Micropropagation and in vitro Conservation via Slow Growth Techniques of Prunus webbii (Spach) Vierh: An Endangered Plant Species in Albania
References:
[1] J. Vangjeli, B. Ruci, A. Mullaj, “Libri i Kuq. Bimët e kërcënuara dhe të rralla të Shqipërisë”. 1995.
[2] XH. Qosja, K. Paparisto. M. Demiri, J. Vangjeli, E. Balza, “Flora e Shqipërisë 4”, Akademia e Shkencave të Republikës së Shqipërisë. Qendra e Kërkimeve Biologjike, 1992, Tiranë.
[3] G. Ladizinsky, On the origin of almond, Genetic Resources and Crop Evolution. 1999, 46:143–147.
[4] D. Zohary, M. Hopf, “Domestication of plants in the old world”, Clarendon Press, 1993, Oxford.
[5] E. F. Fang, N. Tzi Bun, “Ribonucleases of different origins with a wide spectrum of medicinal applications”. School of Biomedical Sciences, Faculty of Medicine, Chinese University of Hong Kong, 2010. Shatin, Hong Kong.
[6] A. B. Russell, J. W. Hardin, L. Grand. “Poisonous Plants of North Carolina”. North Carolina State University. 1997.
[7] J. Vangjeli, “Udhëheqës fushor i Florës së Shqipërisë”, Akademia e Shkencave të Republikës së Shqipërisë. Instituti i kërkimeve Biologjike, 2003, Tiranë.
[8] E. Kongjika, ZH. Zekaj, E. Çaushi, I. Stamo, “Bioteknologjia e bimëve – Kulturat “in vitro”, Akademia e Shkencave, 2002, 97 – 105;
[9] C. Damiano, M. D. Arias Padro, A. Frattarelli, Propagation and establishment in vitro of myrtle (Myrtus communis L.), pomegranate (Punica granatum L.) and mulberry (Morus alba L.), Propagation of Ornamental Plants, 2008, 8 (1): 3-8.
[10] M. E. Daorden, J. A. Marín, A. Arbeloa, Stratification Temperature affects the in vitro Germination of Immature Prunus Embryos, ISHS Acta Horticultura, 2004, 658, vol. 2: 135-140;
[11] A.H. Neveen, S. A. Bekheet, Mid-term storage and genetic stability of Strawberry tissue cultures. Research Journal of Agriculture and Biological Sciences, 2008, 4(5): 505 – 511.
[12] N. R. Kameswara, Plant genetic resources: Advancing conservation and use through biotechnology, African Journal of Biotechnology, Vol. 3(2). 2004, (pp. 136 - 145).
[13] A. Maqsood, A. A. Muhamad, H. S. Asad, A. Abdul, In vitro preservation of Pyrus germplasm with minimal growth using different temperature regimes, Pak. J. Bot., 2010, 42(3): 1639 – 1650.
[14] W. T. Muriithi, I. S. Harry, E. C. Yeung, T. A. Thorpe, Plantlet regeneration in chir pine (Pinus roxburghii Sarg): morphogenesis and histology, Forest Ecol. Manag. 1995, 57, 141–160.
[15] T. Murashige, F. Skoog, A revised medium for rapid growth and bioassays with tobacco tissue cultures, Physiol. Plant. 1962, 15: 473 – 497.
[16] B. M. Reed, Cold storage of strawberries in vitro: a comparison of three storage systems, Fruit varieties Journal, 1992, 46(2): 98 – 102.
[17] V. Raghavan, P. S. Srivastava, “Embryo culture. In: Johri, B. M., ed. Experimental embryology of vascular plants”, Berlin: Springer-Verlag; 1982:195–230.
[18] G. Corsi, The suspensor of Eruca sativa Miller (Cruciferae) during embryogenesis in vitro, Giorn. Bot. Ital. 1982, 106:41–54.
[19] E. C. Yeung, I. M. Sussex, “Embryogeny of Phaseolus coccineus: the suspensor and the growth of the embryo-proper in vitro”. Z. Pflanzenphysiol. 1979, 91:423–433.
[20] M. Monnier, Survival of young immature Capsella embryos cultured in vitro, J. Plant Physiol. 115:105–113; 1984.
[21] C. R. Sánchez-Romero, B. Perán-Quesada, A. Márquez-Martín, A. Barceló-Muñoz, F. Pliego-Alfaro, In vitro rescue of immature avocado (Persea Americana mill.) embryos, Sci. Hort. 2007, 111:365-370
[22] P. Maheshwari, B. Baldev, Artificial production of buds from the embryos of Cuscuta reflexa, Nature, 1961, 191:197–198.
[23] A. S. Muna, A. K. Ahmad, K. Mahmoud, K. Abdul Rahman, In vitro propagation of a semi-dwarfing cherry rootstock, Plant Cell, Tissue and Organ Culture, 1999, 59: 203–208.
[24] K. W. Pruski, T. Lewis, T. Astatkie, J. Nowak, Micropropagation of Chokecherry and Pincherry cultivars, 2000, Plant Cell, Tissue and Organ Culture, 63: 93–100.
[25] M. Saponari, G. Bottalico, G. Savino, In vitro propagation of Prunus mahaleb and its sanitation from Prune dwarf virus. Advances in Horticultural Science”, 1999, 13:56–60.
[26] H. Yildirim, E. Tilkat, A. Onay, H.Ç. Ozen, In Vitro Embryo Culture of Apricot, Prunus armeniaca L. cv. Hacıhaliloglu, International Journal of Science & Technology, 2007, Volume 2, No 2, 99-104.
[27] M. N. Nas, Y. Bolek, “Short Cut to Long Distance: Developing an Almond Micropropagation Medium”, 5th International Symposium on Pistachios and Almonds – ISHS – Sanliurfa – Turkey, 2009, Book of Abstracts, p. 230.
[28] M. Nas, P. E. Read, A hypothesis for the development of a defined tissue culture medium for higher plants and micro-propagation of hazelnuts, Scientia Horticulturae, 2004, 101:189-200.
[29] R. W. Tahtamouni, R. A. Shibli, Preservation at low temperature and cryopreservation in wild pear (Pyrus syriaca). Adv. Hortic. Sci., 1999, 13: 156-160.
[30] C. Lundergan, J. Janick, Low temperature storage of in vitro apple shoots, Hort Science, 1979, 14: 514.
[31] W. H. Wanas, J. A. Callow, L. A. Withers, “Growth limitation for the conservation of pear genotypes”. In: Plant Tissue Culture and Its Agricultural Applications. Butterworth, London, 1986, pp. 285-290.
[32] R. L. Bell, B. M. Reed, In vitro tissue culture of pear: advances in techniques for micropropagation and germplasm preservation, Acta Horti. 2002, 596: 412-418.
[33] V. Negri, N. Tosti, A. Standardi, Slow growth storage of single node shoots of apple genotypes, Plant Cell Tissue Org. Cult., 2000, 62: 159-162.
[34] T. Orlikowska, Effect of in vitro storage at 4oC on survival and proliferation of two apple rootstocks, Plant Cell, Tissue and Organ Cult. 1992, 31: 1–7.
