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2014, vol. 29, br. 3, str. 205-212
Uticaj zemljišnih bakterija na klijanje semena Datura stramonium L., Abutilon theophrasti Med., Onopordon acanthium L. i Verbascum thapsus L.
aUniverzitet u Beogradu, Poljoprivredni fakultet
bUniverzitet Educons, Fakultet ekološke poljoprivrede, Sremska Kamenica
cInstitut za zaštitu bilja i životnu sredinu, Beograd
dInstitut za pesticide i zaštitu životne sredine, Beograd

e-adresasava@agrif.bg.ac.rs
Projekat:
Razvoj integrisanih sistema upravljanja štetnim organizmima u biljnoj proizvodnji sa ciljem prevazilaženja rezistentnosti i unapređenja kvaliteta i bezbednosti hrane (MPNTR - 46008)
AREA - Advancing research in agricultural and food sciences at Faculty of Agriculture, University of Belgrade (EU-FP7 - 316004)

Ključne reči: Korovi; rizobakterije; klijanje
Sažetak
Testiran je efekat bakterijskih kultura [Bacillus licheniformis populacija 1 (MO1); B. licheniformis populacija 2 (MO2); B. subtilis (MO3); B. megatherium (MO4); humati (MO5)] na klijanje semena Datura stramonium L., Abutilon theophrasti Med., Onopordon acanthium L. i Verbascum thapsus L. Semena su naklijavana u Petri posudama u rastvorima različitih bakterijskih kultura. Najveća klijavost zabeležena je kod semena V. thapsus (100%). Različiti tretmani pokazali su različiti uticaj (stimulativni ili inhibitorni) na klijanje semena D. stramonium [od 5,0% (MO1) do 13,3% (MO3), u H20 10,0%], A. theophrasti [od 28,3% (MO3) do 65,0% (MO5), u H20 43,3%] i O. acanthium [od 10,0% (MO2) do 13,3% (MO1 i MO3), u H20 6,7], u zavisnosti od tipa kulture i vrste korova.
Reference
Ahmad, F., Ahmad, I., Khan, M.S. (2006) Screening of free-living rhizospheric bacteria for their multiple plant growth promoting activities. Microbiological Research, 163: 173
Bevivino, A., Sarrocco, S., Dalmastri, C., Tabacchioni, S., Cantale, C., Chiarini, L. (1998) Characterization of a free-living maize-rhizosphere population of Burkholderia cepacia: effect of seed treatment on disease suppression and growth promotion of maize. FEMS Microbiology Ecology, 27: 225
Bhat, J.M., Alagawadi, A.R. (1998) Seed borne nature of Azotobacter chroococcum in chilli (Capsicum annum) and its role in seed germination and plant growth. Hindustan Antibiotic bulletin, 40: 20-3
Carrillo-Castañeda, G., Muños, J.J., Peralta-Videa, J.R., Gomez, E., Tiemannb, K.J., Duarte-Gardea, M., Gardea-Torresdey, J.L. (2002) Alfalfa growth promotion by bacteria grown under iron limiting conditions. Advances in Environmental Research, 6: 391-3
Egamberdiyeva, D. (2007) The effect of plant growth promoting bacteria on growth and nutrient uptake of maize in two different soils. Applied Soil Ecology, 36: 184
Flores-Vargas, R.D., O`Hara, G.W. (2006) Isolation and characterization of rhizosphere bacteria with potential for biological control of weeds in vineyards. J Appl Microbiol, 100(5): 946-54
Gutierrez-Manero, F.J., Ramos-Solano, B., Probanza, A.n., Mehouachi, J., R.Tadeo, F., Talon, M. (2001) The plant-growth-promoting rhizobacteria Bacillus pumilus and Bacillus licheniformis produce high amounts of physiologically active gibberellins. Physiologia Plantarum, 111(2): 206-211
Harper, S.H.T., Lynch, J.M. (1980) Microbial effects on the germination and seedling growth of barley. New Phytologist, 84: 473
Jaleel, C.A., Manivannan, P., Sankar, B., Kishorekumar, A., Gopi, R., Somasundaram, R., Panneerselvam, R. (2007) Pseudomonas fluorescens enhances biomass yield and ajmalicine production on Catharanthus roseus under water deficit stress. Colloids and Surfaces, B: Biointerfaces, 60: 7-11
Karlidag, H., Esitken, A., Turan, M., Sahin, F. (2007) Effects of root inoculation of plant growth promoting rhizobacteria (PGPR) on yield, growth and nutrient element contents of leaves of apple. Scientia Horticulturae, 114: 16
Kloepper, J.W., Lifshitz, R., Zablotowicz, R.M. (1989) Free-living bacterial inocula for enhancing crop productivity. Trends in Biotechnology, 7: 39-43
Maguire, J. (1962) Speed of germination aid in selection and evaluation for seedling emergence and vigour. Crop Science, 2: 176-1
Mayak, S., Tirosh, T., Glick, B.R. (1999) Effect of Wild-Type and Mutant Plant Growth-Promoting Rhizobacteria on the Rooting of Mung Bean Cuttings. Journal of Plant Growth Regulation, 18(2): 49-53
Miché, L., Bouillant, M.L., Rohr, R., Sallé, G., Bally, R. (2000) Physiological and cytological studies on the inhibition of Striga seed germination by the plant growth-promoting bacterium Azospirillum brasilense. European Journal of Plant Pathology, 106(4): 347-351
Narula, N., Gupta, K.G. (1986) Ammonia excretion byAzotobacter chroococcum in liquid culture and soil in the presence of manganese and clay minerals. Plant Soil, 93(2): 205-209
Ping, L., Boland, W. (2004) Signals from the underground: bacterial volatiles promote growth in Arabidopsis. Trends in Plant Science, 9(6): 263-266
Revillas, J.J., Rodelas, B., Pozo, C., Martinez-Toledo, M.V., Gonzalez-Lopez, J. (2000) Production of B-group vitamins by two Azotobacter strains with phenolic compounds as sole carbon source under diazotrophic and adiazotrophic conditions. Journal of Applied Microbiology, 89: 486
Rodriguez, H., Fraga, R. (1999) Phosphate solubilizing bacteria and their role in plant growth promotion. Biotechnol Advances, 17: 319
Ryu, C.M., Farag, M.A., Hu, C.H., Reddy, M.S., Wei, H.X., Pare, P.W., Kloepper, J.W. (2003) Bacterial volatiles promote growth in Arabidopsis. Proceedings of the National Academy of Sciences of the United States of America, 100: 492
Sarić, M., Božić, D. (2009) Uticaj zemljišnih bakterija na klijanje semena viline kosice (Cuscuta campestris Yunck.) i lucerke. Zaštita bilja, vol. 60, br. 4, str. 227-236
Schroth, M.N., Hancock, J.G. (1982) Disease-Suppressive Soil and Root-Colonizing Bacteria. Science, 216(4553): 1376-1381
Shishido, M., Massicotte, H.B., Chanway, C.P. (1996) Effect of Plant Growth PromotingBacillusStrains on Pine and Spruce Seedling Growth and Mycorrhizal Infection. Annals of Botany, 77(5): 433-442
Sturz, A.V., Nowak, J. (2000) Endophytic communities of rhizobacteria and the strategies required to create yield enhancing associations with crops. Applied Soil Ecology, 15: 183
Sudhakar, P., Chattopadhyay, G.N., Gangwar, S.K., Ghosh, J.K. (2000) Effect of foliar application of Azotobacter, Azospirillum and Beijerinckia on leaf yield and quality of mulberry (Morus alba). Journal of Agricultural Science, 134(2): 227-234
Suslow, T.V., Schroth, M.N. (1982) Role of Deleterious Rhizobacteria as Minor Pathogens in Reducing Crop Growth. Phytopathology, 72(1): 111
Vrbnicanin, S., Jovanovic, Lj., Bozic, D., Raicevic, V., Pavlovic, D. (2008) Germination of Iva xanthifolia, Amaranthus retroflexus and Sorghum halepense under media with microorganisms. Journal of Plant Diseases and Protection, Special Issue
Vrbničanin, S., Malidža, G., Stefanović, L., Elezović, I., Stanković-Kalezić, R., Marisavljević, D., Radovanov-Jovanović, K., Pavlović, D., Gavrić, M. (2008) Distribucija nekih ekonomski štetnih, invazivnih i karantinskih korovskih vrsta na području Srbije -I deo: Prostorna distribucija i zastupljenost osam korovskih vrsta. Biljni lekar, vol. 36, br. 5, str. 303-313
Vrbničanin, S., Malidža, G., Stefanović, L., Elezović, I., Stanković-Kalezić, R., Marisavljević, D., Radovanov-Jovanović, K., Pavlović, D., Gavrić, M. (2008) Distribucija nekih ekonomski štetnih, invazivnih i karantinskih korovskih vrsta na području Srbije, II deo - prostorna distribucija i zastupljenost devet korovskih vrsta. Biljni lekar, vol. 36, br. 6, str. 408-417
Vrbničanin, S., Božić, D., Sarić, M., Pavlović, D., Raičević, V. (2011) Effect of plant growth promoting rhizobacteria on Ambrosia rtemisiifolia L. seed germination. Pesticidi i fitomedicina, vol. 26, br. 2, str. 141-146
Wu, S.C., Cao, Z.H., Li, Z.G., Cheung, K.C., Wong, M.H. (2005) Effects of biofertilizer containing N-fixer, P and K solubilizer and AM fungi on maize growth: a greenhouse trial. Geoderma, 125: 155
Ying, G.G., Williams, B. (2000) Dissipation of herbicides in soil and grapes in a South Australian vineyard. Agriculture Ecosystems and Environment, 78: 283
Zdor, R.E., Alexander, C.M., Kremer, R.J. (2005) Weed suppression by deleterious rhizobacteria is affected by formulation and soil properties. Communications in Soil Science and Plant Analysis, 36: 1289
 

O članku

jezik rada: engleski
vrsta rada: izvorni naučni članak
DOI: 10.2298/PIF1403205B
objavljen u SCIndeksu: 26.12.2014.
metod recenzije: dvostruko anoniman