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In vitro propagation of date Palm using bioreactor technology (Article review) | ||
| Kirkuk University Journal for Agricultural Sciences (KUJAS) | ||
| Volume 15, Issue 1, March 2024, Pages 64-69 PDF (812.07 K) | ||
| Document Type: Review Paper | ||
| DOI: 10.58928/ku24.15110 | ||
| Authors | ||
| Ali A. Abdulkareem* 1; Anwer T. Ghaffoori2; Ahmed A. Alsabte1 | ||
| 1Date palm Research unit, College of Agricultural Engineering sciences, University of Baghdad, Baghdad, Iraq. | ||
| 2Environmental Biotechnology Department, Biotechnogy and Environmental Center, University of Fallujah, Iraq. | ||
| Abstract | ||
| Technological progress has contributed to solving all problems in all fields. In plant tissue culture technology, technology has helped in solve problems Facing traditional agriculture, such as time constraints, the limitations of the resulting plants, and the production of healthy plants free of diseases and overcome obstacles related to the nutrient medium for growing palm embryos. Previous studies have proven that there are some problems in semi-solid or liquid nutrient media, including a high percentage of Ethylene lack of gas exchange, high concentration of nutrients around the cultivated part, the occurrence of vetrivication, and other things that may hinder the success of agriculture. Progress and development in this field helped to solve problems for all media, as it was achieved to innovate the bioreactor system, or what is called the temporary immersion system. It is a precisely working system consisting of containers linked together and connected to sensitive micro devices that allow for gaseous exchange and reduce the percentage of ethylene around the part. Planted and reduces the immersion time of the planted part in the medium, thus preventing the occurrence of vetrivication Finally, it can be said that this system helped increase the number of palms produced due to the large size of the container that holds a large number of embryos and the nutritional medium. This system is also economically important, as the type of medium used in it is liquid media, and therefore there is no need to add agar, which is considered an additional cost of media components. | ||
| Keywords | ||
| Modern technology; bioreactor; Date palm; in vitro | ||
| References | ||
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[1] Fernández-López, J., Viuda-Martos, M., Sayas-Barberá, E., Navarro-Rodríguez de Vera, C., & Pérez-Álvarez, J. Á. (2022). Biological, nutritive, functional and healthy potential of date palm fruit (Phoenix dactylifera L.): Current research and future prospects. Agronomy (Basel, Switzerland), 12(4), 876. https://doi.org/10.3390/agronomy12040876.
[2] Central organization of Statistics, (2021) Ministry of Planning, Iraq Statistical Annual Collection Volume 2021, Chapter Three, Agricultural Statistics.page40.
[3] Al-Yasiri, H. K. M. (2018) Date palm cultivation in Iraq and Iran, problems and solutions. Annual Forum, (36): 345-374.
[4] Muhammad R. F., and Kassar A. D 2020, an econometric study of the impact of some factors on the production of date yields in Iraq during the period 2002-2018, based on data. Algerian Journal of Economic and Financial Research 3(1).
[5] Abahmane, L. (2020). A comparative study between temporary immersion system and semi-solid cultures on shoot multiplication and plantlets production of two Moroccan date palm (Phoenix dactylifera L.) varieties in vitro. Notulae Scientia Biologicae, 12(2): 277-288.
[6] Osama.S. S. 2022. micropropagation of grapevine (vitis vinifera l.) cvs. red globe and superior. Iraqi Journal of Agricultural Sciences .53(4):833- 849.
[7] Abd Elaziem, T.M. 2023. Development of Asystem for commercial production of DATE PALM (Phoenix Dactyliferae L.) CV. MEDJOOL. Egyptian J. Desert Res., 73, No. 1, 39-64.
[8] Abd Elaziem, T.M., El‑naby Ahmed,M.E.A ,and Abou El‑Dis,G.R. 2022. In vitro propagation for conservation of the rare date palm (Phoenix dactylifera L.) ‘Amri’ using immature inforescence. In Vitro Cellular & Developmental Biology - Plant (2022) 58:1048–1056.
[9] Abdul Kareem, A.A. Hussien,N,H.2022. Effect of Foliar Spray with Yeast Suspension and Foliartal Nutrient Solution on the Mineral Content of Tissue Lime Seedlings Citrus limon L. IOP Conf. Series: Earth and Environmental Science 1060 012056.
[10] Abdul Kareem, A.A. Al-Dahan,M.R.A. 2020 . influence of some factor on somatic embryos induction and germination of date palm cv barhi by using cell suspension culture technique Plant Archives Volume 20 No. 1, 2020 pp. 845-850.
[11] Al-Asadi , A.Z. Abdulwahid , A.H. and AL-Mayahi ,A.M.W . 2019. The effect of Auxines on callus and In vitro shoots development of Date palm (Phoenix dactylliferae L.) cv. Barhee. Basrah J .Agric.Sci., (32):258-264.
[12] Al-Sumaida'i, Kadhem Muhammad Ibrahim. 2017. Applications in plant biotechnologies. Ministry of Higher Education and Scientific Research - Al-Nahrain University - Iraq. part One.
[13] Al-Taey,D. K. A., Z. Z. Majid.(2018). The activity of antioxidant enzymes and NPK contents as affected by water quality, Kinetin, Bio and organic fertilization lettuce (Lactuca sativa L) . Iraqi Journal of Agricultural Science49(3).
[14] Fki , L., W. Kriaa, A. Nasri, E. Baklouti, O. Chkir, R. Masmoudi,
[15] Aldaej, M., S. Alturki, W. Shahata and H. Ghazzawy (2014). Effect of Potassium Nitrate on Antioxidants Production of Date Palm (Phoenix dactylifera L.) in vitro. Pakistan Journal of Biological Sciences, 12: 1209-1218.
[16] Khierallah, H.S.M. Al-Obaidy ,O,M A .2007. the roll of some plant growth regulators on shoots multiplication of stevia plants in vitro iraqi journal of agricultural sciences Vol. 48 No.5.
[17] Aleid, S.M., J.M. Al-Khayri and A.M. Al-Bahrany (2015). Date palm status and perspective in Saudi Arabia. In: Al-Khayri JM, Jain SM, Johnson DV, Eds. Date palm genetic resources and utilization, Springer, Dordrecht, 49-95.
[18] Al-Khalifah, N.S. and A.E. Shanavaskhan (2012). Micropropagation of Date Palms. Asia-Pacific Consortium on Agricultural Biotechnology and Association of Agricultural Research Institutions in the Near East and
North Africa, 54.
[19] Zayed, E.M.M. and O.H. Abd Elbar (2015). Morphogenesis of immature female inflorescences of date palm in-vitro. Annals of Agricultural Science, 60:113-120.
[20] Hussein, J., A. Khaun and D. Abdulrahman (2016). Improving the germination of somatic embryos in date palm Berhi cultivar in-vitro. International Journal of Agronomy and Agricultural Research, 8:17-23.
[21] Sidky, R. and M. El-Dawyati (2012). Proliferation of female inflorescence explants of dare palm. Annals of Agricultural
Sciences, 57: 161-165.
[22] Abd El-Bar, O.H. and M.M. El Dawayati (2014). Histological changes on regeneration in-vitro culture of date palm (Phoenix dactylifera) leaf explants. Australian Journal of Crop Science, 8: 848-855.
[23] Ali , K.M., A.M. Sabbour, M.K. Khalil, A.S. Aly and A.F.Z. El-Din (2017). In-vitro morphogenesis of direct organs in date palm (Phoenix dactylifera L.) cv. Siwy. International Journal of Advanced Agricultural Science and Technology, 4: 1-12.
[24] Al-Samir, E., S. Al-Utbi and M. Abass (2015). Phytotoxic effect of 2,4-D and dicamba on date palm (Phoenix dactyliferaL.) tissue cultures at initiation stage. Advances in Agriculture and Botanics, 7: 96-108.
[25] Al-Khairy, J. and A.M. Al-Bahrany (2012). Effect of abscisic acid and polyethylene glycol on the synchronization of somatic embryo development in date palm (Phoenix dactylifera L). Biotechnology, 11: 318-325.
[26] Baharan, E., P. Pour, E. Mohammadi, S. Shahbaziand and Z.Hosseini (2015). Effects of some plant growth regulators and light on callus induction and explants browning in date palm (Phoenix dactylifera L.) in-vitro leaves culture. Iranian Journal of Plant Physiology, 5: 1473-1481
[27] El Bellaj, M. (2000). Etude de quelques parame‘tres biochimiques
en relation avec l’acquisition des potentialite´s embryoge‘nes et la maturation des embryons somatiques chez le Palmier dattier (Phoenix dactylifera L.). The‘se de Doctorat. Universite´ Cadi Ayyad, Faculte´ des Sciences- Semlalia, Marrakech.
[28] Gadalla, E.G. (2007). High frequency somatic embryo production
and maturation into plantlets in date palm (Phoenix dactylifera L.) through suspension culture. Egypt.J.Agric.Res., 85(B): 349-365.
[29] Sequeida, ´A., Tapia, E., Ortega, M., Zamora, P., Castro, ´A., Montes, C., Zú˜niga, G. E. and Prieto, H. (2012). Production of phenolic metabolites by Deschampsia antarctica shoots using UV-B treatments during cultivation in a photobioreactor. Electron. J. Biotechnol.,15(4): 1-8.
[30] Pierik, R.L. (1999). In Vitro Culture of Higher Plants. Third Edition. Martinus Nijn off Publishers. Nether Lands.
[31] Tisserat, B. (1999). Clonal propagation of palms. Plant tissue culture manual, C2 : 1-14.- Othmani,A . Bayoudh,C [32] Dira, N . Triffi , M . 2014. In vitro cloning of date palm Phoenix dactyliferae L. cv deglet Bey by using Embry -ogenic suspension and temporary immersion.
[33] Khierallah, H.S. and S.M. Bader 2007. Micropropagation of date palm (Phoenix dactylifera L.) var. Maktoom through organogenesis. Acta Horticulturae, 736:213-223.
[34] Nayyef, M.N. (2019). Impact of temporary immersion system
(TIS) by using plantform bioreactor and light source on date palm micropropagation Thesis, university ofBaghdad-Iraq.
[35] Mazri, M. A., Meziani, R., Anjarne, M., and Elmaataoui, S. (2021). Influence of cytokinins and medium texture on organogenesis and plantlet regeneration in date palm (Phoenix dactylifera L.) cv. Najda. African and Mediterranean Agricultural Journal Al Awamia, 130: 34-53.
[36] Almusawi, A. H. A., Sayegh, A. J., Alshanaw, A. M. and Griffis, J. L. (2017). Plantform Bioreactor for Mass Micropropagation of Date Palm. In: Al-Khayri, J. M., Jain, S. M. and Johnson, D. (Eds). Date palm biotechnology protocols, Vol. I. Methods in molecular biology, vol. Humana Press, New York.
[37] El bakouri, Z., Meziani, R., Mazri, M. A., Aitchitt, M., Bouamri, R., Ait El Mekki, A. and Jaiti, F. (2023). Production cost of tissue cultured date palm cv. Mejhoul in Morocco: a 10-year based agribusiness study. Plant Cell, Tissue and Organ Culture (PCTOC), 152(2): 405-416.
[38] Lambardi, M., Roncasaglia, R., Bujazha, D., Baileiro, F., Correira da Silva, D. P. and Ozudogru, E. A., (2015). Improvement of shoot proliferation by liquid culture in temporary immersion, in: Proceedings of the 6th Int. Symp. on Production and Establishment of Micropropagated Plants.
[39] Biruk, A., Tewodros, T., Elias, G., Ayelign, M. and Wondyifraw, T. (2013). Efficient use of temporary immersion bioreactor (TIB) on pineapple (Ananas comosus L.) multiplication and rooting ability. J. Microbiol. Biotechnol. Food Sci., 2: 2456–2465.
[40] Zhang, B. S. Pan, X., Jin, L., Xu, D., Zhang, B., Duns, G. J., Shi, J. and Chen, J. (2018). Optimization of nutritional conditions using a temporary immersion bioreactor system for the growth of Bletilla striata pseudobulbs and accumulation of polysaccharides. Sci. Hortic., 240: 155–161.
[41] Mirzabe, A. H., Hajiahmad, A., Fadavi, A., and Rafiee, S. (2022). Temporary immersion systems (TISs): A comprehensive review. Journal of Biotechnology, 357(2022): 56–83. | ||
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