Evaluation and characterization of resistance to fusarium head blight caused by Fusarium culmorum in UK winter wheat cultivars

Fusarium head blight (FHB) resistance of 50 cultivars from the National List of winter wheat cultivars approved for sale (or were undergoing trails for approval in 2003) in the UK was compared with 21 reference cultivars from continental Europe which had previously been characterized for resistance. Only three UK National List cultivars (Soissons, Spark and Vector) had stable resistance over trial sites that was significantly greater than that of the FHB susceptible cultivar Wizard. In addition, under moderate disease pressure, 21 of the National List cultivars had levels of the trichothecene mycotoxin deoxynivalenol (DON) above the proposed European Union limit of 1·25 ppm in grain. Surveys show that levels of FHB and DON in the UK crop are currently very low, however, should disease pressure increase for any reason, then an improvement in the overall levels of FHB resistance of UK winter wheat germplasm will be required. In order to infer the origin of resistance and to identify potentially novel resistance, allele sizes of microsatellite (simple sequence repeat, SSR) markers linked to quantitative trait loci (QTL) for FHB resistance were compared between the test cultivars and known, characterized resistance sources. The major FHB resistance QTL from the Chinese cv. Sumai-3 (3BS, 5A and 6B), the Romanian cv. Fundulea F201R (1B and 5A) and the French cv. Renan (5AL) were screened with 17 SSRs. No National List cultivar had haplotypes similar to any of these QTL. However, the highly resistant German reference cultivar Petrus had an identical haplotype to cv. Fundulea F201R on 1B indicating that this cultivar has an allelic FHB resistance QTL at that location.     

The Brachypodium distachyon UGT Bradi5gUGT03300 confers type II fusarium head blight resistance in wheat

Fusarium head blight (FHB), caused by fungi belonging to the Fusarium genus, is a widespread disease of wheat (Triticum aestivum) and other small-grain cereal crops. The main causal agent of FHB, Fusarium graminearum, produces mycotoxins mainly belonging to type B trichothecenes, such as deoxynivalenol (DON), that can negatively affect humans, animals and plants. DON detoxification, mainly through glucosylation into DON-3-O-glucose, has been correlated with resistance to FHB. A UDP-glucosyltransferase from the model cereal species Brachypodium distachyon has been shown to confer resistance both to initial infection and to spike colonization (type I and type II resistances, respectively). Here, the functional characterization of transgenic wheat lines expressing the Bradi5g03300 UGT gene are described. The results show that, following inoculation with the fungal pathogen, these lines exhibit a high level of type II resistance and a strong reduction of mycotoxin content. In contrast, type I resistance was only weakly observed, although previously seen in B. distachyon, suggesting the involvement of additional host-specific characteristics in type I resistance. This study contributes to the understanding of the functional relationship between DON glucosylation and FHB resistance in wheat.     

Effects of plant height on type I and type II resistance to fusarium head blight in wheat

By carefully separating type I and type II resistances, the possible effects of plant height on fusarium head blight (FHB) resistance in wheat were assessed using near‐isogenic lines (NILs) for several different reduced‐height (Rht) genes. Tall isolines all gave better type I resistance than their respective dwarf counterparts when assessed at their natural heights. These differences largely disappeared when the dwarf isolines were physically raised so that their spikes were positioned at the same height as those of their respective tall counterparts. The effects of plant height on type II resistance was less clear. For those NIL pairs which showed significant differences, it was the dwarf isolines which gave better resistance. As the Rht genes involved in these NILs locate at different genomic regions, the differences in FHB between the dwarf and tall isolines are unlikely to be the result of linkages between each of the different Rht loci with a beneficial or a deleterious gene affecting type I or type II resistance. Rather, the different FHB resistances are probably caused by direct or indirect effects of height difference per se, and microclimate may have contributed to the better type I resistance of the tall plants. Thus, caution should be exercised when attempting to exploit any of the FHB resistant loci co‐located with Rht genes.     

Five-year survey uncovers extensive diversity and temporal fluctuations among fusarium head blight pathogens of wheat and barley in Brazil

We conducted a five-year survey (2011–2015) of barley and wheat fields in Paraná state, Brazil, obtaining 754 Fusarium isolates from spikes with fusarium head blight (FHB)-symptoms. Multilocus genotyping and TEF-1α gene sequence analyses confirmed the dominance of the F. graminearum species complex (FGSC, 75.7%), but F. poae (11.5%), as well as F. avenaceum and related members of the F. tricinctum species complex (FTSC, 8.1%) appeared as substantial contributors to FHB. Within the FGSC, F. graminearum of the 15-ADON genotype was dominant (63%), followed by F. meridionale of the NIV genotype (23.1%), F. cortaderiae of the NIV (7%) or 3-ADON (2.6%) genotypes, and F. austroamericanum (3.8%) of the 3-ADON genotype. Substantial variation in pathogen composition was observed across years, with F. poae and F. meridionale frequencies significantly elevated in some years. Most F. poae strains produced DAS, diANIV, and butenolide, but not neosolaniol, T-2, or HT-2. All FTSC species produced moniliformin. Enniatin production was widespread among FTSC species, with the single F. acuminatum strain found to be the strongest producer of enniatins. Our findings confirm FGSC as a major contributor to FHB and expand considerably our knowledge of the presence, frequency, and conditions under which other pathogens may emerge, altering the spectrum of toxins that may accumulate in grain.     

Inverse effects of Arabidopsis NPR1 gene on fusarium seedling blight and fusarium head blight in transgenic wheat

In this study, the Arabidopsis thaliana NPR1 (non‐expressor of PR genes) gene was integrated into an elite wheat cultivar, and the response of the transgenic wheat expressing NPR1 to inoculation with Fusarium asiaticum was analysed. With seedling inoculation, the transgenic lines showed significantly increased fusarium seedling blight (FSB) susceptibility, whereas floret inoculation resulted in enhanced fusarium head blight (FHB) resistance. Quantitative real‐time PCR revealed that expression of two defence genes, PR3 and PR5, was associated with susceptible reactions to FSB and FHB, whereas the PR1 gene was activated in resistance responses. This inverse modulation by the constitutively expressed NPR1 gene suggests that NPR1 has a bifunctional role in regulating defence responses in plants. Therefore, it is unsuitable for improving overall resistance to FSB and FHB in wheat.     

Ordinal regression models for predicting deoxynivalenol in winter wheat

Deoxynivalenol (DON) is one of the most prevalent toxins in Fusarium‐infected wheat samples. Accurate forecasting systems that predict the presence of DON are useful to underpin decision making on the application of fungicides, to identify fields under risk, and to help minimize the risk of food and feed contamination with DON. To this end, existing forecasting systems often adopt statistical regression models, in which attempts are made to predict DON values as a continuous variable. In contrast, this paper advocates the use of ordinal regression models for the prediction of DON values, by defining thresholds for converting continuous DON values into a fixed number of well‐chosen risk classes. Objective criteria for selecting these thresholds in a meaningful way are proposed. The resulting approach was evaluated on a sizeable field experiment in Belgium, for which measurements of DON values and various types of predictor variables were collected at 18 locations during 2002–2011. The results demonstrate that modelling and evaluating DON values on an ordinal scale leads to a more accurate and more easily interpreted predictive performance. Compared to traditional regression models, an improvement could be observed for support vector ordinal regression models and proportional odds models.     

不同小麦品种(系)对赤霉病的抗性和麦穗组织中DON毒素积累分析

 为明确不同小麦品种(系)对赤霉病的抗性和麦穗组织中DON毒素积累水平,培育和利用抗赤霉病和DON毒素积累的品种提供资源和依据,本研究采用单小花滴注接种法对河南省的106个小麦品种(系)抗赤霉病性进行鉴定分析,并用ELISA测定了病穗组织中DON毒素水平。结果表明不同小麦品种(系)对赤霉病的抗性有显著差异,106个小麦品种(系)中未发现抗病和中抗材料,中感品种(系)有华育198、郑麦103和春丰0021等14个,占13.2%;感病的有曌式2010-06、百农898和中麦63等92个,占86.8%。不同小麦品种(系)籽粒、颖壳和穗轴中DON毒素积累水平有显著差异,籽粒中DON毒素水平在(0.70~287.63)mg/kg之间,其中郑03876、豫保1号和中麦63 的DON毒素水平在2 mg/kg 以下,为抗毒素材料;其他的103个品种DON毒素水平大于2 mg/kg;颖壳和穗轴中的DON毒素水平在(51.03~392.87)mg/kg之间,普遍比籽粒中DON毒素含量高。籽粒中DON毒素水平与小麦品种(系)的平均病害严重度间呈极显著正相关。     

Integrated control of fusarium head blight and deoxynivalenol mycotoxin in wheat

Fusarium head blight (FHB), a devastating disease that affects wheat, is caused by a complex of Fusarium species. The overall impact of Fusarium spp. in wheat production arises through the combination of FHB and mycotoxin infection of the grain harvested from infected wheat spikes. Spike infection occurs during opening of flowers and is favoured by high humidity or wet weather accompanied with warm temperatures. Available possibilities for controlling FHB include the use of cultural practices, fungicides and biological approaches. Three cultural practices are expected to be of prime importance in controlling FHB and the production of mycotoxins: soil preparation method (deep tillage), the choice of the preceding crop in the rotation and the selection of appropriate cultivar.     

Piriformospora indica reduces fusarium head blight disease severity and mycotoxin DON contamination in wheat under UK weather conditions

Piriformospora indica (Sebacinaceae) is a cultivable root endophytic fungus. It colonizes the roots of a wide range of host plants. In many settings colonization promotes host growth, increases yield and protects the host from fungal diseases. Evaluation was made of the effect of P. indica on fusarium head blight (FHB) disease of winter (cv. Battalion) and spring (cv. Paragon, Mulika, Zircon, Granary, KWS Willow and KWS Kilburn) wheat and consequent contamination by the mycotoxin deoxynivalenol (DON) under UK weather conditions. Interactions of P. indica with an arbuscular mycorrhizal fungus (Funneliformis mosseae), fungicide application (Aviator Xpro) and low and high fertilizer levels were considered. Piriformospora indica application reduced FHB disease severity and incidence by 70%. It decreased mycotoxin DON concentration of winter and spring wheat samples by 70 and 80%, respectively. Piriformospora indica also increased aboveground biomass, 1000‐grain weight and total grain weight. Piriformospora indica reduced disease severity and increased yield in both high and low fertilizer levels. The effect of P. indica was compatible with F. mosseae and foliar fungicide application. Piriformospora indica did not have any effects on plant tissue nutrients. These results suggest that P. indica might be useful in biological control of Fusarium diseases of wheat.     

戊唑醇不同防治时间对小麦赤霉病发生和籽粒中DON毒素积累的影响

为明确戊唑醇防治小麦赤霉病以及减少籽粒中DON(脱氧雪腐镰刀菌烯醇)毒素积累的关键时期,本研究于2015年和2016年在河南省焦作市温县进行了小麦花期前后不同时间喷施25%戊唑醇可湿性粉剂防治小麦赤霉病和减少籽粒中DON毒素积累的效果评价。试验结果表明:在2015年‘豫保1号'和2016年‘周麦18'上,齐穗期(Ⅰ-3,DAA=-1,Zadoks=59)、始花期(Ⅱ-1,DAA=0,Zadoks=61~64)、盛花末期(Ⅱ-2,DAA=1,Zadoks=69)、灌浆初期(Ⅲ-1,DAA=4,Zadoks=71)施药小麦赤霉病的病穗率、病情指数、病粒率和籽粒中DON毒素积累都显著减少(P0.05),以始花期或盛花末期施药防治效果最好;抽穗盛期(Ⅰ-1,DAA=-6,Zadoks=55)和齐穗期(Ⅰ、Ⅰ-2,DAA=-2、-4,Zadoks=59)施药在病穗率上都没有防治效果,而在病粒率上显著减少(P0.05);乳熟期(Ⅲ-2,DAA=10,Zadoks=73)施药在病穗率、病情指数和籽粒中DON毒素积累都没有防治效果。此外,齐穗期(Ⅰ、Ⅰ-2,DAA=-2或-3、-4,Zadoks=59)防治效果不稳定。2015年‘豫保1号'不施农药对照的病穗率高(85%)的条件下,齐穗期(Ⅰ,DAA=-2,Zadoks=59)喷药能显著降低病粒率和籽粒中DON毒素积累,并显著提高产量(P0.05),2016年‘豫保1号'不施农药对照的病穗率低(14.5%)的条件下齐穗期(Ⅰ,DAA=-3,Zadoks=59)喷药能显著降低病粒率(P0.05),但在籽粒中DON毒素积累和产量上没有防治效果,2016年‘周麦18'上齐穗期(Ⅰ-2,DAA=-4,Zadoks=59)喷药能显著降低病情指数和病粒率,但在籽粒中DON毒素积累和产量上没有防治效果。药剂不同时期施用对小麦赤霉病的防治效果受到年份和发病情况的影响。     

不同杀菌剂防治小麦赤霉病及减少籽粒中DON毒素积累的效果

为明确不同杀菌剂防治小麦赤霉病和减少小麦籽粒中DON(脱氧雪腐镰刀菌烯醇)毒素积累的效果,于大田人工接菌条件下进行了不同杀菌剂对小麦赤霉病的防治试验,并于收获期测定了不同药剂处理的小麦籽粒中DON毒素含量。结果表明:两种处理方式下,50%多菌灵WP,30%多·酮SC,25%戊唑醇WP,25%氰烯菌酯SC和70%甲基硫菌灵WP处理中,除先喷药后接菌条件下25%戊唑醇WP在病粒率和籽粒中DON积累上没有显著防治效果,接菌后1d喷药条件下50%多菌灵WP、25%戊唑醇WP在病粒率上没有显著防治效果;30%多·酮SC在病粒率和籽粒中DON积累上没有显著防治效果外,各处理对小麦的病穗率、病情指数、病粒率和籽粒中DON积累都有显著的防治效果(P0.05)。各处理的病穗率防效在42.4%~83.5%,病情指数防效在44.9%~88.2%,病粒率防效在34.7%~69.4%,籽粒中DON防效在48.0%~86.9%。上述几种杀菌剂具有明显的保护作用,其在先喷药后接菌条件下的防治效果均明显优于接菌后1d喷药的防治效果。两种处理方式下,30%己唑醇悬浮剂、25%嘧菌酯悬浮剂和12.5%烯唑醇可湿性粉剂处理在病穗率、病情指数、病粒率和籽粒中DON积累与清水对照处理没有显著性差异(P0.05)。     

不同侵染时期对小麦赤霉病发生和籽粒中DON积累的影响

为明确不同侵染时期对小麦赤霉病发生和籽粒中DON的积累情况,在2015年和2016年于河南省焦作市温县黄庄镇西虢村田间进行小麦(‘豫保1号’和‘周麦18’)不同生育期接种对病穗率、病情指数、病粒率和籽粒中DON毒素积累的影响试验。结果表明:小麦赤霉病菌在抽穗盛期(DAA=-6,Zadoks=55～57)至灌浆中期(DAA=14或15,Zadoks=75)都能侵染麦穗,但在始花期前3～4 d的齐穗期(DAA=-3或-4,Zadoks=59)至始花期后4 d的灌浆初期(DAA=4,Zadoks=71)处理的病穗率、病情指数和病粒率显著高于其他处理(P0.05),其中盛花末期(DAA=1,Zadoks=69)处理的侵染率最高,为小麦赤霉病菌侵染发病的关键生育期。此外,在套袋保湿2 d的条件下赤霉病菌在小麦始花期前6 d的抽穗盛期(DAA=-6,Zadoks=55～57)和始花期后10 d的乳熟期(DAA=10,Zadoks=73)也能有较高的侵染率。在籽粒中DON积累方面,‘豫保1号’所有处理的籽粒中DON含量与病穗率、病情指数和病粒率的趋势一致,都是盛花末期(DAA=1,Zadoks=69)处理的籽粒中DON含量最高(P0.05),且间隔时间离盛花末期(Zadoks=69)越近籽粒中DON含量越高;而‘周麦18’齐穗期(DAA=-4,Zadoks=59)至灌浆中期(DAA=14,Zadoks=75)处理的没有显著性差异,说明小麦赤霉病菌在始花期后14 d的灌浆中期侵染也能引起籽粒中DON的大量积累。     

河南省小麦赤霉病菌种群组成及致病力分化

 为明确河南省小麦赤霉病种群组成和致病力分化情况,2007—2014年对河南省15个市84个田块的327个小麦赤霉病菌进行种群鉴定、毒素化学型分析和致病力分化研究,结果表明:Fusarium graminearum s. str.和F. asiaticum是河南省小麦赤霉病的优势种群(97%),F. pseudograminearum(2.1%)、F. culmorum(0.3%)、F. equiseti(0.3%)、F. verticillioids(0.3%)为次要种群;对于禾谷镰刀菌复合群来说,豫北地区分布只有F. graminearum s. str.,豫中地区F. graminearum s. str.和F. asiaticum都存在,以F. graminearum s. str.为主,豫南地区F. graminearum s. str.和F. asiaticum都存在,以F. asiaticum为主;291个F. graminearum s. str.都为15ADON类型,26个F. asiaticum菌株中22个为3ADON,1个为15ADON,3个为NIV类型;F. graminearum s. str.(15ADON)也存在致病力分化,强、中、弱致病力的菌株在河南省的比例约为2:2:1。     

不同杀菌剂对小麦赤霉病及籽粒DON毒素的控制效果

为探明不同杀菌剂对小麦赤霉病和小麦籽粒DON毒素(包括DON、3-ADON和15-ADON)的控制效果, 采用菌丝生长速率法测定了12种药剂对禾谷镰刀菌野生型菌株PH-1的室内活性, 同时采用液相色谱-串联质谱法(LC-MS)测定了这些药剂对DON毒素的抑制效果, 并开展了小麦赤霉病及籽粒DON毒素的田间防治试验。结果表明, 12种原药对菌丝生长抑制活性强弱依次为氟唑菌酰羟胺>咪鲜胺>戊唑醇>丙硫菌唑>叶菌唑>氰烯菌酯>氟环唑>多菌灵>甲基硫菌灵>吡唑醚菌酯>嘧菌酯>井冈霉素A。氟环唑EC50和EC90离体胁迫均刺激DON毒素产生, 其他杀菌剂EC50和EC90胁迫均抑制DON毒素产生。田间试验结果表明, 200 g/L氟唑菌酰羟胺SC、30%丙硫菌唑OD和20%叶菌唑WP病指防效和DON防效为87.68%~94.77%; 430 g/L戊唑醇SC、25%氰烯菌酯SC、45%咪鲜胺EW、25%氟环唑SC、50%多菌灵WP和70%甲基硫菌灵WP病指防效和DON防效为57.63%%~85.49%; 250 g/L吡唑醚菌酯EC和250 g/L嘧菌酯SC病指防效分别为72.18%和51.98%, DON防效分别为43.06%和-7.96%; 24%井冈霉素A AS病指防效和DON防效分别为42.37%和62.87%。药剂离体和田间控毒效果不完全一致, 赤霉病有效防控是DON防控的前提, 病害防效与DON防效不完全一致, 本研究为小麦赤霉病及籽粒DON毒素防控提供了科学依据。     

几种杀菌剂防控小麦赤霉病穗腐及籽粒脱氧雪腐镰刀菌烯醇(DON)毒素的评价

小麦赤霉病是小麦穗期的主要病害之一。化学防控一直是小麦主产区防控赤霉病的主要措施。为明确几种新型杀菌剂对小麦赤霉病的防效和对小麦籽粒DON毒素含量的影响,于2018年进行了氰基丙烯酸酯类和三唑类杀菌剂单剂及其复配剂对赤霉病的防效试验。结果表明:30%戊唑·多菌灵悬浮剂(SC)1500 mL/hm^2处理对赤霉病病穗防效达92.40%,病指防效达93.20%,小麦籽粒DON毒素检出量较不用药对照降低80.38%;25%氰烯菌酯SC 2000 mL/hm^2处理对赤霉病的病穗防效达86.80%,病指防效达88.78%,小麦籽粒DON毒素检出量较不用药对照降低88.19%;48%氰烯·戊唑醇SC 900 mL/hm^2和40%丙硫·戊唑醇SC 600 mL/hm^2对小麦赤霉病的病穗防效分别为77.20%、78.00%,病指防效分别为80.27%和79.59%,对籽粒DON毒素检出量较不用药对照分别降低73.87%和81.42%。在小麦赤霉病较重发生的情况下,上述4种杀菌剂单剂或复配剂1次用药既能高效控制病情,又能有效控制小麦籽粒DON毒素不超标。本试验研究进一步阐明,氰烯菌酯、戊唑醇、丙硫菌唑等杀菌剂及其复配剂均能有效控制小麦赤霉病的危害,并能有效降低小麦籽粒DON毒素含量;吡唑醚菌酯单剂及其复配剂虽然对小麦赤霉病的病穗和病指防效也较高,但控制小麦籽粒DON毒素含量效果相对较差。研究结果为小麦穗期赤霉病化学防控提供了科学参考。     

不同小麦品种抗赤霉病性类型和抗毒素积累能力分析

赤霉病是我国小麦上的重要病害,品种抗病性利用是控制病害发生的重要措施,明确小麦抗赤霉病资源的抗性类型,有利于小麦抗赤霉病育种。2003年和2004年对9个常用抗源在穗期进行单花滴注和喷雾接种,研究其抗侵染和抗扩展性,并对病穗中的脱氧雪腐镰刀菌烯醇(DON)的含量进行分析。结果表明,望水白和苏麦3号具较好的抗侵染和抗扩展能力,其中望水白的抗扩展性最好;感染赤霉病后,DON在5个抗源穗组织中的含量差异显著,DON在望水白和繁60096穗组织中积累量明显比在苏麦3号、延岗坊主和翻山小麦低。通过对望水白/安农8455遗传群体两年的病小穗率和病穗中DON毒素含量的比较,发现二者具有一定的相关性,且受环境影响比较大。     

Nivalenol‐producing Fusarium cerealis associated with fusarium head blight in winter wheat in Manitoba,Canada

Fusarium head blight (FHB) in small grain cereals is primarily caused by the members of the Fusarium graminearum species complex. These produce mycotoxins in infected grains, primarily deoxynivalenol (DON); acetylated derivatives of DON, 3‐acetyl‐DON (3‐ADON) and 15‐acetyl‐DON (15‐ADON); and nivalenol (NIV). This study reports the isolation of Fusarium cerealis in infected winter wheat heads for the first time in Canada. A phylogenetic analysis based on the TRI101 gene and F. graminearum species‐specific primers revealed two species of Fusarium: F. graminearum sensu stricto (127 isolates) and F. cerealis (five isolates). Chemotype determination based on the TRI3 gene revealed that 65% of the isolates were 3‐ADON, 31% were 15‐ADON and 4% were NIV producers. All the F. cerealis isolates were of NIV chemotype. Fusarium cerealis isolates can often be misidentified as F. graminearum as the morphological characteristics are similar. Although the cultural and macroconidial characteristics of F. graminearum and F. cerealis isolates were similar, the aggressiveness of these isolates on susceptible wheat cultivar Roblin and moderately resistant cultivar Carberry differed significantly. The F. graminearum 3‐ADON isolates were most aggressive, followed by F. graminearum 15‐ADON and F. cerealis NIV isolates. The findings from this study confirm the continuous shift of chemotypes from 15‐ADON to 3‐ADON in North America. In Canada, the presence of NIV is limited to barley samples and the discovery of NIV‐producing F. cerealis species in Canadian wheat fields may pose a serious concern to the Canadian wheat industry in the future.     

Quantitative trait loci for Fusarium head blight resistance in a recombinant inbred population of Wangshuibai/Wheaton

Use of diverse sources of Fusarium head blight (FHB)-resistant germplasm in breeding may significantly improve wheat resistance to FHB. Wangshuibai is an FHB-resistant Chinese landrace unrelated to cv. Sumai 3, the most commonly used FHB-resistant source. In all, 139 F(6) recombinant inbred lines were developed from a cross between Wangshuibai and an FHB-susceptible cultivar, Wheaton, to map quantitative trait loci (QTL) for wheat resistance to initial infection (type I resistance), spread of FHB symptoms within a spike (type II resistance), and deoxynivalenol (DON) accumulation (type III resistance) in infected grain. The experiments were conducted in a greenhouse at Manhattan, KS from 2003 to 2005. More than 1,300 simple-sequence repeat and amplified fragment length polymorphism markers were analyzed in this population. Five QTL for type I resistance were detected on chromosomes 3AS, 3BS, 4B, 5AS, and 5DL after spray inoculation; seven QTL for type II resistance were identified on chromosomes 1A, 3BS, 3DL, 5AS, 5DL, and 7AL after point inoculation; and seven QTL for type III resistance were detected on chromosomes 1A, 1BL, 3BS, 5AS, 5DL, and 7AL with the data from both inoculation methods. These QTL jointly explained up to 31.7, 64, and 52.8% of the phenotypic variation for the three types of FHB resistance, respectively. The narrow-sense heritabilities were low for type I resistance (0.37 to 0.41) but moderately high for type II resistance (0.45 to 0.61) and type III resistance (0.44 to 0.67). The QTL on the distal end of 3BS, 5AS, and 5DL contributed to all three types of resistance. Two QTL, on 7AL and 1A, as well as one QTL near the centromere of 3BS (3BSc), showed effects on both type II and type III resistance. Selection for type II resistance may simultaneously improve type I and type III resistance as well. The QTL for FHB resistance identified in Wangshuibai have potential to be used to pyramid FHB-resistance QTL from different sources.