Acta Nat. Sci.   |  e-ISSN: 2718-0638
Acta Natura et Scientia
Acta Nat. Sci.

Original article | Acta Natura et Scientia 2021, Vol. 2(1) 68-75

Effects of Three Different Rooting Media on Some Rooting Parameters of Cuttings Belonging to Lavandula angustifolia and Lavandula intermedia Species

İsmail Karakaş & Bahri İzci

pp. 68 - 75   |  DOI: https://doi.org/10.29329/actanatsci.2021.314.11   |  Manu. Number: MANU-2105-29-0005.R1

Published online: June 16, 2021  |   Number of Views: 330  |  Number of Download: 932

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Abstract

This research was carried out to determine the rooting performances of different rooting media (Soil, Peat and CoCopeat) on the cuttings of the plants of the Lavender (Lavandula angustifolia) Hemus, Sevtopolis and Drujba varieties and Super A variety plants (Lavandula intermedia). Cuttings were planted in three different environments in the greenhouse mediums. Rooting rate, root length, shoot number and shoot length were determined in the cuttings left for rooting for approximately 60 days. As a result of the research, the highest rooting rate was obtained from Lavandula intermedia Super A variety in cocopeat medium with 62%, and the lowest rooting rate was obtained from Lavandula angustifolia Sevtopolis and Drujba cultivars in soil environment. The highest root length was obtained from Lavandula angustifolia Sevtopolis variety in cocopeat medium with 3.32 cm, and the lowest root length was obtained from Lavandula angustifolia Hemus cultivar in soil environment with 2.34 cm. The highest number of shoots was obtained from Lavandula angustifolia Drujba variety with 7.93 in cocopeat environment, and the lowest shoot number was obtained from Lavandula intermedia Super A variety with 6.93 in soil environment. The highest shoot length was 5.90 cm in Lavandula angustifolia Sevtopolis variety in cocopeat environment and the lowest shoot length was 4.19 cm in soil environment from Lavandula angustifolia Hemus variety.

Keywords: Peat, Cocopeat, Rooting percentage, Root length, Shoot length

How to Cite this Article?

APA 6th edition
Karakas, I. & Izci, B. (2021). Effects of Three Different Rooting Media on Some Rooting Parameters of Cuttings Belonging to Lavandula angustifolia and Lavandula intermedia Species . Acta Natura et Scientia, 2(1), 68-75. doi: 10.29329/actanatsci.2021.314.11

Harvard
Karakas, I. and Izci, B. (2021). Effects of Three Different Rooting Media on Some Rooting Parameters of Cuttings Belonging to Lavandula angustifolia and Lavandula intermedia Species . Acta Natura et Scientia, 2(1), pp. 68-75.

Chicago 16th edition
Karakas, Ismail and Bahri Izci (2021). "Effects of Three Different Rooting Media on Some Rooting Parameters of Cuttings Belonging to Lavandula angustifolia and Lavandula intermedia Species ". Acta Natura et Scientia 2 (1):68-75. doi:10.29329/actanatsci.2021.314.11.
References
  1. Adaszyńska, M., Swarcewicz, M., & Dobrowolska, A. (2011). Skład chemiczny i mineralny różnych odmian lawendy wąskolistnej (Lavandula augustifolia) [Chemical and mineral composition in varieties of lavender (Lavandula augustifolia L.)]. Progress in Plant Protection 51(1), 15-20. [Google Scholar]
  2. Bona, C. M., Biasetto, I. R., Masetto, M., Deschamps, C., & Biasi, L. A. (2012). Influence of cutting type and size on rooting of Lavandula dentata L. Revista Brasileira de Plantas Medicinais, 14(1), 8-11. https://dx.doi.org/10.1590/S1516-05722012000100002 [Google Scholar]
  3. Dapkevicius, A., Venskutonis, R., Van Beek, T. A., & Linssen, J. P. H. (1998), Antioxidant activity of extracts obtained by different isolation procedures from some aromatic herbs grown in Lithuania. Journal of the Science of Food and Agriculture, 77(1), 140-146. https://doi.org/10.1002/(SICI)1097-0010(199805)77:1%3C140::AID-JSFA18%3E3.0.CO;2-K [Google Scholar] [Crossref] 
  4. Ekren, S., Yerlikaya, O., Tokul, H. E., Akpınar, A., & Açu, M. (2013). Chemical composition, antimicrobial activity and antioxidant capacity of some medicinal and aromatic plant extracts. African Journal of Microbiology Research, 7(5), 383-388. https://doi.org/10.5897/AJMR12.1765 [Google Scholar] [Crossref] 
  5. Ez zoubi, Y., Bousta, D., & Farah, A. (2020). A phytopharmacological review of a Mediterranean plant: Lavandula stoechas L. Clinical Phytoscience, 6, 9. https://doi.org/10.1186/s40816-019-0142-y [Google Scholar] [Crossref] 
  6. Giray, F. H. (2018). An analysis of world lavender oil markets and lessons for Turkey. Journal of Essential Oil Bearing Plants, 21(6), 1612-1623. https://doi.org/10.1080/0972060X.2019.1574612 [Google Scholar] [Crossref] 
  7. Guenther, E. (1952). The essential oils. Van Nostrand Company, Inc. [Google Scholar]
  8. Hanamanthagouda, M. S., Kakkalameli, S. B., Naik, P. M., Nagella, P., Seetharamareddy, H. R., & Murthy, H. N. (2010). Essential oils of Lavandula bipinnata and their antimicrobial activities. Food Chemistry, 118(3), 836-839. https://doi.org/10.1016/j.foodchem.2009.05.032 [Google Scholar] [Crossref] 
  9. Hartmann, H. T., & Kester, D. E. (1983). Plant propagation principles and practices (4th ed.). Prentice, Hall International, Inc. [Google Scholar]
  10. Hay, I. C., Jamieson, M., & Ormerod, A. D. (1998). Randomized trial of aromatherapy. Successful treatment for alopecia areata. Archives of Dermatology, 134(11), 1349-1352. https://doi.org/10.1001/archderm.134.11.1349 [Google Scholar] [Crossref] 
  11. Heath, HB. (1981). Source Book of Flavours. Westport: Avi. p. 89. [Google Scholar]
  12. Inoue, M., & Craker, L. (2014) Medicinal and aromatic plants—uses and functions. In G. Dixon, & D. Aldous (Eds.), Horticulture: Plants for people and places, volume 2. Springer. [Google Scholar]
  13. İpek, A. (2007). Tıbbi adaçayı (Salvia officinalis) hatlarında azotlu gübrelemenin Herba verimi ve bazı özellikler üzerine etkileri.[Effects of nitrogen fertilization on herb yield and some characteristics of sage (Salvia officinalis) lines]. [Ph.D. Thesis. Ankara University]. [Google Scholar]
  14. Iqbal, M. (1993). International trade in non-wood forest products: an overview. FAO, Rome. [Google Scholar]
  15. İzgi, M. (2020). Farklı IBA (İndol-3-bütirik asit) dozları ve köklendirme ortamlarının bazı tıbbi bitkilerin köklenmesi üzerine etkileri [Effects of different doses of IBA (Indole-3-butyric acid) and rooting media on rooting of some medicinal plants]. Türkiye Tarımsal Araştırmalar Dergisi, 7(1), 9-16. https://doi.org/10.19159/tutad.590323 [Google Scholar] [Crossref] 
  16. Kara, N., & Baydar, H. (2013). Determination of lavender and lavandin cultivars (Lavandula sp.) containing high quality essential oil in Isparta, Turkey. Turkish Journal Of Field Crops, 18(1), 58-65. [Google Scholar]
  17. Kara, N., (2011). Uçucu yağ üretimine uygun lavanta (Lavandula Sp.) çeşitlerinin belirlenmesi ve mikro çoğaltım olanaklarının araştırılması. [Determination of lavender (Lavandula sp.) cultivars suitable for essential oil production and studies on micropropagation possibilities]. [Ph.D. Thesis. Süleyman Demirel University]. [Google Scholar]
  18. Kumar, Y., Prakash, O., Tripathi, H., Tandon, S., Gupta, M. M., Rahman, L. U., Lal, R. K., Semwal, M., Darokar, M. P., & Khan, F. (2018) AromaDb: A database of medicinal and aromatic plant’s aroma molecules with phytochemistry and therapeutic potentials. Frontiers in Plant Science, 9, 1081. https://doi.org/10.3389/fpls.2018.01081 [Google Scholar] [Crossref] 
  19. Mamedov, N. A., & Craker, L. E. (2012). Man and medicinal plants: A short review. Acta Horticulturae, 964, 181-190. https://doi.org/10.17660/ActaHortic.2012.964.22 [Google Scholar] [Crossref] 
  20. Mokhtarzadeh, S. (2011). Lavandula angustifolia MILLER SUBSP. angustifolia MILLER VE L. stoechas L. SUBSP. L. stoechas bitkilerinde doku kültürü ve gen aktarım çalışmalarının optimizasyonu. [Optimisation of tissue culture and genetic transformation in Lavandula angustifolia Miller Subsp. angustifolia Miller and L. stoechas L. Subsp. L. stoechas]. [Ph.D. Thesis. Ankara University]. [Google Scholar]
  21. Nikolaevskii, V., Kononova, N., Pertsovskii, A., & Shinkarchuk, I. (1990). Vliianie éfirnykh masel na techenie éksperimental'nogo ateroskleroza [Effect of essential oils on the course of experimental atherosclerosis]. Patologicheskaia Fiziologiia i Eksperimental'naia Terapiia, 5, 52-53. [Google Scholar]
  22. Özcan, İ. İ., Arabacı, O., & Öğretmen, N. G. (2013). Lavanta (Lavandula hybrida)’nın köklenmesi üzerine farklı hormon dozları ve köklendirme ortamlarının etkisi. V. Süs Bitkileri Kongresi Bildiriler Kitabı, Türkiye. pp. 529-534. [Google Scholar]
  23. Patel, V. R., Patel, P. R., & Kajal, S. S. (2010). Antioxidant activity of some selected medicinal plants in Western Region of India. Advances in Biological Research, 4(1), 23-26. [Google Scholar]
  24. Petkova, M., Tahsin, N., Yancheva, S., & Yancheva, H. (2018). Development of the production of aromatic oil crops in Bulgaria. China-Bulgaria Rural Revitalization Development Cooperation Forum, Bulgaria. pp. 71-86. [Google Scholar]
  25. Prusinowska, R., & Śmigielski, K. B. (2014).Composition, biological properties and therapeutic effects of lavender (Lavandula angustifolia L). A review. Herba Polonica, 60(2), 56-66. https://doi.org/10.2478/hepo-2014-0010 [Google Scholar] [Crossref] 
  26. Reid, A. (2000). Growing lavender in Western Australia. Department of Agriculture and Food, Western Australia, Perth. Bulletin 4454. [Google Scholar]
  27. Romine, I. J., Bush, A. M., & Geist, C. R. (1999). Lavender aromatherapy in recovery from exercise. Perceptual and Motor Skills, 88(3), 756-758. https://doi.org/10.2466/pms.1999.88.3.756 [Google Scholar] [Crossref] 
  28. Sarı, Y., & Kaçar, O. (2019). Biberiye (Rosmarinus officinalis L.) çeliklerinde köklenme üzerine farklı köklendirme ortamları ve IBA dozlarının etkileri [The effects of different rooting media and IBA doses on rooting of rosemary (Rosmarinus officinalis L.) stem cuttings]. Bahçe, 48(1), 27-37. [Google Scholar]
  29. Schippmann, U., Leaman, D., & Cunningham, A. (2006). A comparison of cultivation and wild collection of medicinal and aromatic plants under sustainability aspects. In R. J. Bogers, L. E. Craker & D. Lange (Eds.), Medicinal and Aromatic Plants, (pp. 75-95). Springer. [Google Scholar]
  30. Shellie, R., Mondello, L., Marriott, P., & Dugo, G. (2002). Characterisation of lavender essential oils by using gas chromatography-mass spectrometry with correlation of linear retention indices and comparison with comprehensive two-dimensional gas chromatography. Journal of Chromatography. A, 970(1-2), 225-234. https://doi.org/10.1016/s0021-9673(02)00653-2 [Google Scholar] [Crossref] 
  31. Smigielski, K., Prusinowska, R., Stobiecka, A., Kunicka-Styczyñska, A., & Gruska, R. (2018). Biological properties and chemical composition of essential oils from flowers and aerial parts of lavender (Lavandula angustifolia), Journal of Essential Oil Bearing Plants, 21(5), 1303-1314. https://doi.org/10.1080/0972060X.2018.1503068 [Google Scholar] [Crossref] 
  32. Tucker, A. O. (1985). Lavender, spike, and lavandin. The Herbarist, 51, 44-50. [Google Scholar]
  33. Tyub, S., Kamili, A. N., & Shah, A. M. (2007) Effect of BAP on shoot regeneration in shoot tip cultures of Lavandula officinalis. Journal of Research & Development, 7, 125-130. [Google Scholar]
  34. Walter, S. (2001). Les produits forestiers non ligneux en Afrique: un aperçu régional et national [Non-wood forest products in Africa: a regional and national overview]. FAO Forestry Department, Rome. Working Paper/Document de Travail nr. FOPW/01/1. [Google Scholar]
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