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Year 2023, Volume: 7 Issue: 2, 127 - 136, 26.12.2023

Abstract

References

  • Aneez A. & Mohammad K. 2011. Enhanced degradation of phenol by Pseudomonas sp. CP4 entrapped in agar and calcium alginate beads in batch and continuous processes. Biodegradation. 22: 253-265. Briceño G., Fuentes M.S., Rubilar O., Jorquera M., Tortella G., Palma G., Amoroso M.J. & Diez M.C. 2015. Removal of the insecticide diazinon from liquid media by free and immobilized Streptomyces spp. isolated from agricultural soil. Journal of Basic Microbiology. 55 (3): 293-302. Chawla S., Patel D.J., Patel S.H., Kalasariya R.L. & Shah P.G. 2018. Behaviour and risk assessment of fluopyram and its metabolite in cucumber (Cucumis sativus) fruit and in soil. Environmental Science and Pollution Research. 25: 11626-11634.
  • Cruikshank R. 1972. Medical Microbiology 11th Ed., Livingstone, London, p: 356.
  • Dwivedi S., Singh B.R., Al-Khedhairy A.A. & Musarrat J. 2011. Biodegradation of isoproturon using a novel Pseudomonas aeruginosa strain JS-11 as a multi-functional bioinoculant of environmental significance. Journal of Hazardous Materials. 185: 938-94.
  • Fought L., Musson G.H., Bloomberg J.R. & Young H. 2009. Fluopyram-a new active ingredient from Bayer Cropscience. Phytopathology. 99: 36.
  • Grgić D.K., Bulatović V.O., Cvetnić M., Vučinić Z.D., Domanovac M.V., Markić M., Bolanča T. 2019. Biodegradation kinetics of diuron by Pseudomonas aeruginosa FN and optimizati on of biodegradation using response surface methodology. Water Environment Journal. 34: 61-73.
  • Luka Y., Highina B.K. & Zubairu A. 2018. Bioremediation: a solution to environmental pollution-a review. American Journal of Engineering Research and Reviews. 7(2):101-109.
  • Nasrollahi M., Pourbabaei A.A., Etesami H. & Talebi K. 2020. Diazinon degradation by bacterial endophytes in rice plant (Oryzia sativa L.): a possible reason for reducing the efficiency of diazinon in the control of the rice stem–borer. Chemosphere, 246: 125759.
  • Priyadarshanee M. & Das S. 2021. Biosorption and removal of toxic heavy metals by metal tolerating bacteria for bioremediation of metal contamination: A comprehensive review. Journal of Environmental Chemical Engineering. 9 (1): 104686.
  • Satapute P. & Kaliwal B. 2016. Biodegradation of the fungicide propiconazole by Pseudomonas aeruginosa PS-4 strain isolated from a paddy soil. Annual Microbiology, 66: 1355-1365.
  • Shabbir M., Singh M., Maiti S., Kumar S. and Saha S.K. (2018). Removal enactment of organo-phosphorous pesticide using bacteria isolated from domestic sewage. Bioresource Technology. 263: 280-288.
  • Zhao Q., Liu W., Li Y., Ke M., Qu Q., Yuan W., Pan X. & Qian H. 2020. Enantioselective effects of imazethapyr residues on Arabidopsis thaliana metabolic profile and phyllosphere microbial communities. Journal of Environmental Sciences – China, 93: 57-65.

Fungal Remediation of Nematocyte with Fluopyram Active Ingredient by P. frequantans and its Mortality Effect on D. magna

Year 2023, Volume: 7 Issue: 2, 127 - 136, 26.12.2023

Abstract

In this study, to understand the bioremediation efficiency of Penicilium frequantans soil fungus used as a useful tool for bioremediate a fluopyram nematocide with important environmental parameters such as chemical oxygen demand (COD) and total organic carbon (TOC) studied. Additionally, mortality tests were performed for treated and untreated media with D. magna to gain additional knowledge about the toxic effect of this pesticide after bioremediation step. According to the results of the study, P. frequantans performed high COD and TOC reduction rates of fluopyron nematocide as 90 % for both parameters in 6 and 7 days respectively. This means P. frequantans is a suitable tool for bioremediating this kind of nematocides. According to the D. magna mortality test results, TOC and COD values of pesticide dereeased, mortality rates increased by the reason of chemical structure and side products of pesticide.

References

  • Aneez A. & Mohammad K. 2011. Enhanced degradation of phenol by Pseudomonas sp. CP4 entrapped in agar and calcium alginate beads in batch and continuous processes. Biodegradation. 22: 253-265. Briceño G., Fuentes M.S., Rubilar O., Jorquera M., Tortella G., Palma G., Amoroso M.J. & Diez M.C. 2015. Removal of the insecticide diazinon from liquid media by free and immobilized Streptomyces spp. isolated from agricultural soil. Journal of Basic Microbiology. 55 (3): 293-302. Chawla S., Patel D.J., Patel S.H., Kalasariya R.L. & Shah P.G. 2018. Behaviour and risk assessment of fluopyram and its metabolite in cucumber (Cucumis sativus) fruit and in soil. Environmental Science and Pollution Research. 25: 11626-11634.
  • Cruikshank R. 1972. Medical Microbiology 11th Ed., Livingstone, London, p: 356.
  • Dwivedi S., Singh B.R., Al-Khedhairy A.A. & Musarrat J. 2011. Biodegradation of isoproturon using a novel Pseudomonas aeruginosa strain JS-11 as a multi-functional bioinoculant of environmental significance. Journal of Hazardous Materials. 185: 938-94.
  • Fought L., Musson G.H., Bloomberg J.R. & Young H. 2009. Fluopyram-a new active ingredient from Bayer Cropscience. Phytopathology. 99: 36.
  • Grgić D.K., Bulatović V.O., Cvetnić M., Vučinić Z.D., Domanovac M.V., Markić M., Bolanča T. 2019. Biodegradation kinetics of diuron by Pseudomonas aeruginosa FN and optimizati on of biodegradation using response surface methodology. Water Environment Journal. 34: 61-73.
  • Luka Y., Highina B.K. & Zubairu A. 2018. Bioremediation: a solution to environmental pollution-a review. American Journal of Engineering Research and Reviews. 7(2):101-109.
  • Nasrollahi M., Pourbabaei A.A., Etesami H. & Talebi K. 2020. Diazinon degradation by bacterial endophytes in rice plant (Oryzia sativa L.): a possible reason for reducing the efficiency of diazinon in the control of the rice stem–borer. Chemosphere, 246: 125759.
  • Priyadarshanee M. & Das S. 2021. Biosorption and removal of toxic heavy metals by metal tolerating bacteria for bioremediation of metal contamination: A comprehensive review. Journal of Environmental Chemical Engineering. 9 (1): 104686.
  • Satapute P. & Kaliwal B. 2016. Biodegradation of the fungicide propiconazole by Pseudomonas aeruginosa PS-4 strain isolated from a paddy soil. Annual Microbiology, 66: 1355-1365.
  • Shabbir M., Singh M., Maiti S., Kumar S. and Saha S.K. (2018). Removal enactment of organo-phosphorous pesticide using bacteria isolated from domestic sewage. Bioresource Technology. 263: 280-288.
  • Zhao Q., Liu W., Li Y., Ke M., Qu Q., Yuan W., Pan X. & Qian H. 2020. Enantioselective effects of imazethapyr residues on Arabidopsis thaliana metabolic profile and phyllosphere microbial communities. Journal of Environmental Sciences – China, 93: 57-65.
There are 11 citations in total.

Details

Primary Language English
Subjects Pollution and Contamination (Other)
Journal Section Articles
Authors

Gokhan Onder Erguven

Numan Yıldırım

Ibrahim Hakan Demırellı This is me

Barbaros Durmuş

Publication Date December 26, 2023
Published in Issue Year 2023 Volume: 7 Issue: 2

Cite

APA Erguven, G. O., Yıldırım, N., Demırellı, I. H., Durmuş, B. (2023). Fungal Remediation of Nematocyte with Fluopyram Active Ingredient by P. frequantans and its Mortality Effect on D. magna. Eurasian Journal of Agricultural Research, 7(2), 127-136.
AMA Erguven GO, Yıldırım N, Demırellı IH, Durmuş B. Fungal Remediation of Nematocyte with Fluopyram Active Ingredient by P. frequantans and its Mortality Effect on D. magna. EJAR. December 2023;7(2):127-136.
Chicago Erguven, Gokhan Onder, Numan Yıldırım, Ibrahim Hakan Demırellı, and Barbaros Durmuş. “Fungal Remediation of Nematocyte With Fluopyram Active Ingredient by P. Frequantans and Its Mortality Effect on D. Magna”. Eurasian Journal of Agricultural Research 7, no. 2 (December 2023): 127-36.
EndNote Erguven GO, Yıldırım N, Demırellı IH, Durmuş B (December 1, 2023) Fungal Remediation of Nematocyte with Fluopyram Active Ingredient by P. frequantans and its Mortality Effect on D. magna. Eurasian Journal of Agricultural Research 7 2 127–136.
IEEE G. O. Erguven, N. Yıldırım, I. H. Demırellı, and B. Durmuş, “Fungal Remediation of Nematocyte with Fluopyram Active Ingredient by P. frequantans and its Mortality Effect on D. magna”, EJAR, vol. 7, no. 2, pp. 127–136, 2023.
ISNAD Erguven, Gokhan Onder et al. “Fungal Remediation of Nematocyte With Fluopyram Active Ingredient by P. Frequantans and Its Mortality Effect on D. Magna”. Eurasian Journal of Agricultural Research 7/2 (December 2023), 127-136.
JAMA Erguven GO, Yıldırım N, Demırellı IH, Durmuş B. Fungal Remediation of Nematocyte with Fluopyram Active Ingredient by P. frequantans and its Mortality Effect on D. magna. EJAR. 2023;7:127–136.
MLA Erguven, Gokhan Onder et al. “Fungal Remediation of Nematocyte With Fluopyram Active Ingredient by P. Frequantans and Its Mortality Effect on D. Magna”. Eurasian Journal of Agricultural Research, vol. 7, no. 2, 2023, pp. 127-36.
Vancouver Erguven GO, Yıldırım N, Demırellı IH, Durmuş B. Fungal Remediation of Nematocyte with Fluopyram Active Ingredient by P. frequantans and its Mortality Effect on D. magna. EJAR. 2023;7(2):127-36.
Eurasian Journal of Agricultural Research (EJAR)   ISSN: 2636-8226   Web: https://dergipark.org.tr/en/pub/ejar   e-mail: agriculturalresearchjournal@gmail.com