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2017, vol. 32, br. 1, str. 61-65
In vitro klijanje i vijabilnost polenovih zrna graška nakon primene organskih nanođubriva
Institute of Forage Crops, Pleven, Bulgaria

e-adresaimnatalia@abv.bg
Sažetak
Cilj istraživanja bio je da se proceni uticaj dva organska nanođubriva, Lithovit i Nagro, na in vitro klijanje, dužinu polenove cevi i vijabilnost polena Pisum sativum L cv. Pleven 4. Uticaj njihove primene bio je visok, odnosno viši od vrednosti u kontroli (44.2 % za klijanja polena i 47.23 % za izduživanja polenovih cevi), kao i od vrednosti za kontrolno organsko đubrivo Biofa na bazi algi (17.5 i 27.9 %, respektivno). Polenova zrna su inokulisana u četiri medijuma. Medijum sa 15% saharoze i 1% agara pokazao je najveći stimulativni uticaj na polenova zrna graška. Vijabilnost polena, procenjena bojenjem sa 1% karmin crvenom, bila je u granicama 74.72-87.97%. Najviša vijabilnost polenovih zrna zabeležena je nakon primene nanođubriva Nagro.
Reference
Bhangoo, M.S., Day, K.S., Sudanagunta, V.R., Petrucet, V.E. (1988) Application of poultry manure influence on Thompson seedless grape production and soil properties. HortScience, 23(6); 1010-1012
Bolat, I., Pirlak, L. (1999) An investigation on pollen viability, germination and tube growth in some stone fruits. Turkish Journal of Agriculture and Forestry, 23(4); 383-389
Büyükkartal, H.N. (2003) In vitro pollen germination and pollen tube characteristics in tetraploid red clover (Trifolium pratense L.). Turkish Journal of Botany, 57-61; 27
Coser, S.M., Fontes, M.M.P., Ferreira, M.F.S. (2012) Assessment of pollen viability in guava genotypes. Acta Horticulturae, 959; 141-144; http://www.actahort.org/books/959/959_17.htm
Cresti, M., Tiezzi, A. (1992) Sexual plant reproduction. u: Pierson E.S.; Li Y.Q. [ur.] The cytoskeleton of pollen grains and pollen tube, Berlin: Springer-Verlag, https://link.springer.com/chapter/10.1007%2F978-3-642-77677-9_10, pp. 99-113
Dane, F., Olgun, G., Dalgiç, O. (2004) In vitro pollen germination of some plant species in basic culture medium. Journal of Cell and Molecular Biology, 71-76; 3
Franzon, R.C., Corrêa, E.R., Raseira, M.C.B. (2005) In vitro pollen germination of feijoa (Acca sellowiana (Berg) Burret). Cropp Breeding and Applied Biotechnology, 5(2): 229-233
Gwata, E., Wofford, D., Pfahler, P., Boote, K. (2003) Pollen morphology and in vitro germination characteristics of nodulating and nonnodulating soybean (Glycine max L.) genotypes. Theoretical and Applied Genetics, 106(5): 837-839
Hassan, A.M., Abd-Alhamid, N., Aly, R.B.M.A., Hassan, H.S.A., Abdelhafez, A.A., Laila, F.H. (2015) Effect of organic and bio-fertilization on yield and quality of Manzanillo olives. Middle East Journal of Agriculture Research, 4(3); 485-493
Khosh-Khui, M., Bassiri, A., Niknejad, M. (1976) Effects of temperature and humidity on pollen viability of six rose species. Canadian Journal of Plant Science, 56(3): 517-523
Manjunatha, S.B., Biradar, D.P., Aladakatti, Y.R. (2016) Nanotechnology and its applications in agriculture: A review. Journal of Pharmaceutical Sciences, 29(1); 1-13; http://14.139.155.167/test5/index.php/kjas/article/viewFile/7890/8148
Martin, F. W. (1972) In Vitro Measurement of Pollen Tube Growth Inhibition. Plant Physiology, 49(6): 924-925
Neves, T.S., Machado, G.M.E., Oliveira, R.P. (1997) Efeito de diferentes concentrações de carboidratos e ácido bórico na germinação de grãos de pólen de cubiuzeiro e cupuaçuzeiro. Revista Brasileira de Fruticultura, 207-211; 19
Nikolova, V., Angelova, S., Kalapchieva, S., Petkova, V., Stoeva, V. (2012) High temperature influence on the pollen viability of Pisum sativum L. accessions. Agrarni nauki, 4(8); 74-80
Pavlov, D., Kostov, K. (2001) Forage production. Plovdiv: Agrarian Univeristy Press, In Bulgarian; 3rd edition
Salles, L.A., Ramos, J.D., Pasqual, M., Junqueira, K.P., Silva, A.B. (2006) Sucrose e pH na germinação in vitro de grãos de pólen de citros. Revista Ciência e Agrotecnológia, 30: 170-174
Sekhon, B. (2014) Nanotechnology in agri-food production: an overview. Nanotechnology, Science and Applications, str. 31
Sharafi, Y., Ali, R.M.A., Ali, B. (2011) In vitro pollen germination, pollen tube growth and longevity in some genotypes of loquat (Eriobotria japonica Lindl.). African Journal of Biotechnology, 10(41): 8064-8069
Sheykhbaglou, R., Sedghi, M., Shishevan, M.T., Sharifi, R.S. (2010) Effects of nano-iron oxide particles on agronomic traits of soybean. Notulae Scientia Biologicae, 2(2); 112-113
Soares, T.L., Silva, S.O., Costa, M.A.P.C., Santos-Serejo, J.A., Souza, A.S., Lino, L.S.M., Souza, E.H., Jesus, O.N. (2008) In vitro germination and viability of pollen grains of banana diploids. Cropp Breeding and Applied Biotechnology, 8(2): 111-118
Stanley, R.G., Linskens, H.F. (1974) Pollen: Biology, biochemistry, management. Berlin: Springer-Verlag
Wang, Z.-Y., Ge, Y., Scott, M., Spangenberg, G. (2004) Viability and longevity of pollen from transgenic and nontransgenic tall fescue (Festuca arundinacea) (Poaceae) plants. American Journal of Botany, 91(4): 523-530
Warnock, S.J., Hagedorn, D. J. (1956) Germination and Storage of Pea (Pisum sativum L.) Pollen1. Agronomy Journal, 48(8): 347
 

O članku

jezik rada: engleski
vrsta rada: izvorni naučni članak
DOI: 10.2298/PIF1701061G
objavljen u SCIndeksu: 22.06.2017.
metod recenzije: dvostruko anoniman
Creative Commons License 4.0

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