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2021, vol. 49, br. 1, str. 94-106
Alelopatska svojstva biljni ekstrakata kao potencijalnih bioherbicida
Univerzitet u Novom Sadu, Poljoprivredni fakultet

e-adresadragana.boskovic@polj.edu.rs
Projekat:
Organska poljoprivreda: Unapređenje proizvodnje primenom đubriva, biopreparata i bioloških mera (MPNTR - 31027)

Ključne reči: biljni ekstrakti; korovi; bioherbicidi
Sažetak
Korovi predstavljaju stalne pratioce biljne proizvodnje, za čije se suzbijanje koriste hemijske materije, odnosno herbicidi. Pored niza dobih osobina, upotreba herbicida donosi brojne posledice, kako po živi svet, tako i po životnu sredinu. Uzimajući u obzir njihove negativne efekte, javlja se potreba za pronalaženjem alternativnih metoda suzbijanja korovske populacije. Poslednjih decenija rade se brojna istraživanja u okviru biološki i ekološki prihvatljivih načina suzbijanja različitih štetočina, uključujući i korove. Bioherbicidi predstavljaju jedinjena koja sadrže mikroorganizme (poput bakterija ili gljiva), produkte njihovog metabolizma ili biljne ekstrakte koji ispoljavaju efekat na određene korovske vrste. U ovom radu, obradiće se primena biljnih ekstrakata kao potencijalnih bioherbicida u savremenoj poljoprivrednoj proizvodnji.
Reference
Albuquerque, M.B., Santos, R.C., Lima, L.M., Melo, F.P.D.A., Nogueira, R.J.M.C., Câmara, C.A.G., Ramos, A. (2010) Allelopathy, an alternative tool to improve cropping systems: A review. Agronomy for Sustainable Development, 31(2): 379-395
Al-Mulali, U., Ozturk, I., Solarin, S.A. (2016) Investigating the environmental Kuznets curve hypothesis in seven regions: The role of renewable energy. Ecological Indicators, 67: 267-282
Anjum, T., Bajwa, R. (2007) The effect of sunflower leaf extracts on Chenopodium album in wheat fields in Pakistan. Crop Protection, 26(9): 1390-1394
Arora, K., Batish, D.R., Singh, H.P., Kohli, R.K. (2015) Allelopathic potential of the essential oil of wild marigold (Tagetes minuta L.) against some invasive weeds. Journal of Environmental and Agricultural Sciences, 3: 56-60
Baličević, R., Ravlić, M., Živković, T. (2015) Allelopathic Effect of Invasive Species Giant Goldenrod (Solidago Gigantea Ait.) on Crops and Weeds. Herbologia an International Journal on Weed Research and Control, 1(2015)
Bruneton, J. (1999) Pharmacognosy, phytochemistry, medicinal plants: Essential oils. Paris: Lavoisier Publishing, 2nd Edition, 774-776
Carson, R. (1962) Silent Spring. Boston: Houghton Mifflin, 368 pp
Charudattan, R. (2005) Ecological, practical, and political inputs into selection of weed targets: What makes a good biological control target?. Biological Control, 35(3): 183-196
Cheema, Z.A., Farooq, M., Khaliq, A. (2012) Application of Allelopathy in Crop Production: Success Story from Pakistan. u: Cheema Z.A., Farooq M., Wahid A. [ur.] Allelopathy: Current Trends and Future Applications, Berlin-Heidelberg, Germany: Springer, 113-143
Davis, R.F. (1928) The toxic principle of Juglans nigra as identified with synthetic juglone and its toxic effects on tomato,and alfalfa plants. Am. J. Bot, 15: 620-620
Dias, A.S., Dias, L.S. (2000) Effects of drought on allelopathic activity of Datura stramonium L. Allelopathy J, 7: 273-277
Hu, F., Kong, C.H. (2002) Allelopathic potentials of Arachis hypogaea on crops. J South China Agr Univ, 23: 9-12. ( in Chinese with English abstract)
Irshad, A., Cheema, Z.A. (2005) Comparative efficacy of sorghum allelopathic potential for controlling barnyardgrass in rice. u: World Congress on Allelopathy Establishing the Scientific Base (IV), 21-26 August, Wagga Wagga, New South Wales Australia, Proceedings
Khan, E.A., Khakwani, A.A., Ghazanfarullah, A. (2015) Effects of allelopathic chemicals extracted from various plant leaves on weed control and wheat crop productivity. Pakistan Journal of Botany, 47(2): 735-740
Kong, C.H., Hu, F., Xu, X.H. (2002) Allelopathic potential and chemical constituents of volatiles from Ageratum conyzoides under stress. J Chem Ecol, 28: 1173-1182
Kovačević, J. (1979) Poljoprivredna fitocenologija. Zagreb: SNL, II izdanje
Li, Z., Wang, Q., Ruan, X., Pan, C., Jiang, D. (2010) Phenolics and Plant Allelopathy. Molecules, 15(12): 8933-8952
Martins, N., Barros, L., Henriques, M., Silva, S., Ferreira, I.C.F.R. (2015) Activity of phenolic compounds from plant origin against Candida species. Industrial Crops and Products, 74: 648-670
Mattner, S.W., Porter, I.J., Gounder, R.K., Shanks, A.L., Wren, D.J., Allen, D. (2008) Factors that impact on the ability of biofumigants to suppress fungal pathogens and weeds of strawberry. Crop Protection, 27(8): 1165-1173
Mushtaq, W., Siddiqui, M.B., Hakeem, K.R. (2020) Allelopathy. Springer-Briefs in Agriculture
Naeem, M., Cheema, Z.A., Ihsan, M.Z., Hussain, Y., Mazari, A., Abbas, H.T. (2018) Allelopathic Effects of Different Plant Water Extracts on Yield and Weeds of Wheat. Planta Daninha, 36(0): 36-36
Narwal, S.S. (2004) Allelopathy in Crop Production. Jodhpur: Scientific Publishers
Pacanoski, Z. (2015) Bioherbicides. u: Herbicides: Physiology of Action, and Safety
Petrović, S., Maksimović, Z., Kundaković, T. (2009) Analiza sastojaka biljnih droga - priručnik za teorijsku i praktičnu nastavu iz predmeta Farmakognozija. Beograd: Univerzitet u Beogradu-Farmaceutski fakultet
Rice, E.L. (1974) Allelopathy: Physiological Ecology. New York, NY: Academic Press
Saha, D., Marble, C.S., Pearson, B.J. (2018) Allelopathic Effects of Common Landscape and Nursery Mulch Materials on Weed Control. Frontiers in Plant Science, 9: 9-9
Savezni zavod za zdravstvenu zaštitu Farmakopeja SFRJ. Ph. Jug. III
Shabana, Y.M., Abdalla, M.E., Shanin, A.A., El-Sawy, M.M., Draz, I.S., Youssif, A.W. (2017) Efficacy of plant extracts in controlling wheat leaf rust disease caused by Puccinia triticina. Egyptian Journal of Basic and Applied Sciences, 4: 67-73
Shao-Lin, P., Jun, W., Qin-Feng, G. (2004) Mechanism and active variety of allelochemicals. Acta Botanica Sinica, 46(7); 757-766
Soderquist, C.J. (1973) Juglone and allelopathy. Journal of Chemical Education, 50(11): 782-3. Bibcode:1973JChEd..50..782S
Soltys, D., Krasuska, U., Bogatek, R., Gniazdowska, A. (2013) Allelochemicals as bioherbicides: Present and perspectives. u: Price A., Kelton J. [ur.] Herbicides: Current research and case studies in use, Intech, pp 517-542, http://www.intechopen.com/books/herbicides-current-research-and-case-studies-in-use, doi: 10.5772/56185
Srivastava, D., Shahi, S., Kumar, R. (2015) Allelopathic effects of Ipomoea cairica (l) on noxious weed Parthenium hysterophorus Linn. International Journal of Current Research in Life Sciences, 4(12): 489-491
Templeton, W. (1969) An Introduction to the Chemistry of Terpenoids and Steroids. London, England: Butterworth and Co. Ltd, 170-170
Turk, M.A., Tawaha, A.M. (2003) Allelopathic effect of black mustard (Brassica nigra L.) on germination and growth of wild oat (Avena fatua L.). Crop Protection, 22(4): 673-677
van Driesche, R.G., Bellows, T.S. (1996) Biological Control. New York: Chapman & Hall, 539 pp
Vuković, S., Šunjka, D., Inđić, D., Gvozdenac, S. (2013) Botanički fungicidi i herbicidi od značaja za poljoprivredu. Biljni lekar, 4, pp. 451-458
Yentema, O., Alioune, O., Dorosso, S.A. (2007) Chemical Composition and Physical Characteristics of the Essential Oil of Cymbopogon schoenanthus (L.) Spreng of Burkina Faso. Journal of Applied Sciences, 7(4): 503-506
Zimdahl, R.L. (2018) Allelopathy. u: Fundamentals of Weed Science, 253-270
 

O članku

jezik rada: srpski
vrsta rada: neklasifikovan
DOI: 10.5937/BiljLek2101094B
objavljen u SCIndeksu: 26.02.2021.