Samaneh Bahlooli, Masoud Abrinbana, Youbert Ghosta,
Volume 10, Issue 2 (9-2021)
Abstract
Bahlooli S, Abrinbana M, Ghosta Y (2021) The effect of the mixtures of carbendazim, iprodione and tebuconazole on Sclerotinia sclerotiorum. Plant Pathology Science 10(2):40-49. Doi: 10.2982/PPS.10.2.40.
Introduction: Soil-borne fungus Sclerotinia sclerotiorum or white mold is the cause of the destructive disease of root and stem rot of many plants. Chemical control due to the lack of highly resistant cultivars is the most important method in the pathogen management program in various plants. However, the repeated use of fungicides leads to the development of resistant strains in pathogen populations. The use of fungicides with different modes of action, especially those with a synergistic effect, is one the most important anti-resistance methods. Materials and Methods: In this research, the effect of different mixing ratios in pairs of carbendazim, iprodione, and tebuconazole fungicides and their possible synergistic activity on four S. sclerotiorum isolates were investigated in vitro conditions. For this purpose, the isolates were cultured on potato dextrose agar, containing different concentrations of fungicides mixtures, and EC50 values and the synergy factors were then determined for different mixtures ratios. Results: Tebuconazole: carbendazim mixture in 1:7 ratio, with a synergistic activity, inhibited all the isolates growth, and carbendazim: iprodione mixture in 1:9 ratio showed a synergistic effect on three isolates. Conclusion: The mixture of tabuconazole: carbendazim in 1:7 ratio had the best synergistic activity, and inhibitory effect on the growth of all the pathogen isolates, so it has the potential to be used in the management program of S. sclerotiorum.
Samad Jamali,
Volume 10, Issue 2 (9-2021)
Abstract
Jamali S (2021) Truffles of Iran. Plant Pathology Science 10(2):1-14. Doi: 10.2982/PPS.10.2.1.
Truffles are edible fungi belonging to the phylum Ascomycota. These valuable fungi can be divided into two categories: desert and forest truffles. They are obligatory mycorrhiza forming with some trees, shrubs, annual and perennial plants. These fungi belong to 38 genera of six families of the order Pezizales, class Pezizomycetes. The forest truffles are classified in the Tuberaceae family and the desert truffles in the other families. The existence of Tuber aestivum from the family Tuberaceae, Terfezia claveryi, Terfezia boudieri, Tirmania pinoyi, and Tirmania nivea from the family Pezizaceae, Picoa juniperi, Picoa lefebvrei, Geopora cooperi and Geopora cooperi, from the family Pyronemataceae, has been morphologically and molecularly proven by researches in Iran. The morphological characteristics, symbiotic plants, and distribution areas of these fungi are described here.
Roghayeh Mohammadi, Mansureh Keshavarzi, Nader Hassanzadeh, Jalil Dejampour, Afagh Farhadnezhad,
Volume 10, Issue 2 (9-2021)
Abstract
Mohammadi R, Keshavarzi M, Hassanzadeh N, Dejampour J, Farhadnejad A (2021) Relative resistance levels to bacterial canker in Iranian apricot hybrids. Plant Pathology Science 10(2):15-29. Doi: 10.2982/PPS.10.2.15.
Introduction: Bacterial canker caused by Pseudomonas syringae is one of the most damaging diseases in apricots. This experiment was conducted to evaluate relative resistance to the disease in 22 selected local apricot hybrids including AD507, AD405, and HS731 which were recently released as Jalil, Parsi and Shanli. Material and Methods: Evaluation methods included artificial inoculation of two-year-old seedlings in an orchard and of cut shoots in the laboratory. Initially, the pathovar identity of localP. syringae strains were determined using LOPAT and GATTa tests and three isolates were used as inoculum. The inoculation was done in the seedling stem and after one year and 1.5 years, canker length was recorded. Result: The pathovar of all isolates was identified as P. syringae pv. syringae. The longest and shortest cankers were observed in AD1033 and AC113 with averages of 34.76 mm and 8.35 mm, respectively. The cut shoot bioassay was not practical for apricots. The hybrids were classified into four groups including highly resistant, resistant, moderately resistant, and susceptible. Conclusion: AD1033, AD1042, AD940, AD811, HS210, DM101, HS203 have been classified as susceptible and should not be used in breeding programs and orchard establishment/replacement. Jalil, Parsi, and Shanli were rated as resistant, and moderately resistant, respectively.
Parvin Zare, Habiballah Hamze Zarghani,
Volume 10, Issue 2 (9-2021)
Abstract
Zare P, HamzeZarghani H (2021) Rose dieback disease. Plant Pathology Science 10(2):105-115. Doi: 10.2982/PPS.10.2.105.
Rose is the most important cut flower in the world. Dieback is one of the most devastating rose diseases in greenhouses. The main symptom of the disease is dryness of the branch tips and lack of flower formation. The disease causal agents are Coniothyrium fuckelii, Botryodiplodia theobromae, Botrytis cinerea, Trichothecium roseum, Acremonium sclerotigenum, Diplodia rosarum, Lasiodiplodia pseudotheobromae, Phomopsis sp., and Pestalotia funereal. Disease management methods include cutting the top of the knot at an angle with the least remaining of the deadwood tissue to accelerate the formation of callus tissue, chemical protection of pruning wounds with fungicides, disinfection of the garden knife after each cut, avoiding wounds on the stems and compliance with greenhouse sanitation are described in this article.
Saeedeh Javar,
Volume 10, Issue 2 (9-2021)
Abstract
Javar S (2021) Basic nutritional requirements of fungi for mass production under liquid fermentation conditions. Plant Pathology Science 10(2):128-138.
Doi: 10.2982/PPS.10.2.128.
Fungi lack chlorophyll and are not able to photosynthesize and obtain the required energy from the decomposition of organic matter in the environment. In general, for the industrial production of biological agents, the choice of cheap and accessible food sources is very important. In this paper, the main nutritional requirements of fungi in liquid fermentation are discussed, which include carbon sources, nitrogen sources, minerals and oxygen in aerobic fungi. Carbon sources in the liquid fermentation industry are carbohydrates, animal fats, vegetable oils, hydrocarbons and alcohols, of which the major carbon sources are carbohydrates. Eight to fourteen percent of the dry weight of fungi is nitrogen, and a large number of mineral and organic compounds can be used to meet the fungus's need for nitrogen. Fungi, like other microorganisms, need certain minerals for their growth and cellular metabolism. Most commercially produced and consumed biological fungi are aerobic microorganisms and in some cases, facultative anaerobes. In the mass production of filamentous fungi, the presence of sufficient dissolved oxygen is an important and limiting factor for proper growth and sporulation.
Kayvan Farri, Maryam Khezri,
Volume 10, Issue 2 (9-2021)
Abstract
Farri K, Khezri M (2021) Integrate management method of plants crown gall disease. Plant Pathology Science 10(2):116-127.
Doi: 10.2982/PPS.10.2.116.
Agrobacterium tumefaciens is capable of causing distractive disease of crown gall in a wide range of dicotyledonous plants and causes great economic impact in its hosts. This soil-dwelling bacterium can survive as a saprophyte in soil and plant debris for a long time. When the host plant is present, the bacterium is absorbed into the plant through the root secretions from the wounds and enters the plant through it. The pathogenic bacteria introduce a part of its Ti plasmid, called T-DNA, into the plant cell. Integration of the T-DNA to plant cell genome results in expression of the encoded oncogenes and an increasing the production of phytohormones in cells. Overproduction of auxin and cytokinin leads to cells hyperplasia and hypertrophy, which results in the gall formation on the root, crown, and branches of infected plants. As regards the wide host range, high economic impact, and difficult control of this disease, in this article phenotypic, genetic and pathogenicity characteristics of bacteria have been studied, as well as biology and effective strategies of integrated disease management are presented.
Javad Yousefi Nayi, Adel Pordel, Ahmad Drakhshan, Ali Nazvar,
Volume 10, Issue 2 (9-2021)
Abstract
Yousefi-Nayi J, Pordel A, Drakhshan A, Nazvar A (2021) Fusarium species the causal cumin wilt in the Khorasan-Razavi province of Iran. Plant Pathology Science 10(2):30-39. Doi: 10.2982/PPS.10.2.30.
Introduction: Cumin is the second most popular spice worldwide after black pepper. It is planted with a large acreage each year in Iran, especially in the Khorasan-Razavi province (northeastern Iran). Fungal diseases have caused great loss to this precious plant every year. This study aimed to investigate and identify the causal fungi of chlorosis and wilting of cumin in the Khorasan-Razavi province. Materials and Methods: Yellowed and wilted cumin plants were sampled from Torbat-Heydarieh, Kashmar, and Roshtkhar suburban’s farms, and fungi were isolated, purified, and identified, from their diseased tissues. The pathogenicity test of isolated fungi was carried out on a local cultivar under greenhouse conditions. Results: Two Fusarium species, including F. oxysporum with the highest frequency and F. equiseti with the lowest frequency, were isolated from diseased cumin plants. Between 43 isolates of these fungi in the pathogenicity test, twenty-four isolates of F. oxysporum caused wilt, and nine isolates of F. equiseti caused chlorosis and leaf fall, in the plant. Conclusion: F. oxysporum, and F. equiseti are known as the causal agents of cumin wilt and chlorosis in the Khorasan-Razavi province of Iran.
Nafiseh Hesami, Mostafa Darvishnia, Eidi Bazgir,
Volume 10, Issue 2 (9-2021)
Abstract
Hesami N, Darvishnia M, Bazgir E (2021) Reaction of nine bean cultivars to two
Fusarium species. Plant Pathology Science 10(2):93-104.
Doi: 10.2982/PPS.10.2.93.
Introduction: Two soil-borne fungi, Fusarium oxysporum and F. solani, are the causes of important diseases of beans wilting and root rot. The best way to manage these diseases is to identify and cultivate resistant cultivars. This study was conducted to identify the reaction of nine Iranian beans cultivars to these two pathogenic fungi. Materials and Methods: Bean-diseased plants were collected from farms in Aligudarz city in Lorestan province, in western Iran, and F. oxysporum and F. solani were isolated from them in the laboratory. At first the pathogenesis of these fungi was investigated on a local cultivar. Then, the reaction of nine bean cultivars to them was determined in a completely randomized design experiment in the greenhouse. Results: Reaction of cultivars to F. oxysporum and F. solani respectively were, Dadfar red-bean with disease severity of 28.8 and 26.6%, Sayad red-bean with 33.3 and 28.8%, Koosha pinto-bean with 35.5 and 33.3%, White 247 with 40 and 37.8%, Pak white-bean with 46.6 and 46.7% and pinto-bean 492 with 48.8 and 46.7% respectively, were grouped as semi-sensitive. Saleh pinto-bean with a disease severity of 64.4 and 62.2%, Yaghot red-bean with 77.7 and 80% and Almas white with 82.2 and 86.7% respectively, were determined as sensitive. Pearson correlation analysis also showed that there was a significant negative correlation between root length, fresh and dry weight of root with diseases severity. Conclusion: Six cultivars of Iranian beans vs Dadfar, Sayad, Koosha, White247, Pak and 492 are semi-sensitive to these diseases.
Saeid Imani, Mohammad Reza Moosavi, Rasoul Zare, Tahere Basirnia,
Volume 10, Issue 2 (9-2021)
Abstract
Imani S, Moosavi SMR, Zare R, Basirnia T (2021) Optimum substrate and carrier for Purpureocillium lilacinum and its effectiveness against Meloidogyne javanica on tomato. Plant Pathology Science 10(2):50-64. Doi: 10.2982/PPS.10.2.50.
Introduction: The soil-borne root-knot nematode (Meloidogyne javanica) causes heavy losses in tomato plants every year. Their management by chemical nematicides is difficult, expensive, and may also kill soil beneficial microorganisms, so other safer methods should be used to replace them. Purpureocillium lilacinum is an important biological control agent against root-knot and cyst nematodes. This study was carried out to determine the appropriate substrate and carrier of this fungus and its effect on these nematodes in tomatoes. Material and Methods: P. lilacinum was propagated in vitro on seeds of millet, corn, alfalfa, and clover substrates and their spore production was assessed 10, 20, and 30 days after inoculation. The survival of the fungal spores was then examined in talc, kaolin, and corn cob powder as carriers for 12 months. The effect of the fungus in the mentioned carriers against Meloidogyne javanica on tomato was investigated in the greenhouse by means of a completely randomized design experiment. Results: The highest number of spores in one gram of substrate was produced on millet seed on day 30. The highest number of survived spores was detected in the corncob powder carrier at all 12 months of the experiment. The fungus on corn cob powder was able to control M. javanica to 95% was similar to the nematicide Flopyram. This formulation also had a superior effect in establishing the fungus in the rhizosphere and on roots, suppressing the growth parameters of nematode and increasing plant growth. Conclusion: The fungus reproduced well on millet seeds and could last longer if formulated on corn cobs powder. Therefore, corn cobs powder can be a suitable base to produce an effective powdered product against M. javanica.
Somayeh Vahabi, Habiballah Charehgani, Mohammad Abdollahi, Rasool Rezaei,
Volume 10, Issue 2 (9-2021)
Abstract
Vahabi S, Charehgani H, Abdollahi M, Rezaei R (2021) Response of eight melon cultivars to Meloidogyne javanica. Plant Pathology Science 10(2):65-73. Doi: 10.2982/PPS.10.2.65.
Introduction: The Root-knot nematodes (Meloidogyne spp.) are one of the most damaging plant pathogens with a wide host range and cause major losses to agricultural crops. The use of resistant cultivars is considered a safe, economical, and effective method to control these nematodes. Materials and Methods: In the present study, eight melon cultivars namely Ahlam, 105, Tracey, Ronak, Deltagrin, Mac, Holar, and Veno were evaluated for their response to M. javanica. The seeds were planted in 2 kg pots and maintained under natural conditions in Khormuj city, Bushehr province. Seedlings at the four-leaf stage were inoculated with 5000 eggs and second-stage juveniles. The factorial experiment was conducted in a completely randomized design with five replicates. Sixty days after nematode inoculation, the plants were harvested and the plant growth and nematode population indices were evaluated. Results: The results showed that the nematode reproduction factor was significantly lower in Ronak, Deltagrin, and Veno than in the other cultivars. No significant difference was observed in shoot fresh weight of nematode inoculated and non-inoculated plants of Ronak cultivar. Conclusion: Ronak, Delta-green and Veno cultivars are less susceptible to M. javanica.
Shina Soleymani, Zahra Tahmasebi, Ali Asherf Mehrabi, Homayoun Kanouni,
Volume 10, Issue 2 (9-2021)
Abstract
Soleymani SH, Tahmasebi Z, Asherf Mehrabi A, Kanouni M (2021). Agronomic traits of twenty-one resistant, semi-resistant and susceptible chickpea genotypes to blight disease. Plant Pathology Science 10(2): 82-92. Doi: 10.2982/PPS.10.2.82.
Introduction: Blight caused by Ascochyta rabiei is the most destructive disease of chickpea worldwide. Identification of agronomic and morphological properties of disease-resistant cultivars is necessary to set up a suitable chickpea breeding program. Materials and Methods: Twelve agronomic and morphological properties of 21 resistant, semi-resistant, and susceptible chickpea genotypes were investigated in a field experiment in a randomized complete block design with six replications in one agronomic year in western Iran. Results: All genotypes were divided into three main clusters based on the UPGMA dendrogram. The lowest yielding genotypes were located in cluster II and IDDMAR-2012-32 genotype was susceptible to disease and desi-type in this cluster. The genotypes with the highest yield were placed in cluster III, and the genotype Gebres 419-2 was resistant to the disease and the desi-type in this cluster. Among the Kabuli-type genotypes, ILC482 was included in cluster III as a high-yielding and semi-disease-resistant cultivar, and low-yielding FLIp-02-65C and FLIp-01-164C lines along with disease resistance were included in cluster I. Conclusion: Gebres 419-2 can be crossed with FLIp-02-65C or FLIp-01-164C to produce robust, high-yielding Kabuli chickpea varieties with large seeds.
Mohammad Rezvanjoo, Mehdi Sadravi, Alireza Khoshroo,
Volume 10, Issue 2 (9-2021)
Abstract
Rezvanjoo M, Sadravi M, Khoshroo A (2021) Impact of an arbuscular mycorrhizal fungus on Fusarium wilt in three tomato cultivars. Plant Pathology Science 10(2):74-81. Doi: 10.2982/PPS.10.2.74.
Introduction: Wilt caused by the soil-borne fungus Fusarium oxysporum f. sp. lycopersici is one of the most common and harmful diseases in most tomato growing areas. The disease damage is reported up to 27% of the yield in Iran. Biological control of the disease is an effective, environmentally friendly, and consumer health management method. The ability of arbuscular mycorrhizal fungi to reduce many soil-borne diseases has been demonstrated, so this study was conducted to investigate the effect of a commercially available arbuscular mycorrhizal fungus on disease severity in three tomato cultivars. Materials and Methods: The commercial inoculum of arbuscular mycorrhizal fungus Glomus geosprum was obtained from the market. The experiment was performed in a completely randomized statistical design with four replicates for each treatment. Inoculum of G. geosprum was added to sterile soil in pots and then seeds of Super-Strain, Chef, and Super-Falat tomato cultivars were sown. Seedling roots were inoculated at the three to the six-leaf stage with a spore suspension of a hypervirulent isolate of F. oxysporum f. sp. lycopersici. Data on the severity of the disease, stem height, root length were collected after the appearance of wilting symptoms and analyzed with the SPSS 20 software and the means values were compared. Results: The severity of the disease was significantly reduced in all cultivars treated with arbuscular mycorrhizal fungus, and the stem height and root length were higher than those with no mycorrhizal fungus. Conclusion: The ability of G. geosporum, to reduce the severity of Fusarium wilt disease and increase the growth of tomato plants is reported for the first time.
Safarali Mahdian, Amir Ramzani Domirkolaei, Mohammadali Tajik Ghanbari,
Volume 11, Issue 1 (3-2022)
Abstract
Mahdian S, Ramzani Domirkolaei A, Tajik Ghanbari M (2022) Effect of myrtle essential oil, chitosan and thiabendazole fungicide on citrus green mold. Plant Pathology Science 11(1):74-88. Doi: 10.2982/PPS.11.1.74.
Introduction: Green mold (Penicillium digitatum) is one of the most important post-harvest pathogens of citrus fruits. Tens of thousands of citrus fruits are often destroyed by green mold in Iran every year. The use of chemical toxins to control the disease, in addition to negative environmental effects, leads to the selection of fungal-resistant populations and also endangers consumer health, so non-chemical control of the pathogen has become an important goal of researchers in recent years. Materials and Methods: The essential oil components of myrtle (Myrtus communis L.) were extracted with a Clevenger apparatus and their compounds were identified with a gas chromatography apparatus with a mass spectrometer. The inhibitory effect of myrtle essential oil and the fungicides chitosan and thiabendazole on spore germination and colony growth was investigated by mixing with PDA and PDB under laboratory conditions and by impregnating the fruit surface during storage. Results: Thirteen compounds were identified in myrtle essential oil, which was quantitatively the highest compound 1-8 cineole. Myrtle essential oil at a concentration of 1700 ppm and chitosan at a concentration of 500 ppm inhibited 100% of fungal colony growth, as did the fungicide thiabendazole. Conclusion: It is possible to use myrtle essential oil or chitosan as an alternative to the fungicide thiabendazole to control citrus green mold.
Meysam Bakhshi Ganje,
Volume 11, Issue 1 (3-2022)
Abstract
Bakhshi Ganje M (2022) Acute oak decline disease. Plant Pathology Science
11(1):122-132. Doi: 10.2982/PPS.11.1.122.
Abstract
Acute oak decline with signs of canker and colored discharge on the trunks of old trees has been reported in northern Iran for the past two decades. Several bacteria of the order Enterobacterales, the family Pectobacteriaceae and the genus Brenneria were isolated and identified from diseased trees. Although oak possesses several genes whose products are responsible for plant resistance to fungal pathogens, bio-trophic pathogens, hemibiotrophic pathogens, and water stress, it does not show resistance to these necrotrophic pathogenic bacteria. The mechanism of the occurrence and epidemic of acute oak decay is the predisposition of trees to successive droughts, the outbreak of some pests, and the relatively low rate of development of oak defense genes against the high rate of evolution of pathogenic genes of necrotrophic bacteria such as Brenneria species. Due to the many climate changes in recent years, there may be an epidemic of the disease in the forests of other parts of the country in the future. This article describes research into the disease to pave the way for an appropriate method of disease management.
Samaneh Samavat, Mahdiyeh Salehi Vozhdehnazari, Pegah Sayyad-Amin,
Volume 11, Issue 1 (3-2022)
Abstract
Samavat S, Salehi Vozhdehnazari M, Sayyad-Amin P (2022) Inhibitory effects of essential oils and extracts of medicinal plants on plant pathogenic fungi and bacteria. Plant Pathology Science 11(1):113-121. Doi: 10.2982/PPS.11.1.113.
The use of essential oils and extracts of medicinal plants is one of the environmentally friendly methods in the management of plant diseases caused by fungi and bacteria. The antimicrobial effect of essential oils and extracts of various medicinal plants such as thyme, cloves, savory, garlic, licorice and fennel has been proven and their active ingredient has also been identified. Based on these studies, the possibility of introducing, formulating and using essential oils and extracts of medicinal plants or any of their components with antimicrobial properties, as an alternative method of using chemical toxins in the management of fungal and bacterial diseases of plants can be provided.
Hoda Taheri , Eidi Bazgir,
Volume 11, Issue 1 (3-2022)
Abstract
Taheri H, Bazgir E (2022) The role of autophagy in plants protection against pathogens. Plant Pathology Science 11(1):133-145. Doi: 10.2982/PPS.11.1.133.
Autophagy plays an important role in the process of plant development and interaction with pathogens such as fungi, bacteria, and plant viruses. Autophagy is linked to immunity and disease resistance through inhibition of programmed cell death (PCD) and is recognized as an important defense component in plants. Autophagy also helps selectively eliminate pathogens through specific interactions. A number of pathogens have acquired the ability to cope with or evade autophagy and use it to develop the disease. Some other pathogens also use the autophagy system as pathogenic factors. Therefore, understanding cellular processes such as responses related to autophagy genes are very important for studying pathological physiology and plant immunity. The role of autophagy in the immune system and the plant's defense response to pathogens is described in this article.
Parmida Aleahmad, Leila Ebrahimi,
Volume 11, Issue 1 (3-2022)
Abstract
Aleahmad P. Ebrahimi L (2022) The role of endophyte fungi in plant disease management. Plant Pathology Science 11(1):100-112.
Doi: 10.2982/PPS.11.1.100.
Plant diseases usually cause economic damage and reduce growth and crop yield. Treatment of plant diseases with chemical toxins can result in environmental side effects, the emergence of resistance in pathogens, and loss of beneficial soil microorganisms, so the search for alternative methods such as identification and use of antagonistic microorganisms for disease treatment has been considered by researchers. A set of endophyte fungi that grow without damage or symptoms in host plant tissues and are known to be biological control agents of some plant diseases. Endophyte fungi with different mechanisms such as the production of antibiotic metabolites, competition, induction of resistance, and hyperparasitism of the pathogen weaken or eliminate the pathogens. These fungi can also help increase the growth and resistance of host plants to various stresses by producing antioxidant and antitumor compounds, as well as various growth hormones.
Elmira Abootorabi, Laleh Ebrahimi,
Volume 11, Issue 1 (3-2022)
Abstract
Abootorabi E, Ebrahimi L (2022) Introduction of three entomopathogenic nematodes of Iran and their impact on honeycomb moth. Plant Pathology Science 11(1):89-99.
Doi: 10.2982/PPS.11.1.89.
Introduction: The aim of this study was to collect and identify entomopathogenic nematodes native to Iran and to evaluate their pathogenicity on honeycomb moth larvae (Galleria mellonella). Materials and Methods: Thirteen isolates of entomopathogenic nematodes were collected from different provinces of Iran and identified based on morphological characters. The percentage mortality of G. mellonella larvae infected with these isolates at 25 ± 1 and 32 ± 1 °C was determined in a one-to-one assay, and the ability of the isolates to find a target and the mortality of the insect in the sand column test were determined. Results: Seven isolates of Heterorhabditis bacteriophora, two isolates of Steinernema feltiae, and five isolates of S. carpocapsae were identified. The ability of isolates of all three nematode species to penetrate the insect's body has been shown to be up to 93% within 48-72 hours post-infection at 25 ± 1°C. The optimum temperature for the biological activity of the identified isolates was 25±1°C. S. carpocapsae found a target faster than the other two species in the sand column test. Conclusion: Isolates of S. carpocapsae have higher potential in targeting and pathogenicity of honeycomb moth larvae than the other two nematode species.
Hadis Shahbazi, Alireza Tarang, Fereidoun Padasht, Maryam Hosseini Chaleshtari, Mehrzad Allahgholipour, Maryam Khoshkdaman, Seyyede Akram Mousavi Qale Roudkhani, Sousan Nazari Tabak, Farzaneh Asadollahi Sharifi, Mahnaz Pourabbas,
Volume 11, Issue 1 (3-2022)
Abstract
Shahbazi H, Tarang A, Padasht F, Hosseini Chaleshtari M, Allah-Gholipour M, Khoshkdaman M, Mousavi Qaleh Roudkhani SA, Nazari Tabak S, Asadollahi Sharifi F, Pourabbas Dolatabad M (2022) The reaction of 109 rice lines to blast disease. Plant Pathology Science 11(1):24-35. Doi: 10.2982/PPS.11.1.24.
Introduction: Blast caused by Pyricularia oryzae is the most important fungal disease of rice in the world. The best method of disease management is to identify and cultivate resistant cultivars. Materials and Methods: In this study, the response of 109 promising lines from the Iranian Rice Research Institute along with three control cultivars (susceptible and resistant) to blast disease was evaluated. Seeds of each line were sown in an upland nursery to assess leaf blast in early July. In order to inoculate the desired lines, leaves infected with the blast were collected from different areas of Guilan Province and placed on the surface of the rice blast nursery. In all stages, the necessary humidity to cause disease was provided by sprinkler irrigation. The severity of the disease was rated from zero to nine using the standard method of the International Rice Research Institute. Seedlings were grown in large pots in the greenhouse and inoculated by injection into the panicle neck to assess panicle burst. Results: Seven and 14 lines with grades 2 and 3 showed resistance to leaf blast. Other lines ranged from relatively susceptible to very susceptible to the disease. Three lines TH1, TH2, and TH3 with a degree of contamination of 5 were susceptible to panicle blast disease. Conclusion: Twenty-one known blast-resistant lines can be used in the rice cultivars breeding program.
Seyyed Ziya Mirhosseini Chahooki, Hossein Massumi, Jahangir Heydarnejad, Akbar Hosseinipour, roohollah Abdolshahi, Mohammad Maddahian,
Volume 11, Issue 1 (3-2022)
Abstract
Mirhosseini-Chahooki SZ, Massumi H, Heydarnejad J, Hosseinipour A, Abdoshahi R, Maddahian M (2022) The reaction of forty cucurbits genotypes against Cucumber mosaic virus. Plant Pathology Science 11(1):48-59.
Doi: 10.2982/PPS.11.1.48.
Introduction: Cucumber mosaic virus (CMV) is one of the most common pathogens of cucurbits plants in the world. The best way to manage the disease is to identify and cultivate resistant cultivars. Materials and Methods: Reaction of 40 genotypes or cultivars of cucurbits plants including Cantaloupe, cucumber, melon, squash and watermelon were evaluated for a CMV isolate from subgroup IB under greenhouse conditions in a completely randomized design with 10 replications per treatment. The plants were inoculated with CMV-infected tobacco extract at the cotyledon leaf stage. Up to four weeks after inoculation, their reaction was determined based on symptom severity index and absorption index in ELISA test (OD405). Results: Genotypes were classified into five groups: highly sensitive, sensitive, relatively resistant, resistant and completely resistant. Conclusion: Cultivation of completely resistant or resistant genotypes for disease management can be recommended.
