Environmental and ecological aspects of cultivation of selected energy and herbal plants propagated by in vitro culture

• Autorzy: Tomaszewska-Sowa M. , Figas A.
• Języki publikacji: EN

Abstrakty

EN

There has been a growing interest over the last years in techniques using alternative and pharmaceutical plants due to their wide potential applications. These species are characterised by valuable and multidirectional usable features, due to which their practical application is superior to their physiognomic features. These plants may provide a raw material for production of medicines, cosmetics or may be used for animal feeds. Moreover they may be used as ornamental, melliferous and energy plants. Owing to their generally low soil requirements they are used in the reclamation of degraded land. Among the species characterized by multidirectional use are Silphium perfoliatum, Helichrysum arenarium and Stevia rebaudiana. These plants are characterized by a high content of active compounds and a number of pro-health characteristics. Because raw materials for production of medicines and cosmetics should be standardized, cultures maintained under controlled conditions are a good source of seedlings.

Słowa kluczowe

EN

environmental aspect; ecological aspect; plant cultivation; herbal plant; micropropagation; in vitro culture; growth regulation; Silphium perfoliatum; Helichrysum arenarium; Stevia rebaudiana

• Wydawca: -
• Czasopismo: Infrastruktura i Ekologia Terenów Wiejskich
• Rocznik: 2014
• Numer: IV/3
• Opis fizyczny: p.1457-1465,ref.

Twórcy

autor

Tomaszewska-Sowa M.

• Department of Plant Genetics, Physiology and Biotechnology, University of Technology and Life Sciences in Bydgoszcz, Bernardynska 6, 85-029 Bydgoszcz, Poland

autor

Figas A.

• Department of Plant Genetics, Physiology and Biotechnology, University of Technology and Life Sciences in Bydgoszcz, Bernardynska 6, 85-029 Bydgoszcz, Poland

Bibliografia

• Ahmed, M.B., Salahin, M., Karim, R., Razvy, M.A., Hannan, M.M., Sultana,R., Hossain, M., Islam R. (2007). An efficient method for in vitro clonal propagation of a newlyintroduced sweetener plant (Stevia rebaudiana Bertoni.) in Bangladesh. American- Eurasian Journal of Scientific Research, 2 (2), 121-125.
• Alhady, M. R. A. A. (2011). Micropropagation of Stevia rebaudiana Bertoni. A New Sweetening Crop in Egypt. Global Journal of Biotechnology & Biochemistry, 6(4), 178-182.
• Bacler B. (2009). Zasoby gatunkowe cennych roślin leczniczych powiatu włoszczowskiego Część 2 – kocanki piaskowe Helichrysum arenarium (L.) Moench.. Ann. Acad.Med. Siles., 63(6), 54-59.
• Das, A., Gantait, S., Mandal, N. (2011). Micropropagation of an elite medicinal plant: Stevia rebaudiana Bert. International Journal of Agricultural Research, 6 (1), 40–48.
• Figas, A., Tomaszewska – Sowa, M., Lisiak, W. (2010). Mikrorozmnażanie roślin rożnika przerośniętego (Silphium perfoliatum L.) w kulturach in vitro. Ekologiai Technika XVIII, (5), 237 – 242.
• Gamborg, O. L., Miller, R. A., Ojima, K. (1968). Nutrient requirements of suspension cultures of soybean cell cultures. Exp. Cell. Res., 50, 151-158.
• Gauchan, D.P., Dhakal, A., Sharma, N., Bhandari, S., Maskey, E., Shrestha, N., Gautam, R., Giri, S., Gurung, S. (2014). Regenerative callus induction and biochemicalanalysis of Stevia rebaudiana Bertoni. Journal of Advanced Laboratory Researchin Biology, 5 (3), 41-45.
• Goettemoeller, J., Lucke, K. (2010). Stewia. Uprawa i wykorzystanie. Wydawnictwo Kubajak, Krzeszowice.
• Gürel, S., Gürel, E., Kaya, Z. (2000). Doubled haploid plant production from unpollinated ovules of sugar beet (Beta vulgaris L.). Plant Cell Rep., 19, 1155-1159.
• Hojden,, B. (2000). Stevia rebaudiana źródłem naturalnych substancji słodzących. Wiadomości Zielarskie, 42 (03), 7-8.
• Ibrahim, I. A., Nasr, M. I., Mohammed, B.R., El-Zefzafi, M.M. (2008). Plant growth regulators affecting in vitro cultivation of Stevia rebaudiana. Sugar Tech., 10 (3),254-259.
• Jagatheeswari, D., Ranganathan, P. (2012). Studies on Micropropagation of Stevia rebaudiana Bert. International Journal of Pharmaceutical and Biological Archives,3 (2): 315-320.
• Jain, P., Kachhwaha, S., Kothari, S.L. (2009). Improved micropropagation protocol and enhancement in biomass and chlorophyll content in Stevia rebaudiana (Bert.)Bertoni by using high copper levels in the culture medium. Scientia Horticulturae, 119 (3), 315-319.
• Janarthanam, B., Gopalakrishnan, M., Lakshmisai, G., Sekar, T. (2009). Plant regeneration from leaf derived callus of Stevia rebaudiana Bertoni. Plant TissueCulture & Biotechnology, 19 (2), 133–141.
• Jemiołkowska, A., Kowalski, R.. (2012). In vitro estimate of influence of Silphium perfoliatum L. leaves extract on some fungi colonizing the pepper plants. ActaSci. Pol. Hort. Cult., 11(3), 43-55.
• Jitendra, M., Monika, S., Ratan, S.D., Priyanka, G., Priyanka, S., Kiran, D.J. (2012). Micropropagation of an Anti diabetic Plant – Stevia rebaudiana Bertoni, (Natural Sweetener) in Hadoti Region of South-East Rajasthan, India. InternationalResearch Journal of Biological Sciences, 1 (3), 37-42.
• Klimont K. (2007). Evaluation of the usefulness of selected species of crop plants for remediation of land devastated by industry and municipal economy. Problems ofAgricultural Engineering, 2, 27–36 .
• Kowalski, R. (2002). Evaluation of oleanosides kontent in above and underground organs of Silphium perfoliatum L. Acta Sci. Pol. Hort. Cult., 1(2), 5-15.
• Kowalski, R., Kędzia, B. (2007). Evaluation of antibacterial activity of Silphium perfoliatum extracts. Pharmaceutical Biology, 6, 494-500.
• Kowalski, R., Wierciński, J. (2004). Evaluation of some Silphium species as alternative inulin raw materials. Annales Universitatis Mariae Curie-Skłodowska, Sectio E,59(1), 189-195.
• Kowalski, R., Wolski, T. (2003). Evaluation of phenolic acid content in Silphium perfoliatum L. leaves, inflorescences and rhizomes, Electronic Journal of Polish Agricultural Universities (online), Horticulture. Volume, 6. Issue 1. http://www.ejpau.media.pl/volume6/issue1/ horticulture/art-03.html (access15-05-2011).
• Kuykendall, L. D., Saunders, J. W., Stockett, T. M. (2003). Rhizobium radiobacter conjugation and callus independent shoot regeneration used to introduce thecercosporin export gene cfp from cercospora into sugar beet (Beta vulgaris L.).Biotechnol. Lett., 25, 739-744.
• Lehmkuhler, J. W., Ramos, M. H., Albrecht, K. A. (2007). Cup plant silage as a replacement for corn silage in beef cattle diets. Online. Forage and Grazinglands doi, 10.1094/FG-2007-1107-01-RS.
• Lemus-Mondaca, R., Vega-Gálvez, A., Zura-Bravo, L., Ah-Hen, K. (2012). Stevia rebaudiana Bertoni, source of a high-potency natural sweetener: A comprehensive review on the biochemical, nutritional and functional aspects. Food Chemistry,132 (3), 1121-1132.
• Linsmaier, E. M., Skoog, F. (1965). Organic growth factor requirements of tobacco tissue. Physiol. Plant., 18, 100-127.
• Majtkowski W., Szulc P.M. Gaca J., Mikołajczyk J. (2010). Assessment of the use of Silphium perfoliatum L. in phytoremediation of sites contaminated with heavymetals. Biuletyn IHAR 256, 163-169.
• Mathur, S., Shekhawat, G. S. (2013). Establishment and characterization of Stevia rebaudiana (Bertoni) cell suspension culture: an in vitro approach for productionof stevioside. Acta Physiologiae Plantarum, 35, 931-939.
• Mezei, S., Kovacev, L., Nagl, N. (2006). Sugar beet micropropagation. Biotechnol. & Biotechnol. Eq., 20, 9-14.
• Modi, A.,R., Patil, G., Kumar, N., Singh, A.,S., Subhash, N. (2012). A Simple and Efficient In vitro Mass Multiplication Procedure for Stevia rebaudiana Bertoniand Analysis of Genetic Fidelity of In vitro Raised Plants Through RAPD. SugarTech, 14 (4), 391-397.
• Moktaduzzaman, M., Rahman, S. M. M. (2009). Regeneration of Stevia rebaudiana and analysis of somaclonal variation by RAPD. Biotechnology, 8 (4), 449–455.
• Murashige, T., Skoog, F. (1962). A revised medium for rapid growth and bioassay with tobacco tissue cultures. Physiol. Plant., 15, 473-497.
• Pawełczak, A., Bryksa-Godzisz, M. (2008). Mikrorozmnażanie kocanek piaskowych (Helichrysum Arenarium (L.) moench) z pąków kątowych. Zesz. Probl. Post.Nauk Rol., 527, 247-254.
• Piłat, J., Majtkowski, W., Majtkowska, G., Mikołajczak, J., Góralska, A. (2007). Przydatność do zakiszania wybranych form gatunku roślin z rodzaju silphium.Journal of Central European Agriculture, 8(3), 363-368.
• Rutkowski, L. (2011). Klucz do oznaczania roślin naczyniowych Polski niżowej. Warszawa: PWN, 816.
• Sawilska, A.K., Figas, A. (2006). Micropropagation of Helichrysum arenarium (L.) Moench. International Conference Biotechnology 2006. Česke Budejovice, Czech Republic, 15-16 Feb. 2006, Scientific Pedagogical Publishing, 721-723.
• Shi, Xiang-Yuan, Wang, Xiu-Hong, Tian, Liang-Cai, Zhang, Nai-sheng. (2011). Studies on Rapid Propagation Technique for Tissue Culture in Silphium perfoliatum L via.Journal of Shanxi Agricultural Sciences, 1, 17-20.
• Thiyagarajan, M., Venkatachalam, P. (2012). Large scale in vitro propagation of Stevia rebaudiana (bert) for commercial application: Pharmaceutically important andantidiabetic medicinal herb. Industrial Crops and Products, 37, 111-117.
• Ţîţei, V., Teleuţă, A., Muntea, A. (2013). The Perspective of Cultivation and Utilization of the Species Silphium Perfoliatum L. and Helianthus Tuberosus L. in Moldova.Bulletin UASMV, Agriculture, 7(1), 160-166.
• Tomaszewska–Sowa, M., Figas, A. (2011). Optimization of the processes of sterilization and micropropagation of cup plant (Silphium perfoliatum L.) from the apicalexplants of seedlings in in vitro cultures. Acta Agrobotanica, 64(4), 3-10.
• Uddin, M. S., Chowdhury, M. S. H., Khan, M. M. M. H., Uddin, M.B., Ahmed, R., Baten, M.A. (2006). In vitro propagation of Stevia rebaudiana Bert in Bangladesh. African Journal of Biotechnology, 5 (13), 1238-1240.
• Wróbel, M., Frączek, J., Francik, S., Slipek, Z., Mudryk, K. (2013). Influence of degree of frgmentation on chosen quality parameters of briquette made from biomass of cup plant Silphium perfoliatum L.. Conference Engineering for Rural Development,Jelgava, Latvia, 2013, 653-657.
• Zhang, X., Xia, H., Li, Z., Zhuang, P., Gao, B. (2010). Potential of four forage grasses in remediation of Cd and Zn contaminated soils. Bioresource Technology, 101, 2063-2066.

Identyfikatory

DOI

10.14597/infraeco.2014.4.3.110