| Cercospora beticola | |
|---|---|
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| Cercospora beticola on sugarbeets | |
Scientific classification | |
| Domain: | Eukaryota |
| Kingdom: | Fungi |
| Division: | Ascomycota |
| Class: | Dothideomycetes |
| Order: | Capnodiales |
| Family: | Mycosphaerellaceae |
| Genus: | Cercospora |
| Species: | C. beticola |
| Binomial name | |
| Cercospora beticola Sacc., (1876) | |
Cercospora beticola is afungal plant pathogen which typically infects plants of the genusBeta, within the family ofChenopodiaceae. It is the cause of Cercospora leaf spot disease in sugar beets, spinach and swiss chard. Of these hosts, Cercospora leaf spot is the most economically impactful in sugar beets (Beta vulgaris).Cercospora beticola is a deuteromycete fungus that reproduces using conidia. There is no teleomorph stage.C. beticola is a hemibiotrophic fungus that uses phytotoxins specificallyCercospora beticola toxin (CBT) to kill infected plants. CBT causes the leaf spot symptom and prevents root formation. Yield losses from Cercospora leaf spot are around 20 percent.[1][2][3][4]
Hosts ofCercospora beticola include sugar beets (Beta vulgaris),swiss chard (Beta vulgaris L. subsp.cicla) and other leafy greens. Symptoms include the random distribution of spots with brownish red rings which eventually cause leaf collapse. Older leaves will have spots of larger diameters as rings grow outward. Conidia are not observable by the unaided eye[1][2][5]
Stromata (a sclerotia-like survival structure containing conidia when made) in field debris starts the life cycle. Under favorable wet conditions, conidia are rain-splashed and insect-carried to new hosts, where, under humid and wet conditions, they germinate and penetrate through stomata. These conidia germinate in polycyclic microcycles until the end of the growing season. At the end of the growing season,C. beticola produces stromata again as a survival structure. Microcycles like the one used byC. beticola are very effective at producing many conidia. Because these conidia are effective at penetrating the host, mycelium is not necessary, and conidia produce their own conidia at each new infection (microcycle). There have been no direct observations of sexual spores in C. beticola.[1][2][6][7]
Copper was historically used to controlC. beticola in the field, though today fungicides are more common.C. beticola has been shown to have some resistance to benzimidazole and thiophanate class fungicides. As a result, experts often have recommended fungicide rotation to kill any potential fungicide resistant strains. Some varieties of sugar beet also show resistance toC. beticola, unfortunately they have all had low yields in lab tests. Today the most common fungicides used are QoI, Headline, Proline, Inspire SB, Eminent and Super Tin or Agri Tin[1][2][8]
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