Composição de meios de crescimento lento para armazenamento in vitro (sgs) de Aglaonema
DOI:
https://doi.org/10.1590/2447-536X.v30.e242696Palavras-chave:
Aglaonema, benzilaminopurina, armazenamento in vitro, ácido indolilacético, Murashige e SkoogResumo
Aglaonema é uma das commodities de plantas ornamentais frequentemente afetada pela queda dos preços no mercado de plantas ornamentais. Este fenômeno exige uma estratégia de armazenamento de sementes de cultivares raras e exóticas no curto e médio prazo. O armazenamento in vitro é uma forma de antecipar isso. Este estudo teve como objetivo obter a composição adequada de meios de cultivo in vitro para armazenamento de plantas de Aglaonema por armazenamento de crescimento lento (SGS). Este estudo utilizou um delineamento inteiramente casualizado com um fator, composto por 7 tratamentos, ou seja, meio 1/4 MS, 1/2 MS e MS completo, com adição de 1,0 mg L-1, 2,0 mg L-1 de Benzil aminopurina (BAP) e a adição de ácido indolacético (IAA) 1,0 mg L-1, 2,0 mg L-1. Os resultados mostraram que a composição do meio de plantio em ¼ MS + BAP 1,0 mg L-1 + IAA 1,0 mg L-1 foi a melhor para armazenamento de crescimento lento de Aglaonema in vitro.
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ALDEEN, A.M.T.; MONA, S.E. Enhancement of Aglaonema commutatum propagation using thidiazuron and naphthalene acetic acid in vitro. London Journal of Medical and Health Research, v.21, p.7-14, 2021.
BARAKAT, A.A.; GABER, M.K. Micropropagation and ex vitro acclimatization of Aglaonema plants. Middle East Journal of Applied Sciences, v.8, p.1425-1436, 2018.
BENELLI, C.; TARRAF, W.; IZGU, T.; DE CARLO, A. In vitro storage through slow growth storage technique of fruit species: an overview of the last 10 years. Plants, v.11, 2022. https://doi.org/10.3390/plants11233188
BUDIARTO, K.; RAHARDJO, I.B.; HANUDIN; NURYANI, W. In vitro storage of two Lilies accessions through modification of culture media. Journal Agro, v.7, p.1-13, 2020. https://doi.org/10.15575/4179
BUDIARTO, K.; ROSARIO, T.L. Evaluation of culture media for in vitro storage of Gladiolus cultivars. AGRIVITA Journal of Agricultural Sci- ence, v.42; p.205–213, 2020. http://doi.org/10.17503/agrivita.v0i0.2314
CHAUHAN, R.; SINGH, V.; QURAISHI, A. In vitro storage through slow-growth storage in synthetic seeds (Faisal, M. and Alatar, A.A. Eds.). Springer Nature Switzerland, p.397-416, 2019. https://doi.org/10.1007/978-3-030-24631-0_19.
DEWI, I.S., JAWAK, G., ROOSTIKA, I., SABDA, M., PURWOKO, B.S.; ADIL, W.H. In Vitro storage of Citrus maxima (Burm.) Merr. srinyonya cultivars using osmoticum and retardant. Journal AgroBiogen, v.6, p.84- 90, 2020 http://dx.doi.org/10.14295/oh.v24i1.1163
HASSANEN, S.A. In vitro preservation by encapsulation of shoot tips of Aerva lanata (L.) Juss. ex Schult. as a rare medicinal plant. International Journal of Research in Agricultural Sciences, v.8, p.176-186, 2021.
HODA, I.; EL-GEDAWEY, M.; HUSSEIN, S.E. Micropropagation of Aglonema ‘Lady Valentine’ by axillary shoots explants. Egyptian Academic Journal of Biological Sciences, v.1, p. 129-142, 2022. https://doi.org/10.21608/eajbsh.2022.273593
KAVIANI, B.; SEDAGHATHOOR, S.; MOTLAGH, M.R.S.; ROUHI, S. Influence of plant growth regulators (BA, TDZ, 2-iP and NAA) on micropropagation of Aglaonema widuri. Iranian Journal of Plant Physiol- ogy, v.9, p. 2901-2909, 2019.
KULAK, V.; LONGBOAT, S.; BRUNET, N.D.; SHUKLA, M.; SAXENA, P. In vitro technology in plant storage: relevance to biocultural diversity. Plants v.11, 2022. https://doi.org/10.3390/plants11040503
MENDLER-DRIENYOVSZKI, N.; MAGYAR-TÁBORI, K. Response of rowan berry (Sorbus redliana) shoot culture to slow growth storage conditions. Plants, v.12, 2023. https://doi.org/10.3390/plants12061287
RAJASEKHARAN, P.E.; SAHIJRAM, L. In vitro storage of plant germ- plasm. In: BAHADUR, B.; RAJAM, M.V.; SAHIJRAM, L.; KRISH-NAMURTHY, K.V.; BAHADUR, B. (eds.). Plant Biology and Biotech- nology: Volume II: Plant Genomics 417 and Biotechnology. New York: Springer Veralag, 2015.
RODRIGUES, P.H.V.; OLIVEIRA, E.L.; DEMETRIO, C.A.; AM-BROSANO, G.B.; PIEDADE, S.M.S. Effects of different light spectra on the slow-grown in vitro storage and quality of banana plantlets cv. Pra- ta Catarina (AAB). Plant Cell, Tissue, and Organ Culture (PCTOC), v.150, p.479–485, 2022. https://dx.doi.org/10.1007/s11240-022-02280-x
SAKR, W.M.A. In vitro propagation protocol for Dieffenbachia amoena ‘Tropic Snow’ plant. Journal of Horticultural Science & Ornamental Plants, v.8, p.179-191, 2016. https://10.5829/idosi.jhsop.2016.179.191
SILVA, D.P.C.; OZUDOGRU, E.A.; REIS, M.V.; LAMBARDI, M. In vitro storage of ornamental plants. Ornamental Horticulture v.24, p.28- 33, 2018. http://dx.doi.org/10.14295/oh.v24i1.1163
SYAHID, S.F. Effect of retardant Paclobutrazol on the growth of Temu Lawak (Curcuma xanthorrhiza) during in vitro storage. Jurnal Penelitian Tanaman Industri, v.13, p. 93-97, 2020. https://dx.doi.org/10.21082/lit-tri.v13n3.2007. 93-97p
SYAHID, S.F. In vitro storage of medicinal plant St. John’s wort (Hypericum perforatum L.) through dilution of basic medium. Agroscript v.3, p.11-18, 2021. https://doi.org/10.36423/AGROSCRIPT.V3I1.589
SYAHID, S.F.; PARLINDUNG, L.S. In vitro storage of Valeriana officinalis L. through minimal growth. E3S Web of Conferences v.373, 2023. https://doi.org/10.1051/e3sconf/202337303025
ZAHARA, M.; WIN, C.C. A Review: The effect of plant growth regulators on micropropagation of Aglaonema sp. Journal of Tropical Horticulture, v.3, p.96-100, 2020. https://doi.org/10.33089/jthort.v3i2.58
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