Use of Pseudomonas fluorescens at different concentration to degrade Amillariella mellea
School Name
Spring Valley High School
Grade Level
11th Grade
Presentation Topic
Microbiology
Presentation Type
Non-Mentored
Abstract
Armillaria mellea, known for its annihilating root decay illness over different plant species, poses a critical danger to rural efficiency. Conventional control strategies have been inadequate, requiring investigation and exploration into arrangements. Pseudomonas fluorescens, known for its different metabolic capabilities and potential as a biocontrol specialist, develops as a promising candidate. This investigates the relationship between P. fluorescens and A. mellea refined together on agar plates. The theory sets that changed concentrations of P. fluorescens will influence the debasement of A. mellea in an unexpected way. To explore this, agar plates were arranged with A. mellea and treated with concentrations of P. fluorescens. Picture examination was taken some time recently and after treatment to evaluate development. The show that higher concentrations of P. fluorescens resulted in to a noteworthy decrease in parasitic colonies, illustrating its potential as a biocontrol operator against A. mellea. Measurable investigations affirmed the importance of the comes about, emphasizing the effect of bacterial concentration on parasitic development hindrance. Advance inquiry on delayed bacterial introduction impacts and the relationship between bacterial concentration and time for successful parasitic hindrance is justified. Furthermore, investigating diverse bacterial species and their adequacy against A. mellea in different situations may give important bits of knowledge. This thought highlights the potential of P. fluorescens as a biocontrol operator against A. mellea and underscores bacterial concentration in controlling parasitic development. Future examinations sought to dive more profound into optimizing bacterial concentrations and their transient impacts on contagious remediation for viable applications in horticulture. Since so many inferential tests were run the different conclusions about the data are harder to interpret.
Recommended Citation
Patel, Krish, "Use of Pseudomonas fluorescens at different concentration to degrade Amillariella mellea" (2024). South Carolina Junior Academy of Science. 510.
https://scholarexchange.furman.edu/scjas/2024/all/510
Location
RITA 387
Start Date
3-23-2024 12:00 PM
Presentation Format
Oral and Written
Group Project
No
Use of Pseudomonas fluorescens at different concentration to degrade Amillariella mellea
RITA 387
Armillaria mellea, known for its annihilating root decay illness over different plant species, poses a critical danger to rural efficiency. Conventional control strategies have been inadequate, requiring investigation and exploration into arrangements. Pseudomonas fluorescens, known for its different metabolic capabilities and potential as a biocontrol specialist, develops as a promising candidate. This investigates the relationship between P. fluorescens and A. mellea refined together on agar plates. The theory sets that changed concentrations of P. fluorescens will influence the debasement of A. mellea in an unexpected way. To explore this, agar plates were arranged with A. mellea and treated with concentrations of P. fluorescens. Picture examination was taken some time recently and after treatment to evaluate development. The show that higher concentrations of P. fluorescens resulted in to a noteworthy decrease in parasitic colonies, illustrating its potential as a biocontrol operator against A. mellea. Measurable investigations affirmed the importance of the comes about, emphasizing the effect of bacterial concentration on parasitic development hindrance. Advance inquiry on delayed bacterial introduction impacts and the relationship between bacterial concentration and time for successful parasitic hindrance is justified. Furthermore, investigating diverse bacterial species and their adequacy against A. mellea in different situations may give important bits of knowledge. This thought highlights the potential of P. fluorescens as a biocontrol operator against A. mellea and underscores bacterial concentration in controlling parasitic development. Future examinations sought to dive more profound into optimizing bacterial concentrations and their transient impacts on contagious remediation for viable applications in horticulture. Since so many inferential tests were run the different conclusions about the data are harder to interpret.
