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InspiringDifferential

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Sardar Vallabhbhai Patel University of Agriculture and Technology

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Rice diseases Plant pathology Agriculture Crop diseases

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This document provides detailed information on various diseases affecting rice crops. It covers symptoms, pathogens, favorable conditions, and management strategies for several fungal diseases impacting rice cultivation. The content includes data on different stages of infection and yield loss estimates.

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1. Diseases of Rice Fungal Diseases Blast - Pyricularia oryzae (Syn: P. grisea) (Sexual stage: Magnaporthe grisea) Symptoms The fungus attacks the crop at all stages of crop growth. Symptoms appear on leaves, nodes, rachis, and glumes. On the leaves,...

1. Diseases of Rice Fungal Diseases Blast - Pyricularia oryzae (Syn: P. grisea) (Sexual stage: Magnaporthe grisea) Symptoms The fungus attacks the crop at all stages of crop growth. Symptoms appear on leaves, nodes, rachis, and glumes. On the leaves, the lesions appear as small bluish green flecks, which enlarge under moist weather to form the characteristic spindle shaped spots with grey centre and dark brown margin (Leaf blast). The spots coalesce as the disease progresses and large areas of the leaves dry up and wither. Spots also appear on sheath. Severely infected nursery and field appear as burnt. Black lesions appear on nodes girdling them. The affected nodes may break up and all the plant parts above the infected nodes may die (nodal blast). During flower emergence, the fungus attacks the peduncle and the lesion turns to brownish-black which is referred to as rotten neck / neck rot / panicle blast (neck blast). In early neck infection, grain filling does not occur while in late infection, partial grain filling occurs. Small brown to black spots may also be observed on glumes of the heavily infected panicles. The pathogen causes yield losses ranging from 30-61 per cent depending upon the stages of infection. Leaf blast Pathogen The mycelium is hyaline to olivaceous and septate. Conidia are produced in clusters on long septate, olivaceous conidiophores. Conidia are pyriform to ellipsoid, attached at the broader base by a hilum. Conidia are hyaline to pale olive green, usually 3 celled. The perfect state of the fungus is M. grisea producing perithecia. The ascospores are hyaline, fusiform, 4 celled and slightly curved. Conidia and Conidiophore of P. grisea Favourable Conditions Intermittent drizzles, cloudy weather, more of rainy days, longer duration of dew high relative humidity (93-99 per cent). Low night temperature (between 15-20˚C or less than 26˚C). Aavailability of collateral hosts and excess dose of nitrogen. Forecast for rice blast can be made on the basis of minimum night temperature range of 20-26˚C in association with a high relative humidity of 90 per cent and above lasting for a period of a week or more during any of the three susceptible phases of crop growth, viz., seedling stage, post transplanting tillering stage and neck emergence stage. In Japan, the first leaf blast forecasting model was developed named as BLAST. Later several other models have also been developed namely, PYRICULARIA, PYRIVIEW, BLASTAM, EPIBLA and PBLAST. Disease Cycle The disease spreads primarily through airborne conidia since spores of the fungus present throughout the year. Mycelium and conidia in the infected straw and seeds are major sources of inoculum. Irrigation water may carry the conidia to different fields.The fungus also survives on collateral hosts viz., Panicum repens, Digitaria marginata, Brachiaria mutica, Leersia hexandra and Echinochloa crusgalli. Spores land on leaves, germinate, penetrate the leaf, and cause a lesion 4 days later; more spores are produced in as little as 6 days. Infections from spores arriving from a distance are termed primary infections. Primary infections generally result in a few widely scattered spots on leaves. Spores arising from the primary infections are capable of causing many more infections. This cycling is called secondary spread. Secondary spread is responsible for the severe epidemics of blast in fields and localized areas. Management Grow resistant to moderately resistant varieties CO47, IR 20, ADT36, ADT39, ASD 18 and IR64. Avoid cultivation of highly susceptible varieties viz., IR50 and TKM6 in disease favourable season. Remove and destory the weed hosts in the field bunds and channels. Treat the seeds with Captan or Thiram or Carbendazim or Tricyclazole at 2 g/kg. or Pseudomonas fluorescens @ 10g/kg of seed. Spray the nursery with carbendazim 500mg/L or tricyclazole 300mg/L. Spray the main field with Edifenphos 500 ml or Carbendazim 500 g or Tricyclazole 500 g or Iprobenphos (IBP) 500 ml /ha. Brown Spot - Helminthosporium oryzae (Syn: Drechslera oryzae; Bipolaris oryzae) (Sexual stage: Cochliobolus miyabeanus) Symptoms The fungus attacks the crop from seedling to milky stage in main field. Symptoms appear as minute spots on the coleoptile, leaf blade, leaf sheath, and glume, being most prominent on the leaf blade and glumes. Leaf symptoms Glume infection The spots become cylindrical or oval, dark brown with yellow halo later becoming circular. Several spots coalesce and the leaf dries up. The seedlings die and affected nurseries can be often recognised from a distance by scorched appearance. Dark brown or black spots also appear on glumes leading to grain discoloration. It causes failure of seed germination, seedling mortality and reduces the grain quality and weight. Pathogen Bipolaris oryzae produces brown septate mycelium. Conidiophores arise singly or in small groups. They are geniculate, brown in colour. Conidia are usually curved with a bulged center and tapered ends. They are pale to golden brown in colour and are 6-14 septate. The perfect stage of the fungus is C. miyabeanus. It produces perithecia with asci containing 6-15 septate, filamentous or long cylinderical, hyaline to pale olive green ascospores. The fungus produces terpenoid phytotoxins called ophiobolin A (or Cochliobolin A), ophiobolin B (or cochliobolin B) and ophiobolin I. Ophiobolin A is most toxic. These breakdown the protein fragment of cell wall resulting in partial disruption of integrity of cell. Coidia and Conidiophore Favourable Conditions Temperature of 25-30˚C with relative humidity above 80 per cent are highly favourable. Excess of nitrogen aggravates the disease severity. Disease Cycle Infected seeds and stubbles are the most common source of primary infection. The conidia present on infected grain and mycelium in the infected tissue are viable for 2 to 3 years. Airborne conidia infect the plants both in nursery and in main field. The fungus also survives on collateral hosts like Leersia hexandra and Echinochloa colonum. The brown spot fungus is normally present in areas with a long history of rice culture. Airborne spores that are capable of causing infection are produced in infested debris and older lesions. Management Field sanitation-removal of collateral hosts and infected debris from the field. Use of slow release nitrogenous fertilizers is advisable. Grow tolerant varieties viz., Co44 and Bhavani. Use disease free seeds. Treat the seeds with Thiram or Captan at 4 g/kg. Spray the nursery with Edifenphos 40 ml or Mancozeb 80 g for 20 cent nursery. Spray the crop in the main field with Edifenphos 500 ml or Mancozeb 2 kg/ha when grade reaches 3. If needed repeat after 15 days. Narrow brown leaf spot - Cercospora janseana (Sexual stage: Sphaerulina oryzina) Symptoms The fungus produces short, linear brown spots mostly on leaves and also on sheaths, pedicels and glumes. The spots appear in large numbers during later stages of crop growth. Symptoms Pathogen Conidiophores are produced in groups and brown in colour. Conidia are hyaline or sub hyaline, cylindrical and 3-5 septate. Management Spray Carbendazim 500 g or Mancozeb 2 kg/ha. Sheath rot - Sarocladium oryzae (Syn: Acrocylindrium oryzae) Symptoms Initial symptoms are noticed only on the upper most leaf sheath enclosing young panicles. The flag leaf sheath show oblong or irregular greyish brown spots. They enlarge and develop grey centre and brown margins covering major portions of the leaf sheath. The young panicles remain within the sheath or emerge partially. The panicles rot and abundant whitish powdery fungal growth is seen inside the leaf sheath. Symptoms Pathogen The fungus produces whitish, sparsely branched, septate mycelium. Conidia are hyaline, smooth, single celled and cylindrical in shape. Favourable Conditions Closer planting High doses of nitrogen High humidity and temperature around 25-30˚C Injuries made by leaf folder, brown plant hopper and mites increase infection Disease Cycle The disease spreads mainly through air-borne conidia and also seed-borne. Primary source of inoculum is by means of infected plant debris. Secondary spread is by means of air borne conidia produced on the leaf sheath. Management Spray Carbendazim 500g or Edifenphos 1L or Mancozeb 2 kg/ha at boot leaf stage and 15 days later. Soil application of gypsum (500 kg/ha) in two splits. Application of Neem Seed Kernal Extract (NSKE) 5% or neem oil 3 % or Ipomoea or Prosopis leaf powder extract 25 Kg/ha. First spray at boot leaf stage and second 15 days later. Sheath blight - Rhizoctonia solani (Sexual stage: Thanetophorus cucumeris) Symptoms The fungus affects the crop from tillering to heading stage. Initial symptoms are noticed on leaf sheaths near water level. On the leaf sheath oval or elliptical or irregular greenish grey spots are formed. As the spots enlarge, the centre becomes greyish white with an irregular blackish brown or purple brown border. Lesions on the upper parts of plants extend rapidly coalesing with each other to cover entire tillers from the water line to the flag leaf. The presence of several large lesions on a leaf sheath usually causes death of the whole leaf, and in severe cases all the leaves of a plant may be blighted Symptoms The infection extends to the inner sheaths resulting in death of the entire plant. Older plants are highly susceptible. Plants heavily infected in the early heading and grain filling growth stages produce poorly filled grain, especially in the lower part of the panicle. Pathogen The fungus produces septate mycelium which are hyaline when young, yellowish brown when old. It produces large number of spherical brown sclerotia. Favourable Conditions High relative humidity (96-97 per cent), high temperature (30-32˚C). Closer planting. Heavy doses of nitrogenous fertilizers. Disease cycle The pathogen can survive as sclerotia or mycelium in dry soil for about 20 months but for 5-8 months in moist soil. Sclerotia spread through irrigation water. The fungus has a wide host range. Management Grow resistant varieties like Mansarovar, Swarau Dhan, Pankaj etc. Apply organic amendments viz., neem cake @ 150Kg/ha or FYM 12.5 tons/ha. Avoid flow of irrigation water from infected fields to healthy fields. Deep ploughing in summer and burning of stubbles. Spray Carbendazim 500 g/ha Soil application of P.fluorescens @ of 2.5 kg/ha after 30 days of transplanting (product should be mixed with 50 kg of FYM/Sand and applied). Foliar spray P.fluorescens at 0.2% at boot leaf stage and 10 days later False smut - Ustilaginoidea virens (Syn: Claviceps oryzae - sativa) Symptoms The fungus transforms individual ovaries / grains into greenish spore balls of velvetty appearance. Only a few spikelets in a panicle are affected. Symptoms Pathogen Chlamydospores are formed as spore balls which are spherical to elliptical, warty and olivaceous. Spore balls Disease Cycle Grasses and wild rice species are alternate hosts. The main source of inoculum is air- borne spores. Ascospores produced from sclerotia act as primary source of infection while chalmydospores are secondary source of infection. Chlamydospores are air - borne, abundant at heading stage. Favorable conditions Rainfall and cloudy weather during flowering and maturity Udbatta disease - Ephelis oryzae (Sexual stage: Balansia oryzae-sativa) Symptoms Symptoms appear at the time of panicle emergence. The entire ear head is converted into a straight compact cylindrical black spike like structure since the infected panicle is matted together by the fungal mycelium. The spikelets are cemented to the central rachis and the size is remarkably reduced. The entire spike is covered by greyish stroma with convex pycnidia immersed inside. Pathogen Symptoms Pycnidiospores are hyaline, needle shaped and 4-5 celled. Management The pathogen is internally seed borne. Hot water seed treatment at 45˚C for 10 min. effectively controls the disease. Removal of collateral hosts Isachne elegans, Eragrostis tenuifolia and Cynadon dactylon. Stackburn disease - Trichoconis padwickii (Syn: Alternaria padwickii) Symptoms Leaves and ripening grains are affected. On leaves circular to oval spots with dark brown margins are formed. The center of the spot turns light brown or white with numerous minute dots. On the glumes reddish brown spots appear. The kernels may shrivel and become brittle. Symptoms Pathogen Conidia are elongated with a long beak at the tip, 3 to 5 septate, thick walled and constricted at the septa. Management Treat the seeds with Thiram or Captan or Mancozeb at 2g/kg. Hot water treatment at 54˚ C for 15 minutes is also effective. Burn the stubbles and straw in the field. Bunt or Kernel Smut or black smut - Tilletia barclayana Minute black pustules or streaks are formed on the grains which burst open at the time of ripening. The grains may be partially or entirely replaced by the fungal spores. The sorus pushes the glumes apart exposing the black mass of spores. Only a few flowers are infected in an inflorescence. The fungus survives as chlamydospores for one or more years under normal condition and 3 years in stored grains. Symptoms Stem rot – Sclerotium oryzae (Sexual stage: Magnaporthe salvinii) Symptoms Small black lesions are formed on the outer leaf sheath and they enlarge and reach the inner leaf sheath also. The affected tissues rot and abundant small black sclerotia are seen in the rotting tissues. The culm collapses and plants lodge. The sclerotia are carried in stubbles after harvest. Symptoms Pathogen White to greyish hyphae, spherical black and shiny sclerotia, visible to naked eyes as black masses. Favourable Conditions Infestation of leaf hoppers and stem borer. High doses of nitrogenous fertilizers. Disease Cycle The sclerotia survive in stubbles and straw those are carried through irrigation water. The fungus over winters and survives for long periods as sclerotia in the upper layers (2-3 inches) of the soil profile. The half-life of sclerotia in the field is about 2 years. Viable sclerotia have been found in fields for up to 6 years after a rice crop. The sclerotia are buoyant and float to the surface of floodwater where they contact, germinate, and infect rice tillers near the water line. Management Deep ploughing in summer and burning stubbles to eliminate sclerotia. Use of balanced application of fertilizer. Avoid flow of irrigation water from infected to healthy fields. Draining irrigation water and letting soil to dry. Foot rot or Bakanae disease - Fusarium moniliforme (Sexual stage: Gibberella fujikuroi) Symptoms Infected seedlings in nursery are lean and lanky, much taller and die after some time. In the main field, the affected plants have tall lanky tillers with longer internodes and aerial adventitious roots from the nodes above ground level. The root system is fibrous and bushy. The plants are killed before earhead formation or they produce only sterile spikelets. When the culm is split open white mycelial growth can be seen. Symptoms Pathogen Fungus produces both macroconidia and microconidia. Microconidia are hyaline, single celled and oval. Macroconidia are slightly sickle shaped, and two to five celled.The fungus produces the phytotoxin , fusaric acid, which is non-host specific. Micro and macro conidia Management The fungus is externally seed-borne. Treat the seeds with Thiram or Captan or Carbendazim at 2 g/kg. Grain discolouration - Drechslera oryzae, D. rostratum, D.tetramera, Curvularia lunata, Trichoconis padwickii, Sarocladium oryzae, Alternaria tenuis, Fusarium moniliforme, Cladosporium herbarum, Epicoccum purpurascens, Cephalosporium sp., Phoma sp., Nigrospora sp. Symptoms The grains may be infected by various organisms before or after harvesting causing discoloration, the extent of which varies according to season and locality. The infection may be external or internal causing discoloration of the glumes or kernels or both. Dark brown or black spots appear on the grains. The discoloration may be red, yellow, orange, pink or black, depending upon the organism involved and the degree of infection. This disease is responsible for quantitative and qualitative losses of grains. Symptoms Favourable Conditions High humidity and cloudy weather during heading stage Disease cycle The disease spreads mainly through air-borne conidia and the fungus survives as parasite and saprophyte in the infected grains, plant debris and also on other crop debris. Management Pre and post-harvest measures should be taken into account for prevention of grain discolouration. Spray the crop at boot leaf stage and at 50% flowering with Carbendazim + Mancozeb (1:1) @ 0.2%. Store the grains with 13.5-14% moisture content. Bacterial Disesases Bacterial leaf blight - Xanthomonas oryzae pv. oryzae Symptoms The disease is usually noticed at the time of heading but it can occur earlier also. Seedlings in the nursery show circular, yellow spots in the margin, that enlarge, coalesce leading to drying of foliage. “Kresek” symptom is seen in seedlings, 1-2 weeks after transplanting. The bacteria enter through the cut wounds in the leaf tips, become systemic and cause death of entire seedling. Kresek symptom Leaf blight symptom In grown up plants water soaked, translucent lesions appear near the leaf margin. The lesions enlarge both in length and width with a wavy margin and turn straw yellow within a few days, covering the entire leaf. As the disease advances, the lesions cover the entire lamina which turns white or straw coloured. Milky or opaque dew drops containing bacterial masses are formed on young lesions in the early morning. They dry up on the surface leaving a white encrustation. The affected grains have discoloured spots. If the cut end of leaf is dipped in water, it becomes turbid because of bacterial ooze. Pathogen The bacterium is aerobic, gram negative, non spore forming, rod with size ranging from 1-2 x 0.8-1.0m with monotrichous polar flagellum. Bacterial colonies are circular, convex with entire margins, whitish yellow to straw yellow colored and opaque. Bacterium Favorable Conditions Clipping of tip of the seedling at the time of transplanting Heavy rain, heavy dew, flooding, deep irrigation water Severe wind and temperature of 25-30 C Application of excessive nitrogen, especially late top dressing Disease Cycle The infected seeds as a source of inoculum may not be important since the bacteria decrease rapidly and die in the course of seed soaking. The pathogen survives in soil and in the infected stubbles and on collateral hosts Leersia spp., Plantago najor, Paspalum dictum, and Cyanodon dactylon. The pathogen spreads through irrigation water and also through rain storms. Management Burn the stubbles. Use optimum dose of fertilizers. Avoid clipping of tip of seedling at the time of transplanting. Avoid flooded conditions. Remove weed hosts. Grow resistant cultivars IR 20 and TKM 6. Spray Streptomycin sulphate and tetracycline combination 300g + Copper oxychloride 1.25 Kg/ha. Bacterial leaf streak - Xanthomonas oryzae pv. oryzicola Symptoms Fine translucent streaks are formed on the veins and the lesions enlarge lengthwise and infect larger veins and turn brown. On the surface of the lesions, bacterial ooze out and form small yellow band-like exudates under humid conditions. In severe cases the leaves dry up. Management Burn the stubbles. Use optimum dose of fertilizers. Avoid clipping of tip of seedling at the time of transplanting. Avoid flooded conditions. Remove weed hosts. Grow resistant cultivars IR 20 and TKM 6. Spray Streptomycin sulphate and tetracycline combination 300g + Copper oxychloride 1.25 Kg/ha. Viral Diseases Rice Tungro Disease (RTD) - Rice tungro bacilliform virus (RTBV) and Rice tungro spherical virus (RTSV) Symptoms Infection occurs both in the nursery and main field. Plants are markedly stunted. Leaves show yellow to orange discoloration and interveinal chlorosis. Young leaves are sometimes mottled while rusty spots appear on older leaves. Tillering is reduced with poor root system. Panicles not formed in very early infection, if formed, remain small with few, deformed and chaffy grains. Symptoms Pathogen Two morphologically unrelated viruses present in phloem cells. Rice tungro bacilliform virus (RTBV) bacilliform capsid, circular ds DNA genome and Rice tungro spherical virus (RTSV) isometric capsid ss RNA genome. Disease Cycle Transmission mainly by the leaf hopper vector Nephotettix virescens Males, females and nymphs of the insect can transmit the disease. Both the particles are transmitted semi- persistently, in the vector the particles are noncirculative and nonpropagative. Plants infected with RTSV alone may be symptomless or exhibit only mild stunting. RTBV enhances the symptoms caused by RTSV. RTSV can be acquired from the infected plant independently of RTBV, but acquisition of RTBV is dependent on RTSV which acts as a helper virus. Both the viruses thrive in rice and several weed hosts which serve as source of inoculum for the next. Ratoon from infected rice stubble serve as reservoirs of the virus. Disease incidence depends on rice cultivars, time of planting, time of infection and presence of vectors and favorable weather conditions Management Field sanitation, removal of weed hosts of the virus and vectors. Grow disease tolerant cultivars like Pankhari203, BM66, BM68, Latisail, Ambemohar102, Kamod253, IR50 and Co45. Control the vectors in the nursery by application of Carbofuran 170 g/cent 10 days after sowing to control hoppers. Spray Phosphomidan 500 ml or Monocrotophos 1lit/ha (2 ml/litre) or Neem oil 3% or NSKE 5% to control the vector in the main field 15 and 30 days after transplanting. Set up light traps to monitor the vector population. Rice Grassy stunt disease - Rice grassy stunt tenuivirus Symptoms Plants are markedly stunted with excessive tillering and an erect growth habit. Leaves become narrow, pale green with small rusty spots. May produce a few small panicles which bear dark brown unfilled grains. Symptoms Pathogen Rice grassy stunt tenuivirus, flexuous, filamentous 950-1350nm long x 6nm wide, ssRNA genome Disease Cycle Disease spreads by the brown plant hopper, Nilaparvata lugens, in a persistent manner having a latent period of 5 to 28 days in the vector. Ratoon crop and presence of vector perpetuate the disease from one crop to other. Rice dwarf – Rice dwarf virus Symptoms Infected plants show stunted growth, reduced tillering and root system. Leaves show chlorotic specks turning to streaks along the veins. In early stage of infection no ear heads formed. Pathogen The virus is spherical, 70nm diameter with an envelope, dsRNA genome. Disease Cycle Spreads by leafhopper feeding by Nephotettix cincticeps, Recllia dorsalis and N. nigropictus in a persistent manner. The transmission is transovarial through eggs. Gramineous weeds Echinochloa crusgalli and Panicum miliaceaum serve as source of inoculum. Management Destory weed host that serve as source of inoculum Spray Phosphamidon or Fenthinon 500 ml or Monocrotophos 1 lit/ha. Rice ragged stunt disease – Rice ragged stunt virus Symptoms Formation of ragged leaves with irregular margins, vein swelling, enations on leaf veins may be formed Stunting of plants, delayed flowering, production of nodal branches and incomplete emergence of panicles. Symptoms Pathogen Spherical virus (Figivirus), 65 nm diameter, dsRNA genome Disease Cycle Spreads through brown planthopper, Nilaparvata lugens transmitted in a persistent manner. Multiplies in the vector, latent period of 3 to 35 days, but not transmitted congenitally Rice yellow dwarf disease – Rice yellow dwarf virus Symptoms Prominent stunting of plants and excessive tillering are the characteristic symptoms of the disease. Leaves yellowish green to whitish green, become soft and droop. Plants usually remain sterile but sometimes may produce small panicles with unfilled grains. Symptoms Pathogen Caused by a phytoplasma (rice yellow dwarf phytoplasma designated as a novel taxon, ‘Candidatus Phytoplasma oryzae’) Disease Cycle The disease is transmitted by leafhopper vectors Nephotettix sp. Nephotettix with a latent period of 25-30 days in the vector. The pathogen survives on several grass weeds. Management Deep ploughing during summer months and burning of stubbles. Rice varieties IR62 and IR64 are moderately resistant to the disease. The management practices followed for Rice Tungro disease holds good for this disease also.

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