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Components of quantitative resistance in barley plants to Fusarium head blight infection determined using three in vitro assays

100%

Sakr N.

Journal of Plant Protection Research

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2018

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tom 58

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nr 2

Quantitative resistance in barley to four Fusarium head blight (FHB) species was investigated in vitro. Nine components involved in three assays (detached leaf, modified Petridish and seedling tests) were compared on two widely grown Syrian barley cultivars: Arabi Aswad (AS) and Arabi Abiad (AB). On AB, inoculation with FHB species resulted in a significantly shorter latent period and larger lesion length of detached leaf inoculation, more standardized area under disease progress curve (AUDPCstandard) of modified Petridish inoculation and a higher percentage of infected seedlings of pin-point inoculation than on AS. The latent period of AB was 14.89% less than AS, lesion length of AS was 6.01% less than AB, AUDPCstandard of AS was 17.07% less than AB and the percentage of infected seedlings of AS was 4.87% less than AB. Inoculation with FHB species resulted in no significant differences in the other five components measured: incubation period of detached leaf inoculation, germination rate reduction and coleoptile length reduction of modified Petridish inoculation, percentage of infected seedlings of foliar-spraying inoculation and lesion length of clip-dipping inoculation. AS was more resistant to in vitro FHB infection than AB. The latent period and AUDPCstandard recorded the highest values compared with the lowest values for lesion length and percentage of infected seedlings. It seems that measurement of the latent period and AUDPCstandard may be useful in identifying barley cultivars which are highly susceptible or resistant to FHB at early stages.

2

Fusarium head blight of winter rye (Secale cereale L.)

84%

Kiecana I., Mielniczuk E.

Acta Agrobotanica

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2010

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tom 63

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nr 1

Investigations on Fusarium head blight of rye were carried out in the years 2005-2007 on 10 production fields in the Lublin region. The percentage of heads showing the fusariosis symptoms in the years 2005-2007 ranged from 0 to 7%. Mycological analysis of kernels and chaff obtained from heads with Fusarium blight (scab) symptoms showed that Fusarium avenaceum, Fusarium culmorum and Fusarium sporotrichioides were the largest threat to heads of this cereal. The species of Fusarium poae and Fusarium crookwellense were also isolated from infected rye heads. The dominance of particular species in infecting rye heads was determined by weather conditions.

3

Control of Fusarium head blight of winter wheat by artificial and natural infection using new fungicides

84%

Treikale O., Afanasjeva I., Pugacheva J.

Acta Agrobotanica

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2006

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tom 59

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nr 2

In Latvia, climatic factors are influential in spreading of Fusarium head blight of cereals caused by Fusarium species. The most significant factor affecting the incidence of the disease in winter wheat is hightened temperature at the time of wheat anthesis. Field trials for the control of the disease in winter wheat were done in 2003-2004 using new fungicides applied at various rates by natural infection and artificial inoculation. Three species of causative agents: Fusarium avenaceum var. herbarum, F. gibbosum, F. culmorum were collected from infected seeds of wheat and used for inoculation of experimental plots at the concentration 106 conidia ml-1 (1:1:1) at the stage of full anthesis. Effective control of the disease was obtained through application of new fungicides with different active ingredient: Prosaro 250 EC (tebuconazole 125 G, prothioconazole 125 G L-1), Input 460 EC (spiroxamine 300 G, prothioconazole 160 G L-1). In conditions of artificial infection by severe attack of Fusarium spp. the application of fungicides containing tebuconazole at T3 gave significant influence on yield of winter wheat through plumpness of grains increase. High efficacy of fungicides against leaf infection with Erysiphe graminis and Drechslera tritici-repentis was also in the trial achieved. Application of fungicide containing cyproconazole and trifloxystrobin at T1 in the trial 2004 gave good control of Septoria tritici, E. graminis and D. triticirepentis.

4

Genetic variation for fusarium head blight resistance among full sib families of the open-pollinated winter rye cultivar Halo

84%

Fromme F. J., Wilde P., Miedaner T., Geiger H. H.

Hodowla Roślin, Aklimatyzacja i Nasiennictwo

|

1993

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tom 37

|

nr 3

5

Genetic variation of resistance to Fusarium graminearum [head blight] in primary hexaploid triticale

84%

Dormann M., Oettler G.

Hodowla Roślin, Aklimatyzacja i Nasiennictwo

|

1993

|

tom 37

|

nr 3

6

Variation for fusarium head blight resistance in current Austrian wheat breeding material

84%

Lemmens M., Burstmayr H., Ruckenbauer P.

Hodowla Roślin, Aklimatyzacja i Nasiennictwo

|

1993

|

tom 37

|

nr 3

7

Microsatellite DNA polymorphism divergence in Chinese wheat [Triticum aestivum L.] landraces highly resistant to Fusarium head blight

84%

Wei Y. M., Hou Y. C., Yan Z. H., Wu W., Zhang Z. Q., Liu D. C., Zheng Y. L.

Journal of Applied Genetics

|

2005

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tom 46

|

nr 1

Genetic differences between 20 Chinese wheat (Triticum aestivum L.) landraces highly resistant to Fusarium head blight (FHB) and 4 wheat lines highly susceptible to FHB were evaluated by means of microsatellite markers, in order to select suitable parents for gene mapping studies. Thirty-nine out of 40 microsatellite markers (97.5%) were polymorphic among the 24 wheat genotypes. A total of 276 alleles were detected at the 40 microsatellite loci. The number of alleles per locus ranged from 1 to 16, with an average of 6.9 alleles. Among these microsatellite loci, the largest polymorphism information content (PIC) value was 0.914 (GWM484), while the lowest PIC value was 0 (GWM24). The mean genetic similarity index among the 24 genotypes was 0.419, ranging from 0.103 to 0.673. Clustering analysis indicated that the highly susceptible synthetic wheat line RSP was less genetically related to and more divergent from the Chinese highly resistant landraces. These results were useful in the identification of suitable parents for the development of mapping populations for tagging the FHB resistance genes among these Chinese wheat landraces.

8

Yield reduction and mycotoxin accumulation in barley doubled haploids inoculated with Fusarium culmorum [W.G.Sm.] Sacc.

84%

Adamski T., Chelkowski J., Golinski P., Kaczmarek Z., Kostecki M., Perkowski J., Surma M., Wisniewska H.

Journal of Applied Genetics

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1999

|

tom 40

|

nr 2

9

Toxigenic fungi and mycotoxins in organic spring barley protected with chitosan-based biopreparations

67%

Solarska E., Kuzdralinski A.

Phytopathologia

|

2011

|

tom 60

10

Fusarium head blight and Fusarium spp. occurring on grain of spring wheat in an organic farming system

67%

Lenc L.

Phytopathologia

|

2011

|

tom 62

11

Saturation and mapping of a major Fusarium head blight resistance QTL on chromosome 3BS of Sumai 3 wheat

67%

Zhou M.-P., Hayden M. J., Zhang Z.-Y., Lu W.-Z., Ma H.-X.

Journal of Applied Genetics

|

2010

|

tom 51

|

nr 1

19-25

Fusarium head blight (FHB) is a destructive disease in wheat. The major quantitative trait locus (QTL) on 3BS from Sumai 3 and its derivatives has been used as a major source of the resistance to FHB worldwide, but the discrepancy in reported location of the major QTL could block its using in map based cloning and marker assisted selection. In this study, Chinese Spring-Sumai 3 chromosome 3B substitution line was used as resistant parent of the mapping population to reduce the confounded effect of genetic background in Sumai 3. The major QTL region was saturated with the Sequence Tagged Microsatellite (STM) and Sequence Tagged Site (STS) markers. A linkage map of chromosome 3B with 36 markers covering a genetic distance of 112.4 cM was constructed. Twelve new markers were inserted into the chromosome region where the major QTL was located. The average interval distance between markers was 1.5 cM. Multiple QTL Models (MQM) mapping indicated that the major QTL was located in the interval of Xgwm533-Xsts9-1, and explained 45.6% of phenotypic variation of the resistance to FHB. The SSR (simple sequence repeat) marker Xgwm533 and STM marker Xstm748tcac are closely linked to the major QTL.

12

Identification of toxigenic Fusarium species in wheat ears using PCR assay and their mycotoxins in kernels

67%

Chelkowski J., Stepien L., Tomczak M., Wisniewska H.

Phytopathologia Polonica

|

2002

|

tom 25

13

Multivariate analysis of image descriptors of common wheat [Triticum aestivum] and spelt [T.spelta] grain infected by Fusarium culmorum

67%

Suchowilska E., Wiwart M.

International Agrophysics

|

2006

|

tom 20

|

nr 4

14

Disease control in wheat using ecological principles

67%

Teich A. H.

Genetica Polonica

|

1994

|

tom 35B

15

Genetics of deoxynivalenol [DON] contamination caused by Fusarium head blight in hybrid rye

67%

Miedaner T., Wortmann H., Geiger H. H.

Plant Breeding and Seed Science

|

2003

|

tom 48

|

nr 2

Ograniczanie wyników

Components of quantitative resistance in barley plants to Fusarium head blight infection determined using three in vitro assays

Fusarium head blight of winter rye (Secale cereale L.)

Control of Fusarium head blight of winter wheat by artificial and natural infection using new fungicides

Genetic variation for fusarium head blight resistance among full sib families of the open-pollinated winter rye cultivar Halo

Genetic variation of resistance to Fusarium graminearum [head blight] in primary hexaploid triticale

Variation for fusarium head blight resistance in current Austrian wheat breeding material

Microsatellite DNA polymorphism divergence in Chinese wheat [Triticum aestivum L.] landraces highly resistant to Fusarium head blight

Yield reduction and mycotoxin accumulation in barley doubled haploids inoculated with Fusarium culmorum [W.G.Sm.] Sacc.

Toxigenic fungi and mycotoxins in organic spring barley protected with chitosan-based biopreparations

Fusarium head blight and Fusarium spp. occurring on grain of spring wheat in an organic farming system

Saturation and mapping of a major Fusarium head blight resistance QTL on chromosome 3BS of Sumai 3 wheat

Identification of toxigenic Fusarium species in wheat ears using PCR assay and their mycotoxins in kernels

Multivariate analysis of image descriptors of common wheat [Triticum aestivum] and spelt [T.spelta] grain infected by Fusarium culmorum

Disease control in wheat using ecological principles

Genetics of deoxynivalenol [DON] contamination caused by Fusarium head blight in hybrid rye