1 / 38

Diseases of Cucurbits

Diseases of Cucurbits. Types of Cucurbits Those grown in IL Production facts Etc. Diseases Covered. Watermelon fruit blotch Bacterial wilt Anthracnose Powdery mildew. Production of squash seed. Harvesting for seed. DISEASE: Watermelon Fruit Bloch.

louise
Download Presentation

Diseases of Cucurbits

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Diseases of Cucurbits • Types of Cucurbits • Those grown in IL • Production facts • Etc.

  2. Diseases Covered • Watermelon fruit blotch • Bacterial wilt • Anthracnose • Powdery mildew

  3. Production of squash seed

  4. Harvesting for seed

  5. DISEASE: Watermelon Fruit Bloch CROP: Watermelon, other cucurbits are hosts PATHOGEN: Acidovorax avenae subsp. Citrulli DISTRIBUTION: FL, SC, NC, MD, IN, LA PATHOGEN DESCRIPTION: Bacterium Gram-negative, straight rod, motile, peritrichous flagella.

  6. Disease Symptoms Foliage Infected transplants- dark, water-soaked areas on the underside of cotyledons and first leaves. Necrotic lesions may appear on the foliage. Young seedlings may develop lesions on the hypocotyl, causing eventual collapse and death. Disease symptoms on foliage in the growing season may not be obvious or confused with other diseases. Symptoms on transplants can go away, and return with symptoms on fruit!!!

  7. Disease Symptoms

  8. Disease Symptoms and Signs Fruit Begin as small, water-soaked areas (few millimeters in diameter), rapidly expand into larger lesions with irregular margins. The entire surface of the fruit may become covered with dark green, greasy-looking lesions. Older fruit lesions become necrotic and may crack. Whitish bacterial ooze may exude from the splits, later infected fruit will rot.

  9. Whitish ooze Disease Symptoms

  10. Disease Cycle

  11. Disease Development Introduced into fields with infested seed, infected transplants, natural spread via alternate host (wild cucurbits or volunteer watermelon). Infected transplants represent most important means of disease transmission – infected transplants may be asymptomatic – lead to high numbers entering a field. Warm, wet weather in May-June favors the bacterium and disease. Disease can develop quickly, 100% infection from just a few primary infection sites.

  12. Control of Fruit Blotch Prevention Avoid introduction of bacterium (pathogen-free seed) Inspection of seedlings and destroy suspicious flats Decontaminate if contact is made with infected plants Chemical Streptomycin (illegal, not labeled) is used in dire situations in the greenhouse to stop the spread of the pathogen

  13. Control of Fruit Blotch In the field: Culls and plant debris should be plowed under Rotate to new areas away from contaminated fields Choose less susceptible varieties Those with light green rinds = more susceptible Light and dark green striped= more resistant Solid dark green varieties are most resistant Bacterium moved by wind-driven rain or by mechanical means. Avoid contaminated fields when wet. Copper-based fungicides can reduce incidence of fruit symptoms.

  14. DISEASE: Bacterial Wilt CROP: Cucurbits PATHOGEN: Erwinia tracheiphila DISTRIBUTION: North America, Europe, Asia, Africa PATHOGEN DESCRIPTION: Bacterium Gram-negative, straight rod, motile, peritrichous flagella.

  15. Disease Symptoms and Signs Crops affected are mainly cucumber and cantaloupe, but also squash and pumpkin to a limited extent. Watermelon is not affected. Foliage wilts suddenly, frequently on a single runner at first, followed by wilting of the entire plant. Wilt is permanent. Bacteria are abundant in the vascular tissue and exude in white droplets from vascular bundles on cut stems. The viscous bacterial mass will 'string-out' when the cut ends of the stem are touched together.

  16. Bacterial wilt of cucurbits

  17. Bacterial wilt of cucurbits (pumpkin)

  18. Conditions for Disease Development: The pathogen survives for extended periods in its cucumber beetle vectors. It is transmitted by the striped beetle, Acalymma sp. and the spotted beetle, Diabrotica sp.; therefore, conditions conducive to development of the vectors favor the occurrence of the disease.

  19. Control Measures: Rogue diseased plants to prevent secondary spread of the pathogen. Control cucumber beetles with insecticides. Some cultivars are more tolerant than others, if available they should be used.

  20. DISEASE: Anthracnose CROP: Cucurbits PATHOGEN: Colletotrichum lagenarium (imperfect (asexual) stage): Glomerella cingulata var. orbiculare (sexual stage) DISTRIBUTION: Worldwide

  21. Pathogen Description: Fungus Cylindrical, hyaline conidia arc produced on lesions in pinkish masses in acervuli also bearing two to three septate, brown setae.

  22. Pathogen Description: Fungus Formation of appresorium Two-celled conidium

  23. Disease Symptoms and Signs The disease is particularly damaging to watermelon, cucumber, and cantaloupe, but also may occur on most other cucurbit crops. On cucumber and cantaloupe, leaf lesions are circular and brown up to 1 cm in diameter, while on watermelon the leaf lesions arc black and somewhat smaller. Petiole and stem lesions arc elliptical in shape and sunken. Fruit lesions appear at or near maturity as water-soaked spots that develop into sunken, circular lesions lined with dark fungal stroma bearing masses of pink spores.

  24. Anthracnose of cucurbits cucumber watermelon

  25. Anthracnose of cucurbits (watermelon) Sunken lesions with pink/salmon colored sporulation

  26. Disease Cycle Pathogen persists in crop debris, seedborne and may survive on volunteer plants or cucurbit weeds Conidia are the main means of in-field spread and are dispersed by watersplash and wind blown rain.

  27. Control • Cultural • Use commercially produced, disease-free seed. • 2. Rotate vine crops with unrelated crops in a three-year rotation. • 3. Practice good sanitation by plowing under fruits and vines at the • end of the season. • 4. Choose anthracnose-resistant varieties if at all possible. Resistant cucumber slicers include Dasher II and Slicemaster. Many pickling cucumbers are tolerant or resistant, including Score and Premier. Resistant watermelon varieties include Charleston Gray, Crimson Sweet, and Dixie Lee.

  28. Control FungicidesApply approved fungicides to the crop at regular intervals, more often if frequent rains occur. Among fungicides available are chlorothalonil (Bravo), benomyl (Benlate), and maneb and mancozeb formulations. An effective spray treatment has been the combination of Bravo with Benlate or mancozeb. If angular leaf spot should be a problem, substitute a copper compound for Benlate in the combination.

  29. Powdery Mildew

  30. Powdery Mildew • Pathogen: Erysiphe cichoracearum, Sphaerotheca fuliginea • Cylindrical, hyaline conidia are produced in chains on conidiophores that arise from surface mycelial growth.

  31. Symptoms and Signs

  32. Signs of the Pathogen

  33. Symptoms and Signs: All cucurbits are susceptible to powdery mildew Symptoms appear first as pale yellow spots on leaves and stems Sporulation becomes evident as white powdery masses of conidia are produced over the lesion surface Leaves and stems become chlorotic, then turn brown and dry prematurely.

  34. Conditions for Disease Development The pathogens are obligate parasites and can persist on wild cucurbits or crop plants Disease development can occur over a wide range of temperatures as long as there sufficient moisture for spore germination and infection. These conditions can be provided by high relative humidity or dew formation in the absence of rainfall. Inoculum is airborne for long distances

  35. Control Strategies Avoid crowding of plants Resistant cultivars of many crops available, pumpkin is exception Fungicide sprays are available, but may not be cost effective Sanitation and practices that avoid lush growth help to delay spread

More Related