The Influence of Laser Beam and Auxins on Rooting of Leatherleaf Viburnum (VIBURNUM RHYTIDOPHYIIUM Hemsl.) Cuttings

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Abstract

The aim of this work is to compare the effect of three- and sixfold irradiation with a semiconductor laser beams of 200 mW power and wavelength equal to 670 nm and the rooting agent on the percentage and quality of rooted cuttings of leatherleaf viburnum. The most effective for root number and root length was threefold irradiation and for fresh root weight threefold irradiation applied together with the rooting agent.

Aladjadjiyan A. 2007. The use of physical methods for plant growing stimulation in Bulgaria. J. Cent. Eur. Agric. 8(3): 369-380.

Ashrafijou A., Sadat Noori S.A., Izadi Darbandi A., Saghafi S. 2010. Effect of salinity and radiation on proline accumulation in seeds of canola (Brassica napus L.). Plant Soil Environ. 56(7): 312-317.

Bąbelewski P., Szajsner H. 2013. Wpływ promieniowania laserowego na ukorzenianie sadzonek pędowych u wybranych odmian Chamaecyparis pisifera (Siebold & Zucc.) Endl. Biologia i ekologia roślin drzewiastych. Materiały z Konf. Nauk. połączonej z obchodami Jubileuszu 80-lecia Instytutu Den–drologii PAN w Kórniku, red. Tomaszewski D., Jagodziński A.M.: 99-100. [in Polish]

Bojarczuk K. 1997. Regulatory roślinne w szkółkarstwie. W: Regulatory wzrostu i rozwoju roślin - tom 2. Zastosowanie w ogrodnictwie, rolnictwie, leśnic–twie i w kulturach tkanek. Jankiewicz L. (red.), PWN Warszawa: 137-165. [in Polish]

Chen Y.P., Yue M., Wang X.L. 2005. Influence of He-Ne laser irradiation on seeds thermody-namic parameters and seedlings growth of Isatis indogotica. Plant Sci. 168(3): 601-606. DOI: 10.1016/j.plantsci.2004.09.005.

Costa J. M., Challa H. 2002. The effect of the original leaf area on growth of softwood cuttings and planting material of rose. Sci. Hortic. 95(1-2): 111-121. DOI: 10.1016/S0304-4238(02)00023-7

Dirr M.A., Heuser Ch.W. 1987. The reference manual of woody plant propagation: from seed to tissue culture. Varsity Press, Inc. Athens Georgia (USA), p. 232.

Dobrowolski J.W., Różanowski B. 1998. The influence of laser light on accumulation of selected macro-, trace- and ultra-elements by some plants. Mengen-und Spurenelemente, Fridrich-Schiler - Universität Jena, pp. 147-156.

Hernandez A.C., Dominquez P.A., Cruz O.A., Ivanov R., Carballo C.A., Zepeda B.R. 2010. Laser in agricul–ture. Int. Agrophys. 24(4): 407-422.

Kralik J., Rauscherova L. 1990. Effect of laser irradiation on rhizogenes cuttings Ligustrum vulgare L. For–estry 36(LXIII): 241-244. [in Czech]

Michtchenko A., Hernández M. 2010. Photobiostimula–tion of germination and early growth of wheat seeds (Triticum aestivum L.) by a 980 nm semiconductor laser. Rev. Cub. Fis. 27(2B): 271-274.

Pacholczak A., Szydło W., Jacygrad E., Federowicz M. 2012. Effect of auxins and the biostimulator al-gaminoplant on rhizogenesis in stem cuttings of two dogwood cultivars (Cornus alba ‘Aurea’ and ‘Elegantissima’). Acta Sci. Pol., Hortorum Cultus 11(2): 93-103.

Szajsner H. 2009. The analysis of laser radiation treat–ment effects on grains of selected genotypes of ce–reals. Zesz. Nauk. Uniwersytetu Przyrodniczego we Wrocławiu nr 571, Rozprawy CCLVI, 99 p. [in Polish with English abstract]

Śliwka M., Jakubiak M. 2007. Wpływ stymulacji la–serowej na zwiększenie przyrostu biomasy oraz zdolności bioremediacyjnych roślin wykorzysty–wanych w hydrofitowych oczyszczalniach ścieków. Ochrona Środowiska i Zasobów Natural–nych 33: 103-107. [in Polish]

Vasilevski G. 2003. Perspectives of the application of biophysical methods in sustainable agriculture. Bulg. J. Plant Physiol, Special Issue, pp. 179-186.

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CiteScore 2018: 0.51

SCImago Journal Rank (SJR) 2018: 0.207
Source Normalized Impact per Paper (SNIP) 2018: 0.497

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