clover rot resistance would be to select recurrently for resistant genotypes among diverse cultivars and landraces with lower susceptibility. Tetraploidisation of diploid populations with a higher resistance level can provide an additional level of protection.     

Leaf and stem rust resistance of hexaploid wheat cultivars salzmünder bartweizen and weique

Summary Wheat cultivars Salzmünder Bartweizen and Weique gave a similar pattern of reaction type when tested with 27 different races of stem rust and 17 races of leaf rust from Canada and Czechoslovakia. Both cultivars were resistant to all races of stem rust and most of the races of leaf rust. Genetic studies indicated that the two varieties have the same genes for rust resistance, with the genes for leaf and stem rust being closely linked.Transmission of the genes for rust resistance was irregular and appeared to be associated with meiotic irregularities in chromosome pairing. In all F₂ populations which deviated significantly from a 3:1 ratio, a deficiency of resistant plants was noted. The greatest deficiency was in the F₂ of crosses involving Salzmünder Bartweizen, of which the F₁ hybrid also had the greatest meiotic irregularities.Chimeral plants, of which the longitudinal half of the leaf showed a resistant reaction and the other half a susceptible reaction, were observed in crosses with Salzmünder Bartweizen.     

The Transfer of Thinopyrum-Derived Leaf-rust Resistance from Common Wheat to Durum Wheat.

The leaf rust resistance gene on chromosome 7AL of ‘Chinese Spring’ transfer no. 12 derived from Thinopyrum ponticum, was transferred to durum wheat by standard backcrossing. In ‘Agatha’ and ‘Indis’ a leaf rust resistance gene from Thinopyrum ponticum and Thinopyrum ponticum respectively, is found on a translocated segment on chromosome arm 7DL. The use of the ‘Langdon’ disomic D-chromosome substitution lines for 7A and 7B resulted in the recovery of tetraploid leaf-rust resistant lines from the crosses with ‘Agatha’ in the B₂F₁ generation. Tetraploid lines carrying the ‘Indis’ translocation segment were recovered in the B₂F₂ generation. The F₂ segregation ratios for rust resistance after selfing or back-crossing generally fitted a 1: 1 ratio indicating non-transmission of the translocation segments in the male gametes. Homozygous resistant plants were not obtained. Meiotic instability was observed in 28 chromosome B₂ F₂ derivatives of the crosses between ‘Chinese Spring’ transfer no. 12 and durum wheat.     

78份四川小麦育成品种(系)条锈病抗性鉴定与抗条锈病基因分子检测

四川省是小麦条锈菌新小种产生的重要地区之一,了解2016年以来四川小麦育成品种(系)对当前流行的条锈菌生理小种和致病类型的抗性水平以及明确其抗条锈病基因的分布状况,可为四川育种防控小麦抗条锈病和品种布局提供理论依据。本研究选择2个小种CYR32和CYR34对78份四川小麦育成品种(系)进行苗期鉴定,利用当前小麦条锈菌优势小种CYR32、CYR33、CYR34,以及贵22-14、贵农致病类群等混合菌进行成株期人工接种鉴定,并利用19个抗条锈病QTL和基因QYr.nwafu-4BL、Yr5、Yr10、Yr15、Yr17、Yr18、Yr26、Yr28、Yr29、Yr30、Yr36、Yr39、Yr41、Yr48、Yr65、Yr67、Yr78、Yr80和Yr81的分子标记对供试材料进行抗条锈病基因检测。结果表明,在78份供试材料的苗期鉴定中,对CYR32表现出抗性的有60份,占76.92%;对CYR34表现出抗性的有40份,占51.28%;同时对CYR32和CYR34表现抗性的有36份,占46.15%。78份小麦品种(系)在成株期均表现抗条锈病,其中绵麦835、蜀麦1743、蜀麦1829和蜀麦1868表现为免疫。苗期和成株期抗病性鉴定结果表明,成株期抗性材料有42份,占53.85%;全生育期抗性材料有36份,占46.15%。分子检测结果表明,可能携带QYr.nwafu-4BL、Yr15、Yr17、Yr18、Yr26、Yr28、Yr29、Yr30、Yr39、Yr41、Yr65、Yr67、Yr78、Yr80和Yr81的材料分别有5、5、45、2、30、5、30、39、3、2、22、8、23、6和24份。同时携带2~6个抗条锈病基因的聚合材料分别有24、22、11、14和3份,占94.87%。所有供试品种(系)均未检测到Yr5、Yr10、Yr36和Yr48,仅西科麦18未检测到上述19个抗条锈病基因,可能携带其他已知或新的条锈病抗性基因。本研究鉴定了78份四川小麦育成品种(系)对条锈病抗性水平整体较好,明确了其携带的抗条锈病基因,为利用其培育持久抗性小麦品种提供了科学依据。