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Oomycota w.s.r. to Phytopthora sp.
- 1. MYCOLOGY Oomycota: General Characteristics, Ecology with special reference to Phytopthora By Dr. N. Sannigrahi, Associate Professor, Dep't. Of Botany, Nistarini College, Purulia West Bengal, India
- 2. LATE BLIGHT OF POTATO
- 3. OOMYCOTA-MEMBERS Oomycota popularly called Oomycetes are class of fungi having filamentous growth habit, absorptive mode of nutrition and reproduction by spores. They are called water molds and being treated as lower group of fungi. Oomycota means egg fungi referring to the large round oogonia. Evolutionary studies confirmed the close resemblance of this group to algae. The group consists of most devastating pathogens cause various diseases like seedling blights, damping off, root rots, foliar blight, downy mildews, late blight of potato, root and stem rots of soybean etc. The most common members are Phytopthora, Pythium, Albugo, Sarolegnia, Peronospora etc. It differs from eumycota due to absence of septa, cell wall composition, production of wall less biflagellate swimming spores and difference in metabolic pathways.
- 5. TAXONOMY In traditional classification, it is placed in Phycomycetes and Oomycetidae is a subclass of Phycomycetes. Alexopolus (1962) considered as true fungi and kept in a class Oomycetes . Ainsworth(1971) kept as a class under the subdivision Mastigomycotina of division Eumycota. Webster and Weber (2007) kept Oomycota as a division of Straminiplia having orders Saprolegnials, Pythiales and Peronosporales in this division. In the modern classification, Oomycota has been placed in the 3rd phyla of the kingdom Chromista. Oomycota has been divided under 13 orders with 110 genera and 1000 species.
- 6. ECOLOGY The water molds suggests its abundance in mostly damp places but number of species are terrestrial in nature. Found in fresh water, sea, soil and above the plant organs, Obligate aerobes; live either saprophyte, obligate or facultative parasites on plants; some species cause disease on animals particularly on insects and fishes. Saprolegnia on Salmon, Aphanomyces astraci on Cray fish, Lagenidium giganteum on parasitic insects , Most of the species are pathogenic to plants and very much aggressive on serious damage of economic crops.
- 8. GENERAL CHARACTERS 1. Filamentous, branched mycelium without septa; mycelium multinucleate, diploid; cell wall contains cellulose and glucans without chitin; eucarpic or holocarpic. 2. Reproduction occurs by asexual and sexual means 3. Asexual reproduction by zoospores on sporangia. 4. Sporangia having diverse shape and position-either terminal or intercalary, bulbous or not. 5. Zoospores are flagellate- anterior is tinsel and posterior as whiplash, swim in water, soil water or natural bodies, 6.After swimming, zoospores settle on surface, retract flagella and secrete mucilaginous matrix to settle them, 7.Homomorphic or dimorphic zoospores are formed; zoospores may be primary or secondary,
- 9. GENERAL CHARACTERS 8. Sexual reproduction heterogamous via antheridia and oogonia as reproductive organs, 9. Female oospores is produced in oogonia and it may be 1-many, 10. Male gamete is produced in antheridium- either paragynous (side of the oogonium) or amphigynous (at the base of oogonium), 11. Mostly homothallic but heterothallic when both mating types are present due to stimulation of hormone, 12. Meiosis occurs during the gamete production 13. Plasmogamy takes place by gametangial contact and diploid zygote is produced as a part of karyogamy, 14.Diploia zygote develops thick walled resistant spores and germinate to give rise to 2n vegetative hyphae and reproduce asexually by zoospores. 15. Diplontic life cycle is the key feature of this group, haploid phase is restricted on haploid gametes only.
- 11. DISEASE AND ECOLOGY Late blight is a serious fungal disease of potatoes. It is worldwide in its distribution. It occurs in potato growing areas of the world. Winter is the main potato growing season in India. It is followed by hot summer months in the plains. The drought and high temperature kill the fungus in the soil. The late blight epidemics are thus rare in the plains in India. It is destructive to the crop grown in the rainy season. The disease occurs annually in the cooler Himalayan regions extending from Assam to Kashmir at an altitude of 6,000 ft. or more as the crop is grown in the rainy season. Moreover, the temperature during the day is never above 22°-23°C which is favorable for the appearance of disease. The crops grown in the plains have been usually free from the epidemics of late blight because the chief predisposing factors (temperature and moisture) that render potato plants susceptible to disease are absent during the period of their growth.
- 12. DISEASE OCCURRENCE IN INDIA The temperature is high for the development of the disease. Now it has established itself in the Indo- Gangetic plain and occurs annually in the states of Punjab, Uttar Pradesh, Bihar, and W. Bengal. The disease is also destructive to tomatoes. The damage caused by the disease is frequently very high. Severe damage to the foliage shortens the growing season (Fig. 22.5). Consequently the tubers remain small and reduced in weight. They are produced in smaller numbers. This results in the reduced yield. In severe cases of infection there is complete loss of the crop, Infection also results in the decay of tubers in the field and storage.
- 13. PRIMARY INFECTION & SYMPTOMS The disease first appears on the tops of the plants generally after the blossoming period but mostly in the month of January. It may appear as well at any time during the growth period of the plant. The conditioning factor is the favorable environment. The disease makes its appearance as small, dead, brownish to purplish black areas or lesions. These appear on the tips and margins of the leaflets, rachis, petiole and stem. Under favorable conditions (low temperature and high humidity) the lesions rapidly increase in size involving the whole surface of the leaf. The disease generally first attacks the leaves, and petioles near the ground and the lesions appear on the lower surface of the leaflets on individual plants and then spreads upwards. Finally, a rapid and general blighting of foliage occurs. The blighted leaves curl and shrivel in dry weather. Under moist conditions they decay and emit a characteristic offensive odour.
- 14. INFECTION & SYMPTOMS Examination of the lesions on the lower surface of the leaf on a dew morning reveals a delicate growth of the fungus parasite in the form of whitish powdery bloom. It consists of sporangiophores and sporangia of the pathogen pushing out through the stomata. The sporangia serve to spread the disease in the growing season. Potato tubers are often infected in the field after the tops have been blighted. They get separate infections while in the hill. There is brownish discoloration of the skin of those parts of the tubers which lie nearest the surface of the soil. These dry rot spots remain firm and extend to about half an inch below the surface. During storage, the bacteria assist to set in the wet rot phase. In cool and dry conditions the progress of the disease is slower and the wet rot phase is generally checked. Under moist conditions hyaline mycelial hyphae and sporangiophores push out through the lenticels and appear on the surface of infected tubers.
- 15. SECONDARY INFECTION The infected tubers are generally considered as the main source of primary infection in India. The survival of the fungus in the soil in the Indian climatic conditions in any form appears remote. According to the widely held view, the fungal parasite overwinters as a dormant mycelium in the infected tubers. It becomes activated at the time of germination of the diseased seed tubers among the planting stock or waste tubers in dump heaps or infected tubers remaining in the ground after a previous crop. The activated mycelium invades the healthy sprouts . The second view is that the thick-walled resting oospores which are found in abundance in the infected tubers are the important overwintering structures. They play a significant role as the source of primary infection. At the planting time, the resting oospore germinates. The germ tube after emergence usually ends in a terminal sporangium. The contents of the latter divide to form zoospores. The released zoospores invade the healthy sprouts and bring about infection.
- 16. DISEASE & REPRODUCTION OF FUNGUS According to some, the sexual phase seems to play no role in the life history of the pathogen. The infected sprouts emerge above ground and produce shoots which contain the mycelium. It grows and ramifies in the intercellular spaces absorbing nutrition by putting haustoria into the host cells. Under suitable conditions of temperature and humidity, the mycelium pushes out hyaline, branched, indeterminate sporangiophores through the stomata of the host leaves . The thin-walled, ovoid or lemon-shaped sporangia, each with an apiculate tip, are borne singly at the tips of sporangiophores or their branches. As the sporangium reaches maturity, the supporting hyphal branch immediately below it swells slightly and continues to grow turning the attached sporangium to the side. The elongation of the branch proceeds and a new sporangium is formed. The process is repeated. A fertile branch or sporangiophore is thus characterized by 9 or 10 such swellings occurring at intervals.
- 17. PREDISPOSING FACRORS OF DISEASE Each nodular swelling marks the point where the sporangium was borne. The mature sporangia are readily detached and spread by splashing rain or air currents to new potato plants . Grosier (1934) who studied the biology of Phytophthora infestans reported that the sporangia are formed within a temperature range of 3° to 26°C with an optimum of 18° to 22°C. The minimum relative humidity required is 91 percent with an optimum of 100 percent. On reaching a suitable host (potato), the sporangia germinate on the leaves. Germination is influenced by moisture and temperature conditions.
- 18. DIRECT GERMINATION In cool moist weather the sporangia function as zoosporangia (F1- 3). The optimum temperature for the formation of zoospore is 12ºC (54°F). In the indirect germination the protoplasmic contents of sporangium divided to form a number of (usually 8) biflagellate zoospores . They are liberated in a group through terminal pore formed by rupture of the apical papilla. The released zoospores, after a brief period of activity in rain water or dew come to rest. Each retracts its flagella and secretes a wall around it. The clothed zoospores (cyst) then germinates by pushing out a germ tube or infection thread. The zoospores germinate rapidly at 12° to 15°C. Cool and moist nights are thus favorable for the formation and germination of zoospores. The germ tubes show rapid growth at 21°C . After infection they grow best at a slightly higher temperature.
- 19. INDIRECT GERMINATION Under dry and warmer conditions no zoospores are formed. The sporangium functions as a conidium. It directly puts out a germ tube or infection thread. The optimum temperature for this direct germination of sporangia is about 24° or ’25°C. The indirect method of germination of sporangia by the formation of zoospores in a terrestrial late blight fungus is an instance of retention of an ancestral primitive character which was normally used by its aquatic ancestor. The infection thread produced on the surface of the host leaf in either of the two above-mentioned methods enters the host tissue (leaves or stem). It makes its entry occasionally through the stoma but more often it penetrates directly through the cuticle by a penetration hypha arising from an appresorium . The lower surface of the leaf is more susceptible than the upper. The infected leaves produce another crop of sporangia. These are carried by wind to the healthy plants which are thus infected. This constitutes secondary infection. The process is repeated
- 20. INFECTION OF TUBERS The tubers get separate infections. It is caused by zoospores produced in foliage lesions (blighted tops) or present in the contaminated soil. Sporangia and zoospores come in contact with the tubers in two ways. Firstly, by contact freshly lifted healthy and wounded tubers with diseased haulms and contaminated soil. Secondly, during crop growth, the zoospores and sporangia washed down the stems into the soil by rain come in contact with the tubers. Tuber infection is dependent on the germination of sporangia, release and motility of zoospores. The released zoospores have to move through soil to the infection sites. The longer the zoospores continue to swim and greater their number, the greater are the chances of infection. The germ tubes gain entrance through the eyes, wounds and lenticels.
- 21. DISEASE CYCLE
- 22. CONTROL MEASURES The disease of the late blight of potato can be controlled by adopting the following measures as stated below: 1. Selection of the healthy, disease free tubers and disease free certification of the tubers before the plantation. 2. Storage of the seeds below 28 ℃ or below to reduce the chance of infection. 3.Treatment of the tubers with the different type of organic chemicals before storage to reduce the infection. 4. Use of fungicides like Bordeaux mixture, Perenox, Blitox-50, Fytolan, Diathane M-45, Diathane Z-78, Diathane M-22 and others to reduce the infection to eradicate the pathogen. Cultural practices involved the proper disposal of infected tubers and the killing of the vines by the application of weedicides can minimize the infection. Growing the disease resistant infection as prevention is better than cure to obtain desired output.
- 23. THANK YOU TO VISIT ME REFERENCES 1.Introduction to Mycology and Phytopathology - Mishra & Dash, A text book of Fungi- Vasistha 3. A text book of Botany- Hait, Bhattacharyya & Ghosh 4. studies in Botany 5.College Botany 6.Google for images 7.Different WebPages to explore the topic. DISCLAIMER: This PPT has been designed to enrich online free source of knowledge without any financial interest.