Cryopreservation of Smirnovia iranica (Sabeti) Seeds and Evaluation of Cryopreserved Seeds under Laboratory, Greenhouse and Natural Habitat Conditions
Subject Areas : Seed Science and TechnologyMohebbat Ali Naderi Shahab 1 , Maryam Jebelli 2 , Ali Ashraf Jafari 3
1 - Research Institute of Forests and Rangelands, AgriculturalResearch Education and Extension Organization (AREEO), Tehran, Iran
2 - Research Institute of Forests and Rangelands, AgriculturalResearch Education and Extension Organization (AREEO), Tehran, Iran
3 - Research Institute of Forests and Rangelands, AgriculturalResearch Education and Extension Organization (AREEO), Tehran, Iran
Keywords:
Abstract :
Al Zoubi, O. M., Normah, M. N., 2012. Desiccation sensitivity and cryopreservation of excised embryonic axes of Citrus suhuiensis cv.Limau Madu, Citrumelo [Citrus paradisi Macf.× Poncirus trifoliata (L.) Raf.] and Fortunella polyandra. CryoLetters, 33: 240-250.
Avrami, M., 1941. Granulation phase change and microstructure, III. Kinetics of phase change. Journal of Chemical Physics, 9: 177-184.
Blakesley, D., Kiernan, R. J., 2001. Cryopreservation of axillary buds of a Eucalyptus grandis x Eucalyptus camaldulensis hybrid. CryoLetters, 22: 13-18.
Caswell, K. L., Kartha, K. K., 2009. Recovery of plants from pea and strawberry meristems cryopreserved for 28 years. CryoLetters, 30: 41-46.
Chmielarz, P., March, G. G., Boucaud, M. T., 2005. Cryopreservation of Quercus robur L. embryogenic calli. CryoLetters, 26: 349-356.
Flachsland, E., Terada G., Scocchi, A., Rey, H., Mroginski, L., Engelmann, F., 2006. Cryopreservation of seeds and in vitro–cultured protocorms of Oncidium bifolium Sims. (Orchidaceae) by encapsulation-dehydration. CryoLetters, 27: 235-242.
Gale, S., John, A., Harding, K., Benson, E., 2008. Developing cryopreservation for Picea sitchensis (sitka spruce) somatic embryos: a comparison of vitrification protocols. CryoLetters, 29: 135-144.
Gratton, S., Grieve, C. M., Poss, J. A., Benes S. E., 2004. Evaluation of salt-tolerant forages for sequential water reuse system: I. Biomass production. Agricultural water management, 70: 109-120.
Hao, Y. J., You, C. X., Deng, X. X., 2002. Analysis of ploidy and the patterns of amplified fragment length polymorphism and methylation sensitive amplified polymorphism in strawberry plants recovered from cryopreservation. CryoLetters, 23: 37-46.
Harding, K., Benson, E. E., 2001. The use of microsatellite analysis in Solanum tuberosum L. in vitro plantlets derived from cryopreserved germplasm. CryoLetters, 22: 199 – 208.
Hay, F. R., Muir. J. S. K., 2000. Low temperature survival of slender Naiad (Najas flexilis) seeds. CryoLetters, 21: 271-278.
Jeyendran, R. S., Van der Ven, H. H., Perez-Pelaez, M., Zaneveld, L. J., 1985. Effect of glycerol and cryopreservation on oocyte penetration by human spermatozoa. Andrologia, 17 : 241-248.
Kapustina, L. A., 2001. Biodiversity, ecology and microelement composition of Kyzylkum desert shrubs (Uzbekistan) in: USDA Forest Service Proceedings RMRS-P-21. 2001.
Kuleshova, L. L., MacFarlane, D. R., Trounson, A. O., Shaw, J. M., 1999. Sugars exert a major influence on the vitrification properties of ethylene glycol–based solutions and have low toxicity to embryos and oocytes. Cryobiology, 38: 119-130.
Makeen, A. M., Noor, N. M., Dussert, S., Clyde, M. M., 2005. Cryopreservation of whole seeds and excised embryonic axes of Citrus suhuiensis cv. Limau Langkat in accordance to their desiccation sensitivity. CryoLetters, 26: 259-268.
Naderi Shahab, M., Hatami, F., Tabari, M., Jafari. A. A., 2009. Cryopreservation and evaluation of chinese arbor-vitae (Biota orientalis) Seeds. Journal of New Seeds, 10: 264-276.
Naderi Shahab, M., Jebelli, M., Shahmoradi, A. A., Jafari A. A., 2013. Seed cryopreservation and evaluation of Ferula gummosa and Kelussia odoratissima. Seed Technology Journal, 31: 103-116.
Ozden-Tokatli, Y., Ozudogru, E. A., Gumusel, F., Lambardi, M., 2007. Cryopreservation of Pistacia spp. seeds by dehydration and one-step freezing. CryoLetters, 28 (2): 83-94
Rall, W. F., 1987. Factors affecting the survival of mouse embryos cryopreserved by vitrification. Cryobiology, 24: 387–402.
Rechinger, K. H., 1984. Flora Iranica. Akademiche Druk-U. Verlagsanstalt, Graz, Austria.
Sakai, A., Kobayashi, S., Oiyama, I., 1991. Survival by vitrification of nucellar cells of navel orange (Citrus sinensis Osb. var. brasiliensis Tanaka) cooled to -196°C. Journal of Plant Physiology, 137: 465–470.
Sánchez, C., Martinez, M. T., Vidal, N., San–José, M. C., Valladares, S., Vieitez, A. M., 2008. Preservation of Quercus robur germplasm by cryostorage of embryogenic cultures derived from mature trees and RAPD analysis of genetic stability. CryoLetters, 29: 493-504.
Stanwood, P. C., 1985. Cryopreservation of seed germplasm for genetic conservation. in: Kartha, K. K., (ed) Cryopreservation of Plant Cells and Tissues. Boca Raton, FL: CRC, 199-226.
Thammasiri, K., 2000. Cryopreservation of seeds of a Thai orchid (Doritis pulcherrima Lindl.) by vitrification. CryoLetters, 21: 237-244.
Tyagi, R. K., Hymowitz, T., 2003. Pollen from Glycine species survive cryogenic exposure. CryoLetters, 24: 119-124.
Walters, C., Wheeler, L. J., Stanwood, P. C., 2004. Longevity of cryogenically stored seeds. Cryobiology, 48: 229-244.
Wesley-Smith, J., Walters, C., Berjak, P., Pammenter, N. W., 2004. The influence of water content, cooling and warming rate upon survival of embryonic axes of Poncirus trifoliata (L.). CryoLetters, 25: 129-138.
Wood, C. B., Pritchard, H. W., Lindegaard, K., 2003. Seed cryopreservation and longevity of two Salix hybrids. CryoLetters, 24: 17-26.
Zhai, Z., Wu, Y., Engelmann, F., Chen, R., Zhao, Y., 2003. Genetic stability assessments of plantlets regenerated from cryopreserved in vitro cultured grape and kiwi shoot–tips using RAPD. CryoLetters, 24: 315-322.
