Evaluation of the effects of chemical versus biological control on Botrytis cinerea agent of gray mould disease of strawberry.

This study investigates on effects of four fungicide and six isolate from Trichoderma and Gliocladium on Botrytis cinerea agent grey mold of strawberry under library and greenhouse condition. The effect of four fungicides i.e. benomyl, dichlofluanid, captan and triadimenol on B. cinerea was studied in the laboratory condition by method mixed poison to culture medium. It was shown that the fungicide including benomyl, triadimenol, dichlofluanid and captan were able to inhibit mycelial growth of B. cinerea on PDA plate with EC50 of 0.16, 1.42, 3.40 and 7.73 ppm respectively. These fungicides delayed myceliogenic germination of sclerotia at 1000 ppm, while exhibiting no fungicidal effect. Moreover, the antagonistic effects of six fungi including Trichoderma koningii (T21), T. viride (T4), T. harzionum (T5), T. viride (T2), G. virens (G2), G. virens (G8) on B. cinerea were assessed. This assessment was done under library condition and its results as follows: The antagonistic mechanism occurred through branching at the end of B. cinerea hyphae, hyphal contact, coiling, vacuolization and lyses. Volatile metabolites of T. koningii (T21) and non-volatile metabolites of G. virens (G2 and G8) and T. koningii (T21) caused maximum inhibition of the fungal growth. Trichoderma spp and G. virens were able to colonize and sporulate on sclerotia and caused their lysis within 7-21 days. In greenhouse, a completely randomized design with 11 treatments (4 chemical and 6 biological and one untreated control) each replicated five times were used for the comparison. Greenhouse studies revealed that application of fungicides i.e. captan, dichlofluanid, triadimenol and benomyl reduces disease severity by 42, 45, 48 and 52% respectively. The fungal antagonists reduce the grey mold disease severity between 5-42%. All treatments caused a decline in post harvest disease, as the most effective treatment of chemical control was benomyl with 68.33% and for the biological treatment this was T. koningii (T21) with 56%.

Effect of timing of application Pseudomonas fluorescens in suppression Sclerotinia sclerotiorum, the causal agent of white mold in canola.

Biological control of sclerotinia disease, as an important alternative to chemical control, has received considerable attention due to the lack of resistant varieties in most crop, and increasing concerns over fungicide resistance in population of Sclerotinia sclerotiorum, and fungicide residues in the environment. One biocontrol agent, Pseudomonas fluorescens PB-3, has been showed the antagonistic relationship between itself and S. sclerotiorum was investigated in this study. A petal infection technique was used to detect efficacy of timing of application strain PB-3 in the suppression of S. sclerotiorum on canola. Significant difference in disease severity (p<0.05) were found with respect to timing of ascospore applications in the control treatments (ascospores only). The superior competitive ability strain PB-3 was demonstrated by its complete suppression of disease severity when applied as a co-inoculation treatment or prior to ascospores inoculation. Analysis of effect of applying strain PB-3 after ascospores was indicated that treatment in which strain PB-3 was added to petals 48 or 24 h after ascospores, or when there were no bacteria present at all, had higher rates of disease progression. It would be appear that bacteria are able to significantly inhibit disease when applied before or even at the same time as ascospores. In a practical sense, this could mean that a field application of antagonist could be concurrent with infection by the pathogen.

Biological control of Sclerotinia sclerotiorum (Lib.) de Bary, the causal agent of white mold, by Pseudomonas species on canola petals.

Sclerotinia sclerotiorum is an important pathogen on canola. Due to the public concern over pesticide use, alternative methods of disease control, such as biological control, should be considered. Several bacterial strains were isolated from canola and soja plants. Inhibition of S. sclerotiorum by bacterial strains in vitro was assayed on PDA medium in dual culture test. Eight Pseudomonas sp. strains (PB-3, PB-4, PB-5, PB-6, PB-7, PB-8, PB-10 and PB-11) caused inhibition zone against 5. sclerotiorum hyphal growth. The biocontrol potential of the bacteria was tested in a plant assay. Disease suppression was investigated using a petal inoculation technique. Canola petals were pretreated with bacteria, and then inoculated with 5. sclerotiorum ascospores 24 h later. Greenhouse experiment showed that application of Pseudomonas sp. strains (1 x 10(8) cfu ml(-1)) effectively suppressed S. sclerotiorum (1 x 10(5) ascospores ml(-1)) on petals and all of them achieved significant (P<0.01) disease suppression. Fourteen days after inoculation, strain PB-3 had 88/7% disease control and strain PB-4 had 69/9% disease control. Result from all studies indicates PB-3 to be effective biocontrol against S. sclerotiorum of canola. PB-3, PB-4, PB-7, PB-8, PB-10 and PB-11 were identified as Pseudomonas fluorescens biovar III. PB-5 and PB-6 was identified as Pseudomonas fluorescens biovar II. Strains PB-3, PB-4, PB-6, PB-10 and PB-11 produced protease and HCN. Strain PB-5 produce protease; no HCN.

Olive verticillium wilt or dieback of olive in Iran.

During 2000--03, different areas in Zanjan, Golestan and Khorasan provinces were surveyed for the presence of olive dieback. Olive branches, leaves and roots showing typical symptoms and soil around the roots were collected for further study. Samples were surface-sterilized with sodium hypochlorite or ethanol and then cultured on PDA and Czapek media. Soil samples were diluted in ethanol-agar for fungal isolation and purification. Morphological characteristics of the fungal mycelium particularly phialide and spores identified the causal agent to be the soil-borne pathogen, Verticillium dahliae. The disease was present in all olive growing regions but it was severe in temperate and relatively humid regions such as Gorgan. Infection index of the disease varied between 5 to 30% with an average of 11.89+/-1.12 among various orchards in this area. The newly established orchards showed more infection than the older ones. A significant difference in disease incidence and severity were observed among olive cultivars of Michen, Roughani, Zard and Koronakei. The latter cultivar had the least amount of infection. Strains of V. dahliae isolated from olive trees had different morphological and pathogenicity characteristics. These strains had different growth rates in response to the optimum temperature of 20 or 25 degrees C. The number of fungal propagules per gram of air-dried soil ranged from 2 to 32 with an average number of 13.42+/-0.50. Regarding the number of propagules of V. dahliae in the soil and susceptibility of cultivars in the newly established orchards, it seems necessary to take serious control measures to prevent disease spread.

Fertility status and distribution of mating type alleles of the rice blast fungus, Magnaporthe grisea in northern Iran.

This study was carried out using 155 monoconidial isolates collected from different areas of two major rice growing provinces in northern Iran, including 94 isolates from Guilan and 59 isolates from Mazandaran. Among 94 isolates from Guilan, 92 and two isolates recovered from rice and crabgrass (Digitaria sp.), respectively. All 61 rested isolates from Mazandaran were recovered from rice. All isolates were evaluated for in vitro sexual fertility and mating type status by pairing with Mat 1-1 and Mat 1-2 fertile standard hermaphrodite isolates including Br48 and Th12 (Mat 1-1) and KA9 and TH16 (Mat 1-2). Of 155 isolates, 98 (63.2%) were fertile and 57 (36.8%) were infertile and produced no perithecium when mated with standard isolates. Among 98 fertile isolates, 96 isolates were identified as Mat 1-1 and two isolates as Mat 1-2. All Mat 1-1 isolates were obtained from rice and two Mat 1-2 isolates obtained from crab grass. No Mat 1-2 isolate was identified from rice in this study. Both mating types were found in Guilan but all isolates recovered from Mazandaran were identified as Mat 1-1. Male fertility predominated in fertile Mat 1-1 and Mat 1-2 isolates from all sampling sites in northern Iran, and no female fertility was detected. This is the first report of existence of Mat 1-2 allele in Magnaporthe grisea population in Iran.

Evaluation of chickpea resistance against some isolates of Ascochyta rabiei, the causal agent of ascochyta blight.

Ascochyta blight, incited by Ascochyta rabiei (Pass.) Lab., is one of the most important fungal diseases that has been shown to cause significant yield losses on chickpeas in Kermanshah province, Iran. One of the most effective and reliable methods of controlling the disease has been the use of resistant cultivars worldwide. This requires the identification of the physiological races of the fungus in the region in advance. In this regard, pathogenicity of 30 isolates of A. rabiei was determined using 10 differential chickpea varieties (mean of 1-9 degree of disease in three replications) under greenhouse conditions. In this respect, isolates fell into four groups, whereas based on infection type three groups were identified using cluster analysis. Disease resistance of four chickpea cultivars, Hashem, Jam, ILC-482 and Bivanij, were evaluated against isolates from each of three groups separately and in combination in the greenhouse and field conditions (with 4 replications). The experiment was repeated twice with three replications in greenhouse. Chickpea cultivars were sprayed with fungal spore suspension (2x10(5) spores/ml). Results showed that Jam and Bivanij cultivars were susceptible under greenhouse as well as field conditions. Hashem was tolerant to group I and susceptible to groups II and III and in the field. ILC-482 was tolerant to groups II and I and susceptible to group III and the combination of groups under greenhouse condition.

Identification of physiological races of Blumeria graminis f. sp. tritici and evaluation of powdery mildew resistance in wheat cultivars in Sistan province, Iran.

Powdery mildew of wheat caused by Blumeria graminis f. sp. tritici (Bgt) is one of the most important fungal diseases in Iran. During the years 1998-2001, wheat fields in Sistan province were surveyed and powdery mildew infected samples were collected from various areas and transferred to the laboratory. In the greenhouse, fungal spores were purified and inoculated onto susceptible wheat cultivars using single pustule and single spore procedures. Selected pure isolates were inoculated onto the first leaves of eight differential wheat varieties for identifying physiological races. The results showed the existence of Bgt races 5, 11, 14, 19, 21, 24, 27, 28, 31, 32, 44, 50, 53, 58, 66, 73 and 84 in Sistan. These races were new to Sistan province and Iran as a whole. Among 17 races studied, races 11, 53 and 73 were important dominant races thus constituting 40% of total population. Race 53 constituted 16% of all isolates and was the dominant race in the area with 62.5% pathogenicity. Therefore, this race was introduced as the most virulent race during the period of this study. This study showed that Bgt isolates were compatible with host plant genes pm8, pm3 and pm3b but incompatible with gene pm4b. Powdery mildew resistance was evaluated using race 11 on 70 wheat cultivars during seedling stage as well as adult plant under both greenhouse and field conditions between 1999 and 2001. Among wheat lines tested for resistance against powdery mildew, cultivar Hirmand resembled the differential line Weihenst M1 in that both may possess gene pm4b and showed no symptoms under the greenhouse and field conditions. Cultivar Chamran was found to be highly resistant whereas Sorkhtokhm was susceptible. Other cutivars showed partial and gradual resistance against the powdery mildew disease.

Rice brown spot and susceptibility of some cultivars in north of Iran.

Rice brown spot is one of the important diseases in the world including Iran. 91 samples of the infected plants such as leaves and panicles were collected from different locations of Guilan province, North of Iran and the fungi isolated and studied for pathogenicity. Three species of Bipolaris (B. oryzae, Bipolaris sp. and B. cf. victoriae) were isolated more than other species with serious effects on the plants respectively. Reactions of 8 cultivars of rice, Neda, Nemat, Sepeed-rood, Bejar, Khazar, Domsephid, Hassan-saraee and Binam were studied in greenhouse to Bipolaris sp. and B. cf. victoriae in two stages of growth, on leaves and panicles, respectively. The results showed that in seedling stage on leaf there was no significant difference between these cultivars in case of infection rates. In heading stage, although there was no significant difference according to variance analysis, but according to Duncan test (5%) they could be divided into 3 groups. Neda, Sepeed-rood, Khazar and Binam, with the lowest infection rate, were in the first group Bejar, Domsephid and Hassan-saraee were classified into the second group and Nemat was in the third one. Curvularia sp., Nigrospora sp., Pyricularia grisea and Alternaria sp. were with minor prevalence in infection of the plants.