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Endonezya'da Yetiştirilen Magnolia Cinsinin İyileştirilmesine Yönelik Biyoteknolojik Yaklaşımlar

Year 2021, , 186 - 203, 01.06.2021
https://doi.org/10.47495/okufbed.825177

Abstract

Michelia olarak da bilinen Manolya türleri, geleneksel tıpta kullanılan kokulu çiçeklere sahip odunsu bitkilerdir. Bu derleme, Endonezya’da in vitro koşullarda yetiştirilen Manolya türlerinin geçmişte ve günümüzde yapılan çalışmalar ile gelecekte yapılabilecek potansiyel çalışmaları kapsamaktadır. Endonezya'da tanımlanan ve yayılış gösteren 28 tür ve bir Magnolia melezi (hybrid) vardır. Manolyanın geleneksel ekimi, zayıf tohum çimlenmesi nedeniyle çok zordur. Bunun sebebi sert tohum kabuğu, kısa ömürlü tohum, aeril adı verilen etli kırmızı dış tohum tabakası bulundurmasıdır. Uçucu yağlarının önemi bunun yanında bitkinin geleneksel tarım ile üretiminin zor olması alternatif olabilecek biyoteknolojik çalışmaları teşvik etmektedir. Dünyadaki literatür incelendiğinde Manolya cinsinin in vitro kültürü ve elde edilen uçucu yağlar ile ilgili birkaç çalışma bulunmaktadır. M. champaca, M. liliifera ve M. alba (hibrit) ve diğer türlerin Endonezya’da yetiştirildiğini ancak bu çalışmaların, Endonezya'daki in vitro veya ex vitro üretimin yetersiz olduğu gözükmektedir. Bu çalışma Manolya türlerinde geçmişte yürütülen çalışmaları ve gelecekte yapılacak ıslah ve üretim çalışmalarına yol gösterici olacaktır. Bu yeni yaklaşımlar, Endonezya’da yetiştirilen manolya türlerinin ekonomik üretimine önemli ölçüde katkıda bulunacaktır.

References

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Biotechnological Approaches for the Improvement of Magnolia Genus Grown in Indonesia

Year 2021, , 186 - 203, 01.06.2021
https://doi.org/10.47495/okufbed.825177

Abstract

Magnolia sp., also known as Michelia, are woody fragrant flowering plants that have been used in traditional medicinal purposes. This review covers past and curent and future potential studies of Magnolia species grown in Indonesia. There are 28 species and a hybrid of Magnolia that has been recognized and distributed in Indonesia. Conventional cultivation of Magnolia becomes very hard due to poor seed germination. It is caused by hard seed coat, short-lived seed, a fleshy red outer layer of seed called aeril. There are a few studies about in vitro culture and volatile compounds of Magnolia genus at the world literture. M. champaca, M. liliifera, and M. alba (hybrid) and others widely grow in Indonesia, yet the output of studies are anadequate about in vitro or ex vitro cultivation in Indonesia. This review compiles the works of Magnolia species carried out in the past and approaches for future breeding and production studies. These new approaches will significantly contribute to the economic production of the Magnolia species grown in Indonesia.

References

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  • [2] Kirtikar KR., Basu BD. Indian medicinal lant (vol 2). New Delhi, India: Periodical Expert Book Agency; 1991.
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  • [4] Sobhagini N., Soumit KB., Malaya KM. Ethno-medico botanical survey of Kalahandi district of Orissa, Indian Journal of Traditional Knowledge 2004; 3(1): 72-79.
  • [5] Sanimah S., Suri R., Nor Azizun R., Hazniza A., Radzali M., Rusli I., Hassan MD. Volatile compounds of essential oil from different stages of Michelia alba (cempaka putih) flower development, Journal of Tropical Agriculture and Food Science 2008; 36(1): 109-119.
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  • [10] Likhitwitayawuid K., Ruangrungsi N., Boriboon M., Lange GL., Decicco CP. Constituents of the stem bark of Michelia longifolia, Journal of The Science Society of Thailand 1988; 14, 73-76.
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  • [12] Makhija IK., Vignes H., Chandrashekar KS., Ricard L., Prasanna KS. Isolation of 3β-16α-dihydroxy-5-cholesten-21-al, n-Docosanoic acid and Stigmasterol from petroleum ether extract of stem bark of Michelia champaca, Archives of Applied Science Research 2010; 2(6): 344-348.
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  • [14] Merkle SA. Somatic embryogenesis in Magnoliaceae (Liriodendron and Magnolia). In: Bajaj YPS. (ed.) Somatic embryogenesis and synthetic seed I, biotechnology in agriculture and forestry 30, Y.P.S. Bajaj, Berlin: Springer-Verlag; 1995. p. 388-403.
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  • [16] Armiyanti, Kadir MA., Kadzimin S., Panjaitan SB., Aziz MA. Establishment of plant regeneration of Michelia champaca L. through cell suspension culture technique, Journal of Medicinal Plants Research 2012; 6(8): 1394-1402.
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  • [18] Fernando MTR., Gehan Jayasurya KMG., Walck JL., Wijetunga ASTB. Identifying dormancy class and storage behaviour of champak (Magnolia champaca) seeds, an important tropical timber tree, Journal of the National Science Foundation of Sri Lanka 2013; 41(2): 141-146.
  • [19] Ibrahim, R., Hussein S., Noordin N., Azlan E., Manan MA., Adnan H., Vellupillai M. Advanced cell culture technology for essential oil production and microarray studies leading to discovery of genes for fragrance compounds in Michelia alba (cempaka putih), Acta Horticultura 2008; 765, 95-100.
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  • [23] Promputtha I., Promputtha I., Lumyong S., Lumyong P., Mckenzie EHC., Hyde KD. Fungal succession on senescent leaves of Manglietia garrettii in Doi Suthep-Pui National Park, northern Thailand, Fungal Diversity 2002; 10, 89-100.
  • [24] Promputtha I., Lumyong S., Lumyong P., Mckenzie EHC., Hyde KD. Fungal saprobes on dead leaves of Magnolia lillifera (Magnoliaceae) in Thailand, Cryptogamie Mycologie 2004; 25, 43-47.
  • [25] Monkai J., Chukeatirote E., Chamyuang S., Synytsya A., Rumi T., Hyde KD. Antimicrobial activity of some saprobic fungi isolated from Magnolia liliifera and Cinnamomum iners leaves, Mycology 2013; 4(2): 82-84.
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  • [27] Pudjiono, S. Pengaruh perbedaan media tanam terhadap perkembangan perakaran dan keberhasilan stek pucuk manglid (Magnolia champaca var pubinervia (Blume) Figlar & Noot.) (The effect of different growing media on root development and the success of manglid shoot cuttings (Magnolia champaca var pubinervia (Blume) Figlar & Noot.)). Seminar Nasional Pendidikan Biologi dan Saintek II, 20 Mei 2017, pp: 22-27, Universitas Muhammadiyah, Surakarta, Indonesia.
  • [28] Hong TD. Ellis RH. A protocol to determine seed storage behaviour. IPGRI Technical Bulletin No. 1. Rome, Italy: International Plant Genetic Resources Institute (IPGRI) Publication; 1996.
  • [29] Bahuguna VK., Rawat MMS., Naithani KC. Investigation on the seed of Michelia champaca Linn. for perfection of optimum conditions of storage, Indian Forester 1987; 113, 243-248.
  • [30] Robbins AMJ. Storage of champ (Michelia champaca) seed, Banko Janakari 1988; 2, 55-57.
  • [31] Bisht NS., Ahlawat SP. Seed technology. Itanagar, India: SFRI Information Bulletin No 7; 1999.
  • [32] Yuniarti N., Nurhasybi. Perubahan viabilitas dan biokimia benih bambang lanang (Michelia champaca Linn.) pada berbagai tingkat pengeringan dan metode penyimpanan (The change of viability and seed biochemistry on bambang lanang (Michelia champaca Linn.) in different of drying time and storage method), Jurnal Perbenihan Tanaman Hutan 2015; 3(1): 36-48. (In Indonesian)
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  • [34] Candiani G., Galetti M., Cardoso VJM. Seed germination and removal of Michelia champaca L. (magnoliaceae) in eucalypt stands: the influence of the aril, Revista Arvore 2004; 28(3): 327-332.
  • [35] Tan SH., Abdullah TL., Go R. Effect of plant growth regulators on cutting propagation of cempaka putih (Magnolia alba) and cempaka kuning (Magnolia champaca), Transactions of The Malaysian Society of Plant Physiology 2018; 25, 124-127.
  • [36] Dwicandra NMO, Astuti MAP., Ariantari NP., Yowani SC. Skrining kandungan kimia ekstrak etanol 80% kulit batang Michelia champaca L. (Screening chemical content of stem bark of Michelia champaca L. extracted by 80% ethanol), Jurnal Farmasi Udayana 2013; 2(3): 43-47.
  • [37] Rout PK., Naik SN., Rao YR. Composition of the concrete, absolute, headspace and essential oil of the flowers of Michelia champaca Linn., Flavour and Fragrance Journal 2006; 21, 906-911.
  • [38] Kaiser R. New volatile constituents of the flower concrete of Michelia charnpaca L, Journal of Essential Oil Research 1991; 3, 129-146.
  • [39] Baez D., Morales D., Pino JA. Volatiles from Michelia champaca flower: comparative analysis by simultaneous distillation-extraction and solid phase microextraction, Natural Product Communications 2012; 7(5): 659-660.
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There are 71 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering (Other)
Journal Section REVIEWS
Authors

Siti Maesaroh 0000-0003-1024-284X

Çiğdem Alev Özel 0000-0002-5952-1412

Publication Date June 1, 2021
Submission Date November 12, 2020
Acceptance Date February 3, 2021
Published in Issue Year 2021

Cite

APA Maesaroh, S., & Özel, Ç. A. (2021). Biotechnological Approaches for the Improvement of Magnolia Genus Grown in Indonesia. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 4(2), 186-203. https://doi.org/10.47495/okufbed.825177
AMA Maesaroh S, Özel ÇA. Biotechnological Approaches for the Improvement of Magnolia Genus Grown in Indonesia. Osmaniye Korkut Ata University Journal of The Institute of Science and Techno. June 2021;4(2):186-203. doi:10.47495/okufbed.825177
Chicago Maesaroh, Siti, and Çiğdem Alev Özel. “Biotechnological Approaches for the Improvement of Magnolia Genus Grown in Indonesia”. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi 4, no. 2 (June 2021): 186-203. https://doi.org/10.47495/okufbed.825177.
EndNote Maesaroh S, Özel ÇA (June 1, 2021) Biotechnological Approaches for the Improvement of Magnolia Genus Grown in Indonesia. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi 4 2 186–203.
IEEE S. Maesaroh and Ç. A. Özel, “Biotechnological Approaches for the Improvement of Magnolia Genus Grown in Indonesia”, Osmaniye Korkut Ata University Journal of The Institute of Science and Techno, vol. 4, no. 2, pp. 186–203, 2021, doi: 10.47495/okufbed.825177.
ISNAD Maesaroh, Siti - Özel, Çiğdem Alev. “Biotechnological Approaches for the Improvement of Magnolia Genus Grown in Indonesia”. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi 4/2 (June 2021), 186-203. https://doi.org/10.47495/okufbed.825177.
JAMA Maesaroh S, Özel ÇA. Biotechnological Approaches for the Improvement of Magnolia Genus Grown in Indonesia. Osmaniye Korkut Ata University Journal of The Institute of Science and Techno. 2021;4:186–203.
MLA Maesaroh, Siti and Çiğdem Alev Özel. “Biotechnological Approaches for the Improvement of Magnolia Genus Grown in Indonesia”. Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 4, no. 2, 2021, pp. 186-03, doi:10.47495/okufbed.825177.
Vancouver Maesaroh S, Özel ÇA. Biotechnological Approaches for the Improvement of Magnolia Genus Grown in Indonesia. Osmaniye Korkut Ata University Journal of The Institute of Science and Techno. 2021;4(2):186-203.

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