Plasmodiophora brassicae in Its Environment: Effects of Temperature and Light on Resting Spore Survival in Soil
Clubroot caused by is an important disease on cruciferous crops worldwide. Management of clubroot is challenging, largely because of the millions of resting spores produced within an infected root that can survive dormant in the soil for many years. This study was conducted to investigate some of th...
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| Veröffentlicht in: | Phytopathology 2021-10, Vol.111 (10), p.1743-1750 |
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| creator | Zahr, Kher Sarkes, Alian Yang, Yalong Ahmed, Hafiz Zhou, Qixing Feindel, David Harding, Michael W Feng, Jie |
| description | Clubroot caused by
is an important disease on cruciferous crops worldwide. Management of clubroot is challenging, largely because of the millions of resting spores produced within an infected root that can survive dormant in the soil for many years. This study was conducted to investigate some of the environmental conditions that may affect the survival of resting spores in the soil. Soil samples containing clubroot resting spores (1 × 10
spores/g soil) were stored at various temperatures for 2 years. Additionally, other samples were buried in soil or kept on the soil surface in the field. The content of
DNA and the numbers of viable spores in the samples were assessed by quantitative PCR (qPCR) and pathogenicity bioassays, respectively. The results indicated that 4°C, 20°C, and being buried in the soil were more conductive conditions for spore survival than -20°C, 30°C, and at the soil surface. Most (99.99%) of the spores kept on the soil surface were nonviable, suggesting a negative effect of light on spore viability. Additional experiments confirmed the negative effect of ultraviolet light on spore viability because spores receiving 2 and 3 h ultraviolet light exhibited lower disease potential and contained less DNA content than the nontreated control. Finally, this work confirmed that DNA-based quantification methods such as qPCR can be poor predictors of
disease potential because of the presence and persistence of DNA from dead spores. |
| doi_str_mv | 10.1094/PHYTO-09-20-0415-R |
| format | Article |
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is an important disease on cruciferous crops worldwide. Management of clubroot is challenging, largely because of the millions of resting spores produced within an infected root that can survive dormant in the soil for many years. This study was conducted to investigate some of the environmental conditions that may affect the survival of resting spores in the soil. Soil samples containing clubroot resting spores (1 × 10
spores/g soil) were stored at various temperatures for 2 years. Additionally, other samples were buried in soil or kept on the soil surface in the field. The content of
DNA and the numbers of viable spores in the samples were assessed by quantitative PCR (qPCR) and pathogenicity bioassays, respectively. The results indicated that 4°C, 20°C, and being buried in the soil were more conductive conditions for spore survival than -20°C, 30°C, and at the soil surface. Most (99.99%) of the spores kept on the soil surface were nonviable, suggesting a negative effect of light on spore viability. Additional experiments confirmed the negative effect of ultraviolet light on spore viability because spores receiving 2 and 3 h ultraviolet light exhibited lower disease potential and contained less DNA content than the nontreated control. Finally, this work confirmed that DNA-based quantification methods such as qPCR can be poor predictors of
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is an important disease on cruciferous crops worldwide. Management of clubroot is challenging, largely because of the millions of resting spores produced within an infected root that can survive dormant in the soil for many years. This study was conducted to investigate some of the environmental conditions that may affect the survival of resting spores in the soil. Soil samples containing clubroot resting spores (1 × 10
spores/g soil) were stored at various temperatures for 2 years. Additionally, other samples were buried in soil or kept on the soil surface in the field. The content of
DNA and the numbers of viable spores in the samples were assessed by quantitative PCR (qPCR) and pathogenicity bioassays, respectively. The results indicated that 4°C, 20°C, and being buried in the soil were more conductive conditions for spore survival than -20°C, 30°C, and at the soil surface. Most (99.99%) of the spores kept on the soil surface were nonviable, suggesting a negative effect of light on spore viability. Additional experiments confirmed the negative effect of ultraviolet light on spore viability because spores receiving 2 and 3 h ultraviolet light exhibited lower disease potential and contained less DNA content than the nontreated control. Finally, this work confirmed that DNA-based quantification methods such as qPCR can be poor predictors of
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spores/g soil) were stored at various temperatures for 2 years. Additionally, other samples were buried in soil or kept on the soil surface in the field. The content of
DNA and the numbers of viable spores in the samples were assessed by quantitative PCR (qPCR) and pathogenicity bioassays, respectively. The results indicated that 4°C, 20°C, and being buried in the soil were more conductive conditions for spore survival than -20°C, 30°C, and at the soil surface. Most (99.99%) of the spores kept on the soil surface were nonviable, suggesting a negative effect of light on spore viability. Additional experiments confirmed the negative effect of ultraviolet light on spore viability because spores receiving 2 and 3 h ultraviolet light exhibited lower disease potential and contained less DNA content than the nontreated control. Finally, this work confirmed that DNA-based quantification methods such as qPCR can be poor predictors of
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| source | MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Alma/SFX Local Collection; American Phytopathological Society Journal Back Issues |
| subjects | Plant Diseases Plasmodiophorida Soil Spores Temperature |
| title | Plasmodiophora brassicae in Its Environment: Effects of Temperature and Light on Resting Spore Survival in Soil |
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