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Year 2024, Volume: 13 Issue: 2, 161 - 166, 29.03.2024

Rumyana Georgieva Siegrid Steinkellner Ivan Manolov Paul John M. Pangilinan Kwayela Sama Desmond

https://doi.org/10.18393/ejss.1424508

Abstract

References

  • Abdel-Salam, E., Alatar, A., El-Sheikh, M.A., 2018. Inoculation with arbuscular mycorrhizal fungi alleviates harmful effects of drought stress on damask rose. Saudi Journal of Biological Sciences 25(8): 1772-1780.
  • Begum, N., Qin, C., Ahanger, M. A., Raza, S., Khan, M. I., Ashraf, M., Ahmed, N., Zhang, L., 2019. Role of Arbuscular mycorrhizal fungi in plant growth regulation: Implications in abiotic stress tolerance. Frontiers in Plant Science 10: 466052.
  • Betancur-Agudelo, M., Meyer, E., Lovato, P.E., 2021. Arbuscular mycorrhizal fungus richness in the soil and root colonization in vineyards of different ages. Rhizosphere 17: 100307.
  • Bharadwaj, A., Sharma, S. 2006. Biocontrol of Meloidogyne incognita in Lycopersicon esculentum with AM fungi and oil cakes. Plant Pathology Journal 5: 166-172.
  • Chalova, V.I., Manolov, I.G., Manolova, V.S., 2017. Challenges for commercial organic production of oil-bearing rose in Bulgaria. Biological Agriculture & Horticulture 33: 1-12.
  • Gamage, A., Gangahagedara, R., Gamage, J., Jayasinghe, N., Kodikara, N., Suraweera, P., Merah, O., 2023. Role of organic farming for achieving sustainability in agriculture. Farming System 1(1): 100005.
  • Giovanetti, M., Mosse, B., 1980. An evaluation of techniques for measuring vesicular arbuscular mycorrhizal infection in roots. New Phytologist 84(3): 489-500.
  • Gopal, M., Gupta, A., Arunachalam, V., Magu, S.P., 2007. Impact of azadirachtin, an insecticidal allelochemical from neem on soil microflora, enzyme and respiratory activities. Bioresource Technology 98(16): 3154-3158.
  • Gosling, P., Hodge, A., Goodlass, G., Bending, G.D., 2006. Arbuscular mycorrhizal fungi and organic farming. Agriculture, Ecosystems & Environment 113(1-4): 17-35.
  • Hage-Ahmed, K., Rosner, K., Steinkellner, S., 2019. Arbuscular mycorrhizal fungi and their response to pesticides. Pest Management Science 75(3): 583-590.
  • Ipsilantis, I., Samourelis, C., Karpouzas, D.G., 2012. The impact of biological pesticides on arbuscular mycorrhizal fungi. Soil Biology & Biochemistry 45: 147-155.
  • Jian, Y., Chen, X., Ma, H., Zhang, C., Luo, Y., Jiang, J., Yin, Y., 2023. Limonene formulation exhibited potential application in the control of mycelial growth and deoxynivalenol production in Fusarium graminearum. Frontiers in Microbiology 14: 1161244.
  • Kilani-Morakchi, S., Morakchi-Goudjil, H., Karima, S., 2021. Azadirachtin-based insecticide: Overview, risk assessments, and future directions. Frontiers in Agronomy 3: 676208.
  • Ministry of Agriculture, 2022. Annual Report on the State and Development of Agriculture – Bulgaria Ministry of Agriculture Report 2022. Bulgaria
  • Mosquera-Vivas, C.S., Celis-Ossa, R.E., González-Murillo, C.A., Obregón-Neira, N., Martínez-Cordón, M.J., Guerrero-Dallos, J.A., García-Santos, G., 2023. Empirical model to assess leaching of pesticides in soil under a steady-state flow and tropical conditions. International Journal of Environmental Science and Technology 21: 1301–1320.
  • Nadeem, S.M., Ahmad, M., Zahir, Z.A., Javaid, A., Ashraf, M., 2014. The role of mycorrhizae and plant growth promoting rhizobacteria (PGPR) in improving crop productivity under stressful environments. Biotechnology Advances 32(2): 429-448.
  • Nencheva, V., Tineva, N., 2021. Bulgarian rose oil industry-challenges and motors of growth. Proceedings; Industrial Growth Conference 2020. University of National and World Economy, Sofia, Bulgaria.
  • Newman, E.I., 1966. A method of estimating the total length of root in a sample. Journal of Applied Ecology 3(1): 139-145.
  • Phillips, J.M., Hayman, D.S., 1970. Improved procedures for clearing roots and staining parasitic and vesicular-arbuscular mycorrhizal fungi for rapid assessment of infection. Transactions of the British Mycological Society 5(1): 158-161.
  • Schweiger, P.F., Jakobsen, I., 1997. Dose–response relationships between four pesticides and phosphorus uptake by hyphae of arbuscular mycorrhizas. Soil Biology and Biochemistry 30(10-11): 1415-1422.
  • Schweiger, P.F., Spliid, N.H., Jakobsen, I., 2001. Fungicide application and phosphorus uptake by hyphae of arbuscular mycorrhizal fungi into field-grown peas. Soil Biology and Biochemistry 33(9): 1231-1237.
  • Slepetiene, A., Ceseviciene, J., Amaleviciute‐Volunge, K., Mankeviciene, A., Parasotas, I., Skersiene, A., Jurgutis, L., Volungevicius, J., Veteikis, D., Mockeviciene, I., 2023. Solid and liquid phases of anaerobic digestate for sustainable use of agricultural soil. Sustainability 15(2), 1345.
  • Tian, H., Kah, M., Kariman, K., 2019. Are nanoparticles a threat to mycorrhizal and rhizobial symbioses? A critical review. Frontiers in Microbiology 10: 456732.
  • Todorova, M., Grozeva, N., Gerdzhikova, M., Dobreva, A., Terzieva, S., 2020. Productivity of oil-bearing roses under organic and conventional systems. Scientific Papers of University of Agronomic Sciences and Veterinary Medicine of Bucharest, Romania, Series A, Agronomy, Vol. LXIII,(1): 580 – 585.
  • Yu, X., Pan, L., Ying, G., Kookana, R.S., 2010. Enhanced and irreversible sorption of pesticide pyrimethanil by soil amended with biochars. Journal of Environmental Sciences 22(4): 615–620.
  • Zhang, W., Yu, L., Han, B., Liu, K., Shao, X., 2022. Mycorrhizal inoculation enhances nutrient absorption and induces ınsect-resistant defense of Elymus nutans. Frontiers in Plant Science 13: 898969.

Effect of organic pest control products on Arbuscular Mycorrhizal colonization in Bulgarian rose plantations: A two-year field study

Year 2024, Volume: 13 Issue: 2, 161 - 166, 29.03.2024

Rumyana Georgieva Siegrid Steinkellner Ivan Manolov Paul John M. Pangilinan Kwayela Sama Desmond

https://doi.org/10.18393/ejss.1424508

Abstract

This two-year field study aims to investigate the impact of organic pesticides used in organic Damask rose (Rosa damascena Mill.) fields on Arbuscular Mycorrhizal Fungal (AMF) colonization. Conducted in the renowned Rose Valley of Bulgaria, specifically in the village of Kliment, the experiment employed a randomized complete block design with two rows of 21 plants each in organic certified plots. The results revealed low AMF colonization in the first year, ranging between 14.78% and 20.89%, with no significant differences between treatments. In the second year, while no significant differences were observed between treatments (ranging from 48.00% to 76.49%), there was a notable increase in AMF colonization compared to the initial sampling. The study concluded that specific organic pesticides, including Neemazal, Limocide, Phytosev, and Nano sulfur, had minimal negative effects on AMF colonization. These findings contribute to understanding the implications of organic farming practices on AMF and soil health in the context of Damask rose cultivation.

Keywords

Arbuscular mycorrhiza oil-bearing rose organic production.

References

  • Abdel-Salam, E., Alatar, A., El-Sheikh, M.A., 2018. Inoculation with arbuscular mycorrhizal fungi alleviates harmful effects of drought stress on damask rose. Saudi Journal of Biological Sciences 25(8): 1772-1780.
  • Begum, N., Qin, C., Ahanger, M. A., Raza, S., Khan, M. I., Ashraf, M., Ahmed, N., Zhang, L., 2019. Role of Arbuscular mycorrhizal fungi in plant growth regulation: Implications in abiotic stress tolerance. Frontiers in Plant Science 10: 466052.
  • Betancur-Agudelo, M., Meyer, E., Lovato, P.E., 2021. Arbuscular mycorrhizal fungus richness in the soil and root colonization in vineyards of different ages. Rhizosphere 17: 100307.
  • Bharadwaj, A., Sharma, S. 2006. Biocontrol of Meloidogyne incognita in Lycopersicon esculentum with AM fungi and oil cakes. Plant Pathology Journal 5: 166-172.
  • Chalova, V.I., Manolov, I.G., Manolova, V.S., 2017. Challenges for commercial organic production of oil-bearing rose in Bulgaria. Biological Agriculture & Horticulture 33: 1-12.
  • Gamage, A., Gangahagedara, R., Gamage, J., Jayasinghe, N., Kodikara, N., Suraweera, P., Merah, O., 2023. Role of organic farming for achieving sustainability in agriculture. Farming System 1(1): 100005.
  • Giovanetti, M., Mosse, B., 1980. An evaluation of techniques for measuring vesicular arbuscular mycorrhizal infection in roots. New Phytologist 84(3): 489-500.
  • Gopal, M., Gupta, A., Arunachalam, V., Magu, S.P., 2007. Impact of azadirachtin, an insecticidal allelochemical from neem on soil microflora, enzyme and respiratory activities. Bioresource Technology 98(16): 3154-3158.
  • Gosling, P., Hodge, A., Goodlass, G., Bending, G.D., 2006. Arbuscular mycorrhizal fungi and organic farming. Agriculture, Ecosystems & Environment 113(1-4): 17-35.
  • Hage-Ahmed, K., Rosner, K., Steinkellner, S., 2019. Arbuscular mycorrhizal fungi and their response to pesticides. Pest Management Science 75(3): 583-590.
  • Ipsilantis, I., Samourelis, C., Karpouzas, D.G., 2012. The impact of biological pesticides on arbuscular mycorrhizal fungi. Soil Biology & Biochemistry 45: 147-155.
  • Jian, Y., Chen, X., Ma, H., Zhang, C., Luo, Y., Jiang, J., Yin, Y., 2023. Limonene formulation exhibited potential application in the control of mycelial growth and deoxynivalenol production in Fusarium graminearum. Frontiers in Microbiology 14: 1161244.
  • Kilani-Morakchi, S., Morakchi-Goudjil, H., Karima, S., 2021. Azadirachtin-based insecticide: Overview, risk assessments, and future directions. Frontiers in Agronomy 3: 676208.
  • Ministry of Agriculture, 2022. Annual Report on the State and Development of Agriculture – Bulgaria Ministry of Agriculture Report 2022. Bulgaria
  • Mosquera-Vivas, C.S., Celis-Ossa, R.E., González-Murillo, C.A., Obregón-Neira, N., Martínez-Cordón, M.J., Guerrero-Dallos, J.A., García-Santos, G., 2023. Empirical model to assess leaching of pesticides in soil under a steady-state flow and tropical conditions. International Journal of Environmental Science and Technology 21: 1301–1320.
  • Nadeem, S.M., Ahmad, M., Zahir, Z.A., Javaid, A., Ashraf, M., 2014. The role of mycorrhizae and plant growth promoting rhizobacteria (PGPR) in improving crop productivity under stressful environments. Biotechnology Advances 32(2): 429-448.
  • Nencheva, V., Tineva, N., 2021. Bulgarian rose oil industry-challenges and motors of growth. Proceedings; Industrial Growth Conference 2020. University of National and World Economy, Sofia, Bulgaria.
  • Newman, E.I., 1966. A method of estimating the total length of root in a sample. Journal of Applied Ecology 3(1): 139-145.
  • Phillips, J.M., Hayman, D.S., 1970. Improved procedures for clearing roots and staining parasitic and vesicular-arbuscular mycorrhizal fungi for rapid assessment of infection. Transactions of the British Mycological Society 5(1): 158-161.
  • Schweiger, P.F., Jakobsen, I., 1997. Dose–response relationships between four pesticides and phosphorus uptake by hyphae of arbuscular mycorrhizas. Soil Biology and Biochemistry 30(10-11): 1415-1422.
  • Schweiger, P.F., Spliid, N.H., Jakobsen, I., 2001. Fungicide application and phosphorus uptake by hyphae of arbuscular mycorrhizal fungi into field-grown peas. Soil Biology and Biochemistry 33(9): 1231-1237.
  • Slepetiene, A., Ceseviciene, J., Amaleviciute‐Volunge, K., Mankeviciene, A., Parasotas, I., Skersiene, A., Jurgutis, L., Volungevicius, J., Veteikis, D., Mockeviciene, I., 2023. Solid and liquid phases of anaerobic digestate for sustainable use of agricultural soil. Sustainability 15(2), 1345.
  • Tian, H., Kah, M., Kariman, K., 2019. Are nanoparticles a threat to mycorrhizal and rhizobial symbioses? A critical review. Frontiers in Microbiology 10: 456732.
  • Todorova, M., Grozeva, N., Gerdzhikova, M., Dobreva, A., Terzieva, S., 2020. Productivity of oil-bearing roses under organic and conventional systems. Scientific Papers of University of Agronomic Sciences and Veterinary Medicine of Bucharest, Romania, Series A, Agronomy, Vol. LXIII,(1): 580 – 585.
  • Yu, X., Pan, L., Ying, G., Kookana, R.S., 2010. Enhanced and irreversible sorption of pesticide pyrimethanil by soil amended with biochars. Journal of Environmental Sciences 22(4): 615–620.
  • Zhang, W., Yu, L., Han, B., Liu, K., Shao, X., 2022. Mycorrhizal inoculation enhances nutrient absorption and induces ınsect-resistant defense of Elymus nutans. Frontiers in Plant Science 13: 898969.
There are 26 citations in total.

Details

Primary Language English
Subjects Soil Biology, Soil Sciences and Plant Nutrition (Other)
Journal Section Articles
Authors

Rumyana Georgieva This is me 0000-0003-3653-3960

Siegrid Steinkellner This is me 0000-0003-0815-9377

Ivan Manolov This is me 0000-0002-0381-7564

Paul John M. Pangilinan This is me 0000-0002-3102-8255

Kwayela Sama Desmond 0000-0001-5172-3485

Publication Date March 29, 2024
Submission Date October 27, 2023
Acceptance Date January 19, 2024
Published in Issue Year 2024 Volume: 13 Issue: 2

Cite

APA Georgieva, R., Steinkellner, S., Manolov, I., Pangilinan, P. J. M., et al. (2024). Effect of organic pest control products on Arbuscular Mycorrhizal colonization in Bulgarian rose plantations: A two-year field study. Eurasian Journal of Soil Science, 13(2), 161-166. https://doi.org/10.18393/ejss.1424508
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