Welcome
HIGHLIGHTS
•Introduction
•Major diseases of chilli
•Symptoms
•Etiology
•Disease cycle
•Management
•Conclusion
Introduction:
 Chilli (Capsicum annum L. and Capsicum frutencens) belongs to the
  family Solanaceae and genus capsicum.
 Andhra Pradesh has been leading both in area and production
  contributing on an average of 25% of the total area and over 40-50%
  of the total production.
 India has emerged today as the foremost producer and exporter of
  chilies contributing to almost one forth of world production. India
  ranks first in export of chilies but is only 2.5 to 3 per cent of the total
  production.
 Chilli is grown in tropical as well as in temperate zones.
 It is widely used in the manufacture of curry powder, curry paste
  and all kinds of pickles and preparing soups and salads etc. the
  pungency in chillies due to an alkaloid ‘capsium’.
 A major contributor to this lower productivity are various disease,
  which are damping off, anthracnose, bacterial leaf spot ad leaf curl
  of chillies.
Major fungal, bacterial and viral
diseases of chilli and their causal
organism:
1. Damping off           Pythium spp.



2. Anthracnose           Colletotrichum capsici



3. Bacterial leaf spot   Xanthomonas campestris pv. Vesicatoria



4. Leaf curl             Tobacco leaf curl virus
Some minor fungal and viral
diseases of chilli and their causal
organism:
1. Phytophthora              Phytophthora capsici


2. Alternaria blight         Alternaria capsici


3. Leaf spot of chilli       Cercospora capsici


4. Fusarium wilt of chilli   Fusarium annum


5. Frog eye leaf spot        Cercospora spp.


6. Chilli mosaic             CMV- Cucumber mosaic virus
Damping off of chilli:
 This disease prevalently occurs and greatly damages many plants such as
    chilli, tomato and brinjal belonging to family Solanaceae in India.
   Symptoms:
   Symptoms of this disease generally manifest at two stages: Pre-emergence
    stage and post emergence stage.
   Pre-emergence stage symptoms occur when the seeds sown are still to grow
    in soil or the developing seedlings are still to come over the soil surface.
   Seed generally fail to germinate, become soft and mushy then term brown,
    shrink and finally degenerate.
   Post-emergence stage symptoms occur when the seedlings are out on the
    surface of the soil.
   The pathogen attacks the young tissues at or below the ground level. The
    infected tissues become discoloured, water soaked and soon collaps.
   The infected part of the seedlings looks much thinner and softer than healthy
    part. The pathogen continues to invade the seedling tissues after it has fallen
    on the ground and seedling quickly withers and dies.
Etiology:
 Disease caused by Pythium spp. (Pythium ultimum, P.
    debaryanum, P. aphanidermatum).
   The mycelium is colourless, slender, coenocytic, profusely
    branching and rapidly growing.
   Mycelium produces terminal or intercalary sporangia,
    which and globose to oval.
   The zoospores are produced within a vesicle.
   Zoospores are – rainform and biflagellate.
   The size of resting zoospores is up to 8 μm in diameter.
   Sexual spores are oospores, the oospore develops into a
    smooth and thick walled oospore which is aplirotic. It
    measure 12-20 μm.
Disease cycle:
Anthracnose, Die-back and Ripe
  fruit rot of chilies
 This disease is one of the most serious disease of
  chillies. It occurs throughout India wherever the crop
  is grown but it prevailing causes severe damage in
  southern part of our country.
 Symptoms:
 The pathogen cause two different type of symptoms
  on two different parts of the host.
Die back:
 The disease cause necrosis of the tender twigs from
  the tip back wards.
 The entire branch or the entire top of the plant may
  wither away.
 The twigs are water soaked to brown, become grayish
  white or straw coloured in advance stage of the
  disease.
 Large number of black dots called acervvli are formed
  on the affected twigs.
Ripe fruit rot:
 The disease usually occurs on mature fruits as circular
  to elliptical sunken spots with black margins and
  marketed with concentric ring.
 Badly diseased fruits turn straw coloured from normal
  red.
 On this discoloured area, numerous black dots
  (acervuli) are present. The diseased fruit may drop off
  prematurely.
Etiology:
 Disease caused by Colletotrichum capsici.
 Mycelium septate, colourless and inter and intracellular.
 Hyphae develop the fruiting body called acervuli.
 Acervuli consists of setae, conidiophore and conidia.
 The setae are septate and dark brown with light brown tip.
 Conidiophores are mostly club-shaped, unbranched, small
  and unicellular.
 The conidia are hyaline, unicellular, sickle shaped and are
  produced singly at the tip of the conidiophore.
Bacterial spots of chillies:
 This is a major disease of chillies in tropical and subtropical
    climates. This appears on leaves and fruits. In Rajasthan the
    disease cause 8-16% loss in yield of fruits.
   Symptoms:
   On leaves, the first indication of the disease is appear of small,
    circular to irregular, water soaked area which appear as definite
    spots on the lower surface of the leaf.
   As the colour change from dark green to purplish grey with a
    black center.
   A narrow yellow halo may surrounded the spot.
   In the wet weather, the leaves may look scalded.
   When the spots are too many, the intervening tissues become
    dry and brown and the whole leaf dies.
Etiology:

 Disease caused by Xanthomonas campestris pv.
    vesicatoria.
   The bacterial cells are single, straight rods, 0.2-0.8 x
    0.6-2.0 μm in size.
   They are gram negative and motile by a single polar
    flagellum.
   These bacteria are strict aerobes and optimum
    temperature for growth is 250-27 0C.
   In culture media production of copious amount of
    extracellular yellow slime is a characteristic of the genus,
    this yellow pigment produced by the bacterium is water
    soluble.
Disease cycle:

 Xanthomonas vesicatoria is seed borne bacteria. 10 to
 15% seeds carry the bacteria which is enough to
 initiate the disease through seedling. The bacterium
 also subsists on infected plant debris, weeds and
 volunteer tomato plants. Spattering rains are the chief
 means of local dissemination of bacterial cells from
 the ooze developed on the affected parts. The bacteria
 are also readily spread throughout the chilli. Fields
 during routine farming such as pruning of potato side
 shoots, manual tying of plant to stakes and movement
 of equipments and workers having come in contact
 with diseased plants.
Leaf curl of chilli:

 The leaf curl of chilies is very common wherever the
  crop is grown. It is a major imitation in successful
  cultivation of both hot and bell paper.
 Symptom:
 The most characteristic symptoms are the curling of
  leaves, their small size, shortened internodes and
  general dwarfing of the plant which assumes a bushy
  appearance.
 Leaves are of pale (light yellow) colour and roll
  downwards. Fruiting is stopped, if fruits are formed,
  they are small and deformed.
 Causal agent: Tobacco leaf curl (TLCV) virus
 The genome consist of a simple circular ssDNA.
 Whereas the genome of the other known white fly
  transmitted Gemini viruses consists of two ssDNA.
 Gemini particles are paired and polyhedral. The member
  of this group are found predominantly in tropical area.
 Transmission:
 The disease is transmitted by white fly, Bemisia tabaci.
  This vector spread the maximum disease during the
  month of August to October. The vector acquires the virus
  after feeding on an infected plant for at least 15 to 30
  minutes. There is a latent period of several hours (more
  than 20 hours) after which the virus can be inoculated into
  a healthy plant.
Integrated disease management
of chilli:
 Integrated of following practices manage the diseases
  effectively economically and in a most environment
  friendly manner.
 Cultural practices:
 Field sanitation:
 Collect and burn the infected plant debris of chilli and
  other malformed plant parts lying in the field post-
  harvest to reduce the primary source of inoculum.
  Destroy self-grown solanaceous plant, other volunteer
  plants from the field and surrounding areas.
Deep ploughing:
 Post-harvest, plough the left-over inoculum deep into the soil.
 Practice summer ploughing to expose the pathogenic material lying beneath
    the soil surface to hot sun. Solarize soil wherever possible.
   Cropping system:
   Follow crop rotation.
   Avoid growing of two solanaceous crop in a single year in or around the same
    field.
   Seed:
   Use certified seed of varieties for different areas.
   Seeds obtained from a disease free crop.
   Seed treatment with Bavistin or Agrosan GN @ 2g/kg of seeds for damping off
    of chillies.
   Treat the seed with 2g of Thiram per kg of seeds before sowing for
    Anthracnose of chillies.
   Sowing:
   Thin sowing to avoid over crowding, ………. light sandy soil for nurseries or use
    of pure time sand sawdust mixture for raising seedlings.
   Under well drained conditions seedling can be transplanted into loam soil
    also.
Nutrition:
 Get the soil tested for its nutritional status. Apply fully decomposed FYM or
    compost to balance the nutrient supply. Add NPK fertilizer where necessary
    to make up for a 90:60:60 kg/ha.
   Thinning and weeding:
   Weeds serve carriers of plant pathogens and high plant density favour
    development. Remove the weeds once before and then after the irrigation.
    Rouge out the mixture and stray diseased plant as their serve as foci of
    infection.
   Irrigation:
   Provide only need-based light irrigations, high humidity and frequent
    irrigations favour disease development.
   Varietal:
   Use high yielding varieties recently released for different regions with
    tolerance to specific regional disease as no resistant/tolerant varieties have
    been released for the entire country.
   Resistant/tolerant genotypes . Resistant/tolerant genotypes against major
    diseases: G-4, G-5, Pusa Jwala, Pant C-1, NP-46 and JCA 196.
 Chemical:
 Chemical treatment with fungicides provides good control
    of pre-emergence of damping off. The common seed
    protectants are use for seed treatment such as Thiram or
    Captan @ 3g/kg of seeds for the better control of Damping
    off.
   Soil drenching with Camptan or Thiram @ 0.2-0.5%.
   For the management of Anthracnose chilli-Spray of captafol
    @ 0.2% followed by copper oxichloride @ 0.25% and
    Carbendazim @ 0.1%, two spray at 10-15 days interval, 35-45
    days after transplanting.
   Seed treatment with Agronsan GN @ 2.5g/kg of seeds and
    Ceresan @ 2.5 g/kg of seeds were used for bacterial leaf spot
    of chilli.
   Protect the crop in nursery bed from insect vectors (white
    fly) by spraying Metasystox or Rogor @ 1 ml/litre of water at
    10 days interval.
Conclusions:
 The cultivated chilli suffers from number of fungal,
    bacterial and viral disease.
   Among the fungal diseases damping off and anthracnose
    are the major devastating diseases causing considerable
    yield loss.
   Environmental play an effective role for development of
    these diseases.
   Disease perpetuate through plant debris in soil, special
    fruiting body, volunteer host and weeds year to year.
   The disease can be managed effectively and eco-friendly
    by cultural practices and applying economic chemicals.

Major diseases of chilli

  • 1.
  • 2.
    HIGHLIGHTS •Introduction •Major diseases ofchilli •Symptoms •Etiology •Disease cycle •Management •Conclusion
  • 3.
    Introduction:  Chilli (Capsicumannum L. and Capsicum frutencens) belongs to the family Solanaceae and genus capsicum.  Andhra Pradesh has been leading both in area and production contributing on an average of 25% of the total area and over 40-50% of the total production.  India has emerged today as the foremost producer and exporter of chilies contributing to almost one forth of world production. India ranks first in export of chilies but is only 2.5 to 3 per cent of the total production.  Chilli is grown in tropical as well as in temperate zones.  It is widely used in the manufacture of curry powder, curry paste and all kinds of pickles and preparing soups and salads etc. the pungency in chillies due to an alkaloid ‘capsium’.  A major contributor to this lower productivity are various disease, which are damping off, anthracnose, bacterial leaf spot ad leaf curl of chillies.
  • 4.
    Major fungal, bacterialand viral diseases of chilli and their causal organism: 1. Damping off Pythium spp. 2. Anthracnose Colletotrichum capsici 3. Bacterial leaf spot Xanthomonas campestris pv. Vesicatoria 4. Leaf curl Tobacco leaf curl virus
  • 5.
    Some minor fungaland viral diseases of chilli and their causal organism: 1. Phytophthora Phytophthora capsici 2. Alternaria blight Alternaria capsici 3. Leaf spot of chilli Cercospora capsici 4. Fusarium wilt of chilli Fusarium annum 5. Frog eye leaf spot Cercospora spp. 6. Chilli mosaic CMV- Cucumber mosaic virus
  • 6.
    Damping off ofchilli:  This disease prevalently occurs and greatly damages many plants such as chilli, tomato and brinjal belonging to family Solanaceae in India.  Symptoms:  Symptoms of this disease generally manifest at two stages: Pre-emergence stage and post emergence stage.  Pre-emergence stage symptoms occur when the seeds sown are still to grow in soil or the developing seedlings are still to come over the soil surface.  Seed generally fail to germinate, become soft and mushy then term brown, shrink and finally degenerate.  Post-emergence stage symptoms occur when the seedlings are out on the surface of the soil.  The pathogen attacks the young tissues at or below the ground level. The infected tissues become discoloured, water soaked and soon collaps.  The infected part of the seedlings looks much thinner and softer than healthy part. The pathogen continues to invade the seedling tissues after it has fallen on the ground and seedling quickly withers and dies.
  • 7.
    Etiology:  Disease causedby Pythium spp. (Pythium ultimum, P. debaryanum, P. aphanidermatum).  The mycelium is colourless, slender, coenocytic, profusely branching and rapidly growing.  Mycelium produces terminal or intercalary sporangia, which and globose to oval.  The zoospores are produced within a vesicle.  Zoospores are – rainform and biflagellate.  The size of resting zoospores is up to 8 μm in diameter.  Sexual spores are oospores, the oospore develops into a smooth and thick walled oospore which is aplirotic. It measure 12-20 μm.
  • 8.
  • 9.
    Anthracnose, Die-back andRipe fruit rot of chilies  This disease is one of the most serious disease of chillies. It occurs throughout India wherever the crop is grown but it prevailing causes severe damage in southern part of our country.  Symptoms:  The pathogen cause two different type of symptoms on two different parts of the host.
  • 10.
    Die back:  Thedisease cause necrosis of the tender twigs from the tip back wards.  The entire branch or the entire top of the plant may wither away.  The twigs are water soaked to brown, become grayish white or straw coloured in advance stage of the disease.  Large number of black dots called acervvli are formed on the affected twigs.
  • 11.
    Ripe fruit rot: The disease usually occurs on mature fruits as circular to elliptical sunken spots with black margins and marketed with concentric ring.  Badly diseased fruits turn straw coloured from normal red.  On this discoloured area, numerous black dots (acervuli) are present. The diseased fruit may drop off prematurely.
  • 12.
    Etiology:  Disease causedby Colletotrichum capsici.  Mycelium septate, colourless and inter and intracellular.  Hyphae develop the fruiting body called acervuli.  Acervuli consists of setae, conidiophore and conidia.  The setae are septate and dark brown with light brown tip.  Conidiophores are mostly club-shaped, unbranched, small and unicellular.  The conidia are hyaline, unicellular, sickle shaped and are produced singly at the tip of the conidiophore.
  • 13.
    Bacterial spots ofchillies:  This is a major disease of chillies in tropical and subtropical climates. This appears on leaves and fruits. In Rajasthan the disease cause 8-16% loss in yield of fruits.  Symptoms:  On leaves, the first indication of the disease is appear of small, circular to irregular, water soaked area which appear as definite spots on the lower surface of the leaf.  As the colour change from dark green to purplish grey with a black center.  A narrow yellow halo may surrounded the spot.  In the wet weather, the leaves may look scalded.  When the spots are too many, the intervening tissues become dry and brown and the whole leaf dies.
  • 14.
    Etiology:  Disease causedby Xanthomonas campestris pv. vesicatoria.  The bacterial cells are single, straight rods, 0.2-0.8 x 0.6-2.0 μm in size.  They are gram negative and motile by a single polar flagellum.  These bacteria are strict aerobes and optimum temperature for growth is 250-27 0C.  In culture media production of copious amount of extracellular yellow slime is a characteristic of the genus, this yellow pigment produced by the bacterium is water soluble.
  • 15.
    Disease cycle:  Xanthomonasvesicatoria is seed borne bacteria. 10 to 15% seeds carry the bacteria which is enough to initiate the disease through seedling. The bacterium also subsists on infected plant debris, weeds and volunteer tomato plants. Spattering rains are the chief means of local dissemination of bacterial cells from the ooze developed on the affected parts. The bacteria are also readily spread throughout the chilli. Fields during routine farming such as pruning of potato side shoots, manual tying of plant to stakes and movement of equipments and workers having come in contact with diseased plants.
  • 16.
    Leaf curl ofchilli:  The leaf curl of chilies is very common wherever the crop is grown. It is a major imitation in successful cultivation of both hot and bell paper.  Symptom:  The most characteristic symptoms are the curling of leaves, their small size, shortened internodes and general dwarfing of the plant which assumes a bushy appearance.  Leaves are of pale (light yellow) colour and roll downwards. Fruiting is stopped, if fruits are formed, they are small and deformed.
  • 17.
     Causal agent:Tobacco leaf curl (TLCV) virus  The genome consist of a simple circular ssDNA.  Whereas the genome of the other known white fly transmitted Gemini viruses consists of two ssDNA.  Gemini particles are paired and polyhedral. The member of this group are found predominantly in tropical area.  Transmission:  The disease is transmitted by white fly, Bemisia tabaci. This vector spread the maximum disease during the month of August to October. The vector acquires the virus after feeding on an infected plant for at least 15 to 30 minutes. There is a latent period of several hours (more than 20 hours) after which the virus can be inoculated into a healthy plant.
  • 18.
    Integrated disease management ofchilli:  Integrated of following practices manage the diseases effectively economically and in a most environment friendly manner.  Cultural practices:  Field sanitation:  Collect and burn the infected plant debris of chilli and other malformed plant parts lying in the field post- harvest to reduce the primary source of inoculum. Destroy self-grown solanaceous plant, other volunteer plants from the field and surrounding areas.
  • 19.
    Deep ploughing:  Post-harvest,plough the left-over inoculum deep into the soil.  Practice summer ploughing to expose the pathogenic material lying beneath the soil surface to hot sun. Solarize soil wherever possible.  Cropping system:  Follow crop rotation.  Avoid growing of two solanaceous crop in a single year in or around the same field.  Seed:  Use certified seed of varieties for different areas.  Seeds obtained from a disease free crop.  Seed treatment with Bavistin or Agrosan GN @ 2g/kg of seeds for damping off of chillies.  Treat the seed with 2g of Thiram per kg of seeds before sowing for Anthracnose of chillies.  Sowing:  Thin sowing to avoid over crowding, ………. light sandy soil for nurseries or use of pure time sand sawdust mixture for raising seedlings.  Under well drained conditions seedling can be transplanted into loam soil also.
  • 20.
    Nutrition:  Get thesoil tested for its nutritional status. Apply fully decomposed FYM or compost to balance the nutrient supply. Add NPK fertilizer where necessary to make up for a 90:60:60 kg/ha.  Thinning and weeding:  Weeds serve carriers of plant pathogens and high plant density favour development. Remove the weeds once before and then after the irrigation. Rouge out the mixture and stray diseased plant as their serve as foci of infection.  Irrigation:  Provide only need-based light irrigations, high humidity and frequent irrigations favour disease development.  Varietal:  Use high yielding varieties recently released for different regions with tolerance to specific regional disease as no resistant/tolerant varieties have been released for the entire country.  Resistant/tolerant genotypes . Resistant/tolerant genotypes against major diseases: G-4, G-5, Pusa Jwala, Pant C-1, NP-46 and JCA 196.
  • 21.
     Chemical:  Chemicaltreatment with fungicides provides good control of pre-emergence of damping off. The common seed protectants are use for seed treatment such as Thiram or Captan @ 3g/kg of seeds for the better control of Damping off.  Soil drenching with Camptan or Thiram @ 0.2-0.5%.  For the management of Anthracnose chilli-Spray of captafol @ 0.2% followed by copper oxichloride @ 0.25% and Carbendazim @ 0.1%, two spray at 10-15 days interval, 35-45 days after transplanting.  Seed treatment with Agronsan GN @ 2.5g/kg of seeds and Ceresan @ 2.5 g/kg of seeds were used for bacterial leaf spot of chilli.  Protect the crop in nursery bed from insect vectors (white fly) by spraying Metasystox or Rogor @ 1 ml/litre of water at 10 days interval.
  • 22.
    Conclusions:  The cultivatedchilli suffers from number of fungal, bacterial and viral disease.  Among the fungal diseases damping off and anthracnose are the major devastating diseases causing considerable yield loss.  Environmental play an effective role for development of these diseases.  Disease perpetuate through plant debris in soil, special fruiting body, volunteer host and weeds year to year.  The disease can be managed effectively and eco-friendly by cultural practices and applying economic chemicals.