EFFECT OF CULTIVARS, DATE, IBA AND THEIR INTERACTION ON ROOTING OF SEMI-HARDWOOD OLIVE CUTTING CVS. 'SHAMI ' AND ' QAISI
Keywords:
Olea European Variety 'Shami ' and ' Qaisi’; Indole Butyric Acid; semi-hardwood cuttings
Abstract
This research was conducted during the growing season. (2016) in Bakrajo Nursery Station/ Sulaimani, Kurdistan Region-Iraq. Uniform and healthy olive (Olea europaea L.) Shami and Qaisi cuttings were used four concentrations (0, 1000, 2000, and 3000 ppm), three dates (15/3, 1/4, and 15/4) were used to investigate root growth of semi-hardwood olive cuttings cvs 'Shami' and 'Qaisi'. The following is a summary of the findings: The IBA hormone treatment had a considerable impact on most root growth. On the majority of the root growth, Shami cv. significantly dominated than the Qaisi cvs. Most root growth characteristics were strongly impacted by interactions between date, IBA, and cv. Shami.
Downloads
Download data is not yet available.
References
Adelson, F. D. 2009. Rooted stem cutting of olive tree in different times, substrates, and doses of IBA.Cienc.Artec (online). 33 (1): p. 79-85.
Aini, A.S.N., Goh, B.L. and Ridzuan, R. 2009: The effects of different indole-3-butyric acid (IBA) concentrations, two light regimes of in vitro rooting and acclimatization of in vitro teak (Tectona grandis) plantlets. Afr. J. Biotechnol. 8: 6151- 6161
Al-Rawi, K.M.and A. Khalafalla (2000).Analysis of Experimental Agriculture Design. Dar Al-Kutub for Printing and Publishing. Mosul Univ.
Aslmoshtaghi, E. and A.R. Shahsavar, 2010. Endogenous soluble sugars, starch contents, and phenolic compounds in easy- and difficult-to-root olive cuttings. J. Biol. Environ. Sci., 49 (11): 83–86.
Asl Moshtaghi, E. and A.R. Shahsavar, 2011. The effects of IBA and H2O2 on rooting of 2 olive cultivars. J. Chem. Health Risks, 1:35-38.
Aslmoshtaghi E, Reza Shahsavar A, Reza Taslimpour M, Effects of IBA and Putrescine on Root Formation of Olive Cuttings. Agriculturae Conspectus Scientificus79(3): 2014, 191-194.
Fabbri A; G. Bartolini; M. Lambardi and Kailis, S, Olive Propagation Manual. Landlinks Press, (Collingwood, USA. p 141, 2004).
Fernandes Serrano, J. M; M. C. Serrano and Amaral, E .2002. Effect of different hormone treatments on rooting of Olea europaea cv. Galega vulgar cuttings. Acta. Hort. 586: 875- 877.
Hartmann, H. T; D. E. Kester and Davies, F.T. 2001. Plant propagation principles and practices, 5th Edition, Prentice-Hall, New Jersey. The USA.
Hartmann, H.T., D.E. Kester, F.T. Davies, and R.L. Geneve, 2002. Plant Propagation, Principles, and Practices. 7th Ed., Prentice-Hall, New Jersey, 880.
Isfendiyaroðlu, M and E. ÷zeker. 2009. Rooting of 'Ayvalik' olive cuttings in different media. Spanish Journal of Agricultural Research 7(1)pp:165-172.
Kelen, M. and G. Ozkan, 2003. Relationships between rooting ability and changes of endogenous IAA and ABA during the rooting of hardwood cuttings of some grapevine rootstocks. Europ. J. Hort. Sci.,68: 8-13.
Khursheed, M.Q., and K.S. Abdul, 2008. Effect of different auxins and applapplicationhods on rooting ability of olive (Olea Europaea L. cv. Ashrasi) semi-hardwood cuttings. J. Dohuk Univ., 10 (2): 161-166.
Maghsudlu, M.; A. Hossein and Abolfazl, F., The Evaluation of the Effect of Different IBA (indole3-butyric acid) Hormone Concentration and Different Kinds of Cutting on Rooting of two Compatible Olive Cultivars Cuttings in Golestan Province. Bull. Env. Pharmacol. Life Sci., 2(6), 2013, 82 – 88
Muller, J .L ., A. Vertocnik and C. D. Town. 2005. Analysis of indole-3-butyric acid-induced adventitious root formation on Arabidopsis stem segments. Journal of Experimental Botany, Vol. 56, No. 418, pp. 2095ñ2105, August 2005.
Negash, L., 2003. Vegetative propagation of the threatened African wild olive [Olea europaea L. sub sp. cuspidata (Wall. ex DC.) Ciffieri]. New Forests, 26 (2): 137-146.
Pio R; D. Costabastos and Berti, A. J. Rooting of different types of olive tree cutting using indol butyric acid. CiencAgrotec. Lavras, 29, 2005, 562- 567
Rahman N , A. A. Awan , G. Nabi and Z. Ali . 2002. Root Initiation in Hard Wood Cuttings of Olive Cultivar Coratina Using Different Concentration of IBA. Asian journal of plant sciences. 5:563-564.
Rashott e, A.M., Poupart, J., Waddell, C.S. and Muday, G.K. 2003: Transport of the two natural auxins, indole-3-butyric acid, and indole-3-acetic acid, in Arabidopsis. Plant Physiol. 133: 761-772
Restrepo-Diaz, H., M. Benlloch, C. Navarro and R. Fernandez-Escobar. (2008). Potassium Fertilization of rain-fed olive orchards. Sci. Hort. 116: 399-403.
SAS Institute, Inc. (1996). The SAS system. Released 6.12. Cary, NC.
Siddiqui, M.I. and Hussain, S.A. 2007: Effect of indole butyric acid and types of cuttings on root initiation of Ficus Hawaii. Sarhad J. Agric. 23(4): 919-925
Simon, S. and Petrasek, J. 2011: Why plants need more than one type of auxin. Plant Sci. 180: 454- 460
Turkoglu, N. and M. Durmus, 2005. A study on root formation of four olive varieties by application of hormone. Asian J. Plant Sci., 4: 455-457.
Aini, A.S.N., Goh, B.L. and Ridzuan, R. 2009: The effects of different indole-3-butyric acid (IBA) concentrations, two light regimes of in vitro rooting and acclimatization of in vitro teak (Tectona grandis) plantlets. Afr. J. Biotechnol. 8: 6151- 6161
Al-Rawi, K.M.and A. Khalafalla (2000).Analysis of Experimental Agriculture Design. Dar Al-Kutub for Printing and Publishing. Mosul Univ.
Aslmoshtaghi, E. and A.R. Shahsavar, 2010. Endogenous soluble sugars, starch contents, and phenolic compounds in easy- and difficult-to-root olive cuttings. J. Biol. Environ. Sci., 49 (11): 83–86.
Asl Moshtaghi, E. and A.R. Shahsavar, 2011. The effects of IBA and H2O2 on rooting of 2 olive cultivars. J. Chem. Health Risks, 1:35-38.
Aslmoshtaghi E, Reza Shahsavar A, Reza Taslimpour M, Effects of IBA and Putrescine on Root Formation of Olive Cuttings. Agriculturae Conspectus Scientificus79(3): 2014, 191-194.
Fabbri A; G. Bartolini; M. Lambardi and Kailis, S, Olive Propagation Manual. Landlinks Press, (Collingwood, USA. p 141, 2004).
Fernandes Serrano, J. M; M. C. Serrano and Amaral, E .2002. Effect of different hormone treatments on rooting of Olea europaea cv. Galega vulgar cuttings. Acta. Hort. 586: 875- 877.
Hartmann, H. T; D. E. Kester and Davies, F.T. 2001. Plant propagation principles and practices, 5th Edition, Prentice-Hall, New Jersey. The USA.
Hartmann, H.T., D.E. Kester, F.T. Davies, and R.L. Geneve, 2002. Plant Propagation, Principles, and Practices. 7th Ed., Prentice-Hall, New Jersey, 880.
Isfendiyaroðlu, M and E. ÷zeker. 2009. Rooting of 'Ayvalik' olive cuttings in different media. Spanish Journal of Agricultural Research 7(1)pp:165-172.
Kelen, M. and G. Ozkan, 2003. Relationships between rooting ability and changes of endogenous IAA and ABA during the rooting of hardwood cuttings of some grapevine rootstocks. Europ. J. Hort. Sci.,68: 8-13.
Khursheed, M.Q., and K.S. Abdul, 2008. Effect of different auxins and applapplicationhods on rooting ability of olive (Olea Europaea L. cv. Ashrasi) semi-hardwood cuttings. J. Dohuk Univ., 10 (2): 161-166.
Maghsudlu, M.; A. Hossein and Abolfazl, F., The Evaluation of the Effect of Different IBA (indole3-butyric acid) Hormone Concentration and Different Kinds of Cutting on Rooting of two Compatible Olive Cultivars Cuttings in Golestan Province. Bull. Env. Pharmacol. Life Sci., 2(6), 2013, 82 – 88
Muller, J .L ., A. Vertocnik and C. D. Town. 2005. Analysis of indole-3-butyric acid-induced adventitious root formation on Arabidopsis stem segments. Journal of Experimental Botany, Vol. 56, No. 418, pp. 2095ñ2105, August 2005.
Negash, L., 2003. Vegetative propagation of the threatened African wild olive [Olea europaea L. sub sp. cuspidata (Wall. ex DC.) Ciffieri]. New Forests, 26 (2): 137-146.
Pio R; D. Costabastos and Berti, A. J. Rooting of different types of olive tree cutting using indol butyric acid. CiencAgrotec. Lavras, 29, 2005, 562- 567
Rahman N , A. A. Awan , G. Nabi and Z. Ali . 2002. Root Initiation in Hard Wood Cuttings of Olive Cultivar Coratina Using Different Concentration of IBA. Asian journal of plant sciences. 5:563-564.
Rashott e, A.M., Poupart, J., Waddell, C.S. and Muday, G.K. 2003: Transport of the two natural auxins, indole-3-butyric acid, and indole-3-acetic acid, in Arabidopsis. Plant Physiol. 133: 761-772
Restrepo-Diaz, H., M. Benlloch, C. Navarro and R. Fernandez-Escobar. (2008). Potassium Fertilization of rain-fed olive orchards. Sci. Hort. 116: 399-403.
SAS Institute, Inc. (1996). The SAS system. Released 6.12. Cary, NC.
Siddiqui, M.I. and Hussain, S.A. 2007: Effect of indole butyric acid and types of cuttings on root initiation of Ficus Hawaii. Sarhad J. Agric. 23(4): 919-925
Simon, S. and Petrasek, J. 2011: Why plants need more than one type of auxin. Plant Sci. 180: 454- 460
Turkoglu, N. and M. Durmus, 2005. A study on root formation of four olive varieties by application of hormone. Asian J. Plant Sci., 4: 455-457.
Published
2022-01-25
How to Cite
SAEED, G. M. A. (2022). EFFECT OF CULTIVARS, DATE, IBA AND THEIR INTERACTION ON ROOTING OF SEMI-HARDWOOD OLIVE CUTTING CVS. ’SHAMI ’ AND ’ QAISI. Journal of Duhok University, 24(2), 19-27. Retrieved from https://journal.uod.ac/index.php/uodjournal/article/view/1438
Section
Agriculture and Veterinary Science
It is the policy of the Journal of Duhok University to own the copyright of the technical contributions. It publishes and facilitates the appropriate re-utilize of the published materials by others. Photocopying is permitted with credit and referring to the source for individuals use.
Copyright © 2017. All Rights Reserved.
