In vitro conservation is recognized as one promising tool in conserving plant genetic resources like gladiolus when grown in the tropics. The study was conducted at the Indonesian Ornamental Crops Research Institute (IOCRI) from February 2016 to August 2018. A complete factorial experiment was set up to establish the combination of gladiolus cultivars and media compositions treatments for in vitro conservation. The results showed that the trends of plantlet survival rate and viability in every 4 months’ observation of both cultivars were similar. The highest plantlet death rate was detected during 12 – 16 months. After 24 months of storage, the differences in plantlet survival and viability were observed. Gladiolus ‘Nafa’ had higher plantlet survivals and viability than ‘Kaifa’. In respect to nutrient and sucrose concentration, full nutrient strength preserved 5% higher plantlet survival and viability than ½ MS. While media contained sucrose 90 g/l also supported plantlet survival and viability for more than 20% and 17%, respectively than lower sucrose media.

Arrigoni-Blank, M. D. F., Tavares, F. F., Blank, A. F., dos Santos, M. C., Menezes, T. S. A., & de Santana, A. D. D. (2014). In vitro conservation of sweet potato genotypes. The Scientific World Journal, 2014(208506), 1–7. crossref

Badriah, D. S., Wuryaningsih, S., & Rahayu, R. S. (2010). Pembentukan varietas gladiol yang novel. Agrivigor, 10(1), 84–98. Retrieved from website

Bakhtiar, Aswidinnoor, H., & Sutater, T. (2006). Evaluasi ketahanan turunan dari beberapa silangan gladiol terhadap fusarium pada tingkat semaian. Jurnal Floratek, 2(1), 28–36. Retrieved from website

Bekheet, S., Matter, M., Taha, H., & El-Ashry, A. (2016). In vitro conservation of jojoba (Simmondsia chinensis) shootlet cultures using osmotic stress and low temperature. Middle East Journal of Agriculture Research, 5(4), 396–402. Retrieved from pdf

Bello-Bello, J., Poot-Poot, W., Iglesias-Andreu, L., Caamal-Velázquez, H., & de la Cruz Diaz-Sanchez, M. (2014). Comparison of effect of osmoregulators and growth inhibitors on in vitro conservation of sugarcane. Agrociencia, 48(4), 439–446. Retrieved from website

Bertrand-Desbrunais, A., Noirot, M., & Charrier, A. (1992). Slow growth in vitro conservation of coffee (Coffea spp.). Plant Cell, Tissue and Organ Culture, 31, 105–110. crossref

Bhat, Z. A., Nazki, I. T., Nelofar, & Burhan, H. (2017). Evaluation of gladiolus cultivars for growth, flowering, spike yield and corm yield under temperate regions of Kashmir. Indian Horticulture Journal, 7(3&4), 203–207. Retrieved from website

Budiarto, K., & Rosario, T. L. (2017). Performance of four chrysanthemum [Dendrathema grandiflora (Ramat.) Kitam.] varieties conserved in vitro. Philippine Agricultural Scientist (Philippines), 100(4), 347–357. Retrieved from website

Ciuzan, O., Pamfil, D., & Rakosy-Tican, E. (2015). The short-term conservation of the species Gladiolus hybridus cultivar oscar. ProEnvironment, 8, 433–438. Retrieved from website

Cruz-Cruz, C. A., González-Arnao, M. T., & Engelmann, F. (2013). Biotechnology and conservation of plant biodiversity. Resources, 2(2), 73–95. crossref

da Silva, D. P. C., Ozudogru, E. A., dos Reis, M. V., & Lambardi, M. (2018). In vitro conservation of ornamental plants. Ornamental Horticulture, 24(1), 28–33. crossref

da Silva, T. L., & Scherwinski-Pereira, J. E. (2011). In vitro conservation of Piper aduncum and Piper hispidinervum under slow-growth conditions. Pesquisa Agropecuaria Brasileira, 46(4), 384–389. crossref

Du, Y., Li, W., Zhang, M., He, H., & Jia, G. (2012). The establishment of a slow-growth conservation system in vitro for two wild lily species. African Journal of Biotechnology, 11(8), 1981–1990. crossref

Edirisinghe, E. S. C., Denagamage, C. H., & Samarasinghe, W. L. G. (2017). Effect of nutrient medium composotions in in vitro conservation of Musa spp. Annals of Sri Lanka Departement of Agriculture, 19(2), 60–70. Retrieved from pdf

Hanan, M., Youssef, A., & Saleh, S. S. (2013). Conservation plantlets of Anthurium andraeanum (Lindeu ex Andre) by using in vitro technique. Middle East Journal of Agriculture Research, 2(2), 36–43. Retrieved from pdf

Hassan, N. A., Gomaa, A. H., Shahin, M. A., & El Homosany, A. A. (2013). In vitro storage and cryopreservation of some grape varieties. Journal of Horticultural Science & Ornamental Plants, 5(3), 183–193. Retrieved from pdf

Hassan, N. A., Stino, R. G., Gomaa, A. H., & Al-mousa, R. N. (2014). In vitro medium-term germplasm conservation and genetic stability of grape (Vitis vinifera L.). Journal of Horticultural Science & Ornamental Plants, 6(1), 9–17. Retrieved from pdf

Lopez-Puc, G. (2013). An effective in vitro slow growth protocol for conservation of the orchid Epidendrum chlorocorymbos Schltr. Tropical and Subtropical Agroecosystems, 16(1), 61–68. Retrieved from website

Maqsood, A., & Muhammad, A. A. (2010). In vitro storage of some pear genotypes with the minimal growth technique. Turkish Journal of Agriculture and Forestry, 34, 25–32. crossref

Montalvo-Peniche, M. D. C., Iglesias-Andreu, L. G., Mijangos-Cortés, J. O., Nahuat-Dzib, S. L., Barahona-Pérez, F., Canto-Flick, A., & Santana-Buzzy, N. (2007). In vitro germplasm conservation of Habanero pepper (Capsicum chinense Jacq.). HortScience, 42(5), 1247–1252. crossref

Muñoz, M., Díaz, O., Reinún, W., Winkler, A., & Quevedo, R. (2019). Slow growth in vitro culture for conservation of Chilotanum potato germplasm. Chilean Journal of Agricultural Research, 79(1), 26–35. crossref

Nasiruddin, M., & Islam, A. R. (2018). In vitro slow-growth conservation for two genotypes of Solanum tuberosum L. Bangladesh Journal of Botany, 47(3), 369–380. crossref

Niino, T., & Arizaga, M. V. (2015). Cryopreservation for preservation of potato genetic resources. Breeding Science, 65, 41–52. crossref

Noor-Ul-Amin, Khattak, A. M., Ahmad, I., Ara, N., Alam, A., Ali, M., & Ali, I. (2013). Corm and cormel size of gladiolus greatly influenced growth and development of subsequent corm production. Pakistan Journal of Botany, 45(4), 1407–1409. Retrieved from pdf

Nufus, F. R., Saptadi, D., & Yulianti, F. (2018). Slow growth jeruk citrumelo (Citrus paradisi MacFaden cv. Duncan x Poncirus trifoliata (L.) Raf) dalam kondisi in vitro: Pengaruh tipe dan konsentrasi sumber karbon. Jurnal Produksi Tanaman, 6(1), 154–160. Retrieved from website

Nuryani, W., Yusuf, S., Djatnika, I., Hanudin, & Marwoto, B. (2011). Pengendalian penyakit layu fusarium pada subang gladiol dengan pengasapan dan biopestisida. Jurnal Hortikultura, 21(1), 40–50. crossref

Ozudogru, A., da Silva, D. P. C., Kaya, E., Dradi, G., Paiva, R., & Lambardi, M. (2013). In vitro conservation and cryopreservation of Nandina domestica, an outdoor ornamental shrub. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 41(2), 638–645. crossref

Purohit, S., & Agarwal, M. (2017). Mineral manipulation and antioxidative studies in carnation - Dianthus caryophyllus L. International Journal of Crop Science and Technology, 3(2), 28–35. crossref

Rahayu, E. S., Habibah, N. A., & Herlina, L. (2015). Development of In vitro conservation medium of Carica pubescens Lenne & K. Koch through nutrients concentration reduction and osmoregulator addition. Biosaintifika: Journal of Biology & Biology Education, 7(1), 22–28. Retrieved from website

Rakosy-Tican, E., Bors, B., & Szatmari, A.-M. (2012). In vitro culture and medium-term conservation of the rare wild species Gladiolus imbricatus. African Journal of Biotechnology, 11(81), 14703–14712. Retrieved from website

Rodrigues, P. H. V., Arruda, F., & Forti, V. A. (2018). Slow-grown in vitro conservation of Heliconia champneiana cv. Splash under different light spectra. Scientia Agricola, 75(2), 163–166. crossref

Saptari, R. T., Sinta, M. M., & Budiani, A. (2017). In vitro propagation of Anthurium adreanum cv. Nitta through organogenesis. AGRIVITA Journal of Agricultural Science, 39(2), 192–200. crossref

Shehata, W. F., & Al-Khayri, J. M. (2013). Conservation of endangered hassawi peach (Prunus persica L.) through micropropagation. Journal of Biological Sciences, 13(2), 75–81. crossref

Skalova, I., Viehmannova, I., & Vitamvas, J. (2013). In vitro conservation of Smallanthus sonchifolius under slow-growth conditions. Agricultura Tropica et Subtropica, 45(3), 147–150. crossref

Tokoporo, G. L., Elhassan, A. A., & Ali, M. A. (2013). Effect of nutrient medium concentration and temperature on short- term in vitro conservation of shoot-tip explants of banana. Jonares, 1, 37–40. Retrieved from pdf

Weilan, Xu, S., & Zhu, X. (2018). Effects of low temperature on Chrysanthemum shiwogiku var. Kinokuniense in vitro conservation. Bangladesh Journal of Botany, 44(4), 675–678. crossref