International Journal of Innovative Approaches in Agricultural Research
Abbreviation: IJIAAR | ISSN (Online): 2602-4772 | DOI: 10.29329/ijiaar

Original article    |    Open Access
International Journal of Innovative Approaches in Agricultural Research 2021, Vol. 5(3) 322-333

Essential Oil of Myrtus communis L. effects In Vitro and In Vivo Evaluation against Chickpea Blight (Ascochyta rabiei) Disease

Amina Kadırı, Nacera Berrezoug, Aicha Hennia, Malika Bennaceur & Zohra Ighilhariz

pp. 322 - 333   |  DOI: https://doi.org/10.29329/ijiaar.2021.378.7

Published online: September 30, 2021  |   Number of Views: 100  |  Number of Download: 453

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Abstract

In this study, (Myrtus communis L.) was explored in vitro and in vivo for controlling blight disease using two chickpea genotypes ILC 3279, INRA 199 and a local cultivar Bouazza. Blight caused by Ascochyta rabiei Pass. Lab. is major disease affecting chickpea production. To control this disease, chemical harmful fungicides are used hence, developing natural plant protection products as an alternative has become important regarding the environmental impact. The effect of essential oil (EO) extracted from myrtle leaves by hydrodistillation was evaluated on the growth of Ascochyta rabiei Pass. Lab. mycelium, by dilution method using chickpea culture medium added with 0, 200, 300, 500 and 1000 ppm. The radial growth of A. rabiei Pass.Lab. was inhibited at 40.9, 68.18 and 96.69% with 200, 300 and 500 ppm respectively. Myrtle essential oil used at 1000 ppm inhibited the fungus growth completely (100%). In vitro EO efficacy was investigated using detached leaflets method inoculated with 5 µl pathogen spore solution of 106 spores / ml concentration. Efficacy was investigated using 750 ppm EO solution. Disease (DS) Severity and disease incidence (DI) on detached leaflets were determined.

Highest disease incidence was observed on Bouazza (100%) followed by ILC 3279 (84.28%) and INRA 199 (17.5%). Myrtle essential oil showed an efficacy in all cases and decreased significantly disease incidence for Bouazza, ILC 3279 and INRA 199 to 63.33, 56.66 and 16% respectively. Disease severity showed the same profile, Bouazza noted the highest rate followed by ILC 3279 and INRA 199 with 60, 40 and 21% respectively and EO showed a significant efficacy and reduced these disease severity rates to 52 32 and 18 %. The bioassay conducted in vivo under greenhouse conditions with plants including a negative control with any treatment and two other batches inoculated by hand held sprayer, a spore solution with a concentration of 106 spores/ ml and treated or not with myrtle EO. Disease incidence percentage (DIP) decreased significantly under common myrtle EO compared to control in INRA 199 and ILC 3279 for severity percent index (SPI) no significant difference was observed for all genotypes under Myrtus communis L. essential oil treatment effect. This study showed Myrtus communis L. essential oil efficacy on chickpea blight disease in vitro on fungal radial growth and in vivo either on deatached leaflets or whole plants under greenhouse condition. This natural product reduced significantly blight disease incidence and severity. And to control disease, myrtle essential oil extraction as fungicide is a promising alternative against this disease.

Keywords: Ascochyta rabiei, efficacy, fungal disease, biocontrol

How to Cite this Article

APA 6th edition
Kadiri, A., Berrezoug, N., Hennia, A., Bennaceur, M. & Ighilhariz, Z. (2021). Essential Oil of Myrtus communis L. effects In Vitro and In Vivo Evaluation against Chickpea Blight (Ascochyta rabiei) Disease . International Journal of Innovative Approaches in Agricultural Research, 5(3), 322-333. doi: 10.29329/ijiaar.2021.378.7

Harvard
Kadiri, A., Berrezoug, N., Hennia, A., Bennaceur, M. and Ighilhariz, Z. (2021). Essential Oil of Myrtus communis L. effects In Vitro and In Vivo Evaluation against Chickpea Blight (Ascochyta rabiei) Disease . International Journal of Innovative Approaches in Agricultural Research, 5(3), pp. 322-333.

Chicago 16th edition
Kadiri, Amina, Nacera Berrezoug, Aicha Hennia, Malika Bennaceur and Zohra Ighilhariz (2021). "Essential Oil of Myrtus communis L. effects In Vitro and In Vivo Evaluation against Chickpea Blight (Ascochyta rabiei) Disease ". International Journal of Innovative Approaches in Agricultural Research 5 (3):322-333. doi:10.29329/ijiaar.2021.378.7.
References
  1. Alabouvette, C., Olivain, C. & Steinberg, C. 2006. Biological control of plant diseases : the European situation. European Journal of Plant Pathology, 114(3) 329-341. [Google Scholar]
  2. Bekker, T. F., Kaiser, C., Van der Merwe, R. &, Labuschagne, N. 2006. In-vitro inhibition of mycelial growth of several phytopathogenic fungi by soluble potassium silicate. South African Journal of Plant and Soil, 23(3), 169-172. [Google Scholar]
  3. Carée, P. 1953. Précis de technologie et de chimie industrielle: Tome III Ed. Ballière J. B. Et Fils, 432 pp. [Google Scholar]
  4. Davidson, J. A. & Kimber, R. B. E. 2007. Integrated disease management of Ascochyta blight in pulse crops. European Journal of Plant Pathology, 119:99–110. [Google Scholar]
  5. Fandohan, P., Gbenou, J. D., Gnonlonfin, B., Hell, K., Marasas, W. F. & Wingfield, M. J. 2004. Effect of essential oils on the growth of Fusarium verticillioides and fumonisin contamination in corn. Journal of agricultural and food chemistry, 52(22):6824-6829. [Google Scholar]
  6. FAO, Food and agriculture United Nations Organization 2016. (accessed 31th Nov 2017 at 5pm) www.http://faostat3.fao.org/ [Google Scholar]
  7. Gaston, T. N., Pitagor, M. C. J., Appolinaire, L J, Aoudou, Y, Joseph, D. F. & Ajong, F. D. 2014. Évaluation des activités antifongiques des extraits de plantes contre Phytophthora colocasiae, agent causal du mildiou du taro (Colocasia esculenta (L.) Schott). Journal of Applied Biosciencesj, 81(1): 7221-7232. [Google Scholar]
  8. Goufo, P. 2008. Evaluating the constraints and opportunities for sustainable rice production in Cameroon. Research Journal of Agriculture and Biological Sciences, 4(6): 734-744. [Google Scholar]
  9. Harijati, N. & Keane, P. J. 2012. Disease Development Caused by Ascochyta rabiei on Chickpea Detached-Leaves in Petri Dishes. American Journal of Plant Sciences, 3(10): 1369-1381 [Google Scholar]
  10. Kordali, S., Usanmaz, A., Cakir, A., Komaki, A. & Ercisli, S. 2016. Antifungal and herbicidal effects of fruit essential oils of four Myrtus communis genotypes. Chemistry biodiversity, 13(1): 77-84. [Google Scholar]
  11. Ladu, G., Cubaiu, L., d' Hallewin, G., Pintore, G., Petretto, G. L., & Venditti, T. 2015. Rosmarinus officinalis L. and Myrtus communis L. essential oils treatments by vapor contact to control Penicillium digitatum. Journal of Food Processing & Technology, 6(9): 1. [Google Scholar]
  12. Nashwa, S. M. & Abo-Elyousr, K. A. 2012. Evaluation of various plant extracts against the early blight disease of tomato plants under greenhouse and field conditions. Plant Protection Science, 48(2): 74-79. [Google Scholar]
  13. Pereira, R. B., Lucas, G. C., Perina, F. J. & Alves, E. 2012. Essential oils for rust control on coffee plants. Ciência e Agrotecnologia 36(1): 16-24. [Google Scholar]
  14. Reddy, M. V. & Singh, K. B. 1984. Evaluation of a world collection of chickpea germ plasm accessions for resistance to Ascochyta blight. Plant Disease, 68(10): 900-901. [Google Scholar]
  15. Reddy, M. V. & Singh, K. B. 1990. Relationship between Ascochyta blight severity and yield loss in Chickpea and identification of resistant lines. Phytopathologia Mediterranea, 29(1): 32-38. [Google Scholar]
  16. Roy, A. K. 1995. Recent advances in phytopathological researches. MD Publications Pvt. Ltd. 211pp. [Google Scholar]
  17. Shahid, A. A., Husnain, T., & Riazuddin, S. 2008. Ascochyta blight of chickpea: Production of phytotoxins and disease management. Biotechnology advances, 26(6), 511-515. [Google Scholar]
  18. Taleb-Toudert, K. 2015. Extraction et caractérisation des huiles essentielles de dix plantes aromatiques, Thèse de Doctorat, Université de Tizi-Ouzou, Algérie, 206pp. [Google Scholar]
  19. Tsopmbeng, N. G. & Fomengia, D. N. 2015. Fungi associated with seeds of huckleberry (Solanum scabrum Mill.) grown in the western highlands of Cameroon. International Journal of Agriculture and Technology 11(3): 791-801. [Google Scholar]
  20. Van der Maesen, L. J. G. 1987. Origin, history and taxonomy of chickpea. In The chickpea pp. 11-34. [Google Scholar]
  21. Wannes, W. A., Mhamdi, B., Sriti, J., Jemia, M. B, Ouchikh, O., Hamdaoui, G. & Marzouk, B. 2010. Antioxidant activities of the essential oils and methanol extracts from myrtle (Myrtus communis var. italica L.) leaf stem and flower. Food and chemical toxicology, 48(5): 1362-1370 [Google Scholar]
  22. Wheeler, B. E. J. 1969. An introduction to plant diseases. John Wiley And Sons Limited; London 374 pp. [Google Scholar]
  23. Zerroug, M. M., Zouaghi, M., Boumerfeg, S., Baghiani, A., Nicklin, J. & Arrar, L. 2011. Antibacterial activity of extracts of Ajuga iva, and Teucrium polium. Advances in Environmental Biology, 491-496. [Google Scholar]
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