Metrika

  • citati u SCIndeksu: [1]
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:6
  • preuzimanja u poslednjih 30 dana:2

Sadržaj

članak: 9 od 215  
Back povratak na rezultate
2020, vol. 35, br. 2, str. 105-115
Uticaj Ambrosia trifida na vegetativnu produkciju A. artemisiifolia
aInstitut za zaštitu bilja i životnu sredinu, Beograd
bUniverzitet u Beogradu, Poljoprivredni fakultet

e-adresaaleksandra.m.savic@gmail.com
Projekat:
Razvoj integrisanih sistema upravljanja štetnim organizmima u biljnoj proizvodnji sa ciljem prevazilaženja rezistentnosti i unapređenja kvaliteta i bezbednosti hrane (MPNTR - 46008)
Ministarstvo prosvete, nauke i tehnološkog razvoja Republike Srbije (institucija: Univerzitet u Beogradu, Poljoprivredni fakultet) (MPNTR - 451-03-68/2020-14/200116)
The study was funded by the COST action CA17122.

Ključne reči: Ambrosia; pelenasta ambrozija; trolisna ambrozija; kompeticija; vegetativni parametri
Sažetak
A. artemisiifolia (pelenasta ambrozija) i A. trifida (trolisna ambrozija) predstavljaju dve veoma važne vrste korova koje se nalaze u invaziji u Srbiji u poljoprivrednim regionima. Kada se jave u većoj brojnosti, prinosi useva mogu biti značajno umanjeni ili potpuno uništeni. Za razliku od A. artemisiifolia, A. trifida je lokalno prisutna u Centralnoj Bačkoj (Vojvodina) i očekuje se da se u budućnosti može još više proširiti. Polazeći od pretpostavke da bi u budućnosti distribucija A. trifida mogla da zauzme veće razmere nego sada, cilj ovih istraživanja bio je usmeren na ispitivanje interakcije između ovde dve vrste. Eksperiment je izveden primenom modela zamenjujućih serija gde su vrste A. trifi da/A. artemisiifollia po m2 bile u zadatom odnosu 10/0; 8/2; 4/6; 6/4; 2/8 i 0/10, u potpuno slučajnom blok sistemu u četiri ponavljanja. Vegetativni parametri (visina i suva masa) A. artemisiifolia izmereni su u julu, avgustu i septembru tokom dve godine (2016. i 2017.), a rezultati su analizirani u statističkom paketu SPSS 23. U julu 2016. godine prosečna visina A. artemisiifolia bila je u rasponu između 35,00 i 50,40 cm, u avgustu od 68,00 do 95,50 cm i između 83,75 i 99,80 cm u septembru. U sledećoj sezoni (2017) te vrednosti kretale su se od 56,19 do 78,50 cm (jul), 98,38 do 125,50 cm (avgust) i od 111,19 do 148,50 cm (septembar). Povećanje broja biljaka A. artemisiifolia i smanjenje A. trifida po m2 prouzrokovalo je povećanje suve mase A. artemisiifolia po biljci. Suva masa A. artemisiifolia bila je u rasponu od 4,22 do 6,11 g/biljci (jul), 8,96 do 10,27 g/biljci (avgust) i 7,04 do 19,53 g/biljci (septembar). U sledećoj sezoni ove vrednosti kretale su se od 9,62 do 14,60 g/biljci, 14,37 do 28,90 g/biljci i 23,43 do 40,47 g/biljci u julu, avgustu i septembru. Minimalne vrednosti vegetativnih parametara zabeležene su u tretmanu sa 2 biljke, a maksimalne u tretmanu sa 10 biljaka A. artemisiifolia/m2 , što znači da je kod ove vrste izraženija interspecijska u poređenju sa intraspecijskom kompeticijom.
Reference
Adeux, G., Vieren, E., Carlesi, S., Bàrberi, P., Munier-Jolain, N., Cordeau, S. (2019) Mitigating crop yield losses through weed diversity. Nature Sustainability, 2(11): 1018-1026
Akey, W.C., Jurik, T.W., Dekker, J. (1990) Competition for light between velvetleaf (Abutilon theophrasti) and soybean (Glycine max). Weed Research, 30(6): 403-411
Bakhtiari, Z., Saeedipoor, S. (2014) Evaluating the Effects of competition among different densities of mallov (Malva parviflora) using replacement series method on the yield and yield components of canola (Brassica napus L.). International Journal of Biosciences (IJB), 4(4): 78-86
Bertholdsson, N.O. (2005) Early vigour and allelopathy: Two useful traits for enhanced barley and wheat competitiveness against weeds. Weed Research, 45(2): 94-102
Bollinger, E.K., Harper, S.J., Barrett, G.W. (1991) Effects of seasonal drought on old-field plant communities. American Midland Naturalist, 125(1): 114-125
Bussan, A.J., Burnside, O.C., Orf, J.H., Ristau, E.A. (1997) Field evaluation of soybean (Glycine max) genotypes for weed competitiveness. Weed Science, 45(1), 31-37
Chun, Y.J., Fumanal, B., Laitung, B., Bretagnolle, F. (2010) Gene flow and population admixture as the primary post-invasion processes in common ragweed (Ambrosia artemisiifolia) populations in France. New Phytologist, 185(4): 1100-1107
Cosser, N.D., Gooding, M.J., Thompson, A.J., Froud-William, R.J. (1997) Competitive ability and tolerance of organically grown wheat cultivars to natural weed infestations. Annals of Applied Biology, 130(3): 523-535
Cunze, S., Leiblein, M.C., Tackenberg, O. (2013) Range expansion of Ambrosia artemisiifolia in Europe is promoted by climate change. ISRN Ecology, 2013(1): 1-9
Essl, F., Dullinger, S., Kleinbauer, I. (2009) Changes in the spatiotemporal patterns and habitat preferences of Ambrosia artemisiifolia during its invasion of Austria. Preslia, 81(2), 119-133
Fumanal, B., Chauvel, B., Bretagnolle, F. (2007) Estimation of the pollen and seed production of common ragweed in Europe. Annals of Agricultural and Environmental Medicine, 14(2), 233-236
Gerber, E., Schaffner, U., Gassmann, A., Hinz, H.L., Seier, M., Müller-Schärer, H. (2011) Prospects for biological control of Ambrosia artemisiifolia in Europe: Learning from the past. Weed Research, 51(6): 559-573
Gibson, D.J., Young, B.G., Wood, A.J. (2017) Can weeds enhance profitability?: Integrating ecological concepts to address crop-weed competition and yield quality. Journal of Ecology, 105(4): 900-904
Irwin, D.L., Aarssen, L.W. (1996) Testing for cost of apical dominance in vegetation: A field study of three species. Annales Botanici Fennici, 33: 123-128
Kőmíves, T., Béres, I., Reisinger, P., Lehoczky, E., Berke, J., Tamás, J., Molnár, J. (2006) New strategy of the integrated protection against common ragweed (Ambrosia artemisiifolia L.). Magyar Gyomkutatás és Technológia, 7(1), 5-49
Kropff, M.J., van Laar, H.H. (1993) Modeling crop-weed interactions. Wallingford, UK: CAB International
Leskovšek, R., Eler, K., Batič, F., Simončič, A. (2012) The influence of nitrogen, water and competition on the vegetative and reproductive growth of common ragweed (Ambrosia artemisiifolia L.). Plant Ecology, 213(5): 769-781
Lindquist, L.J., Mortensen, A.D. (1999) Ecophysiological characteristics of four maize hybrids and Abutilon theophrasti. Weed Research, 39(4), 271-285
Malidža, G., Vrbničanin, S. (2006) Novo nalazište alohtone korovske vrste Ambrosia trifida L. na području Vojvodine. u: VIII Savetovanje o zaštiti bilja - zbornik rezimea, pp 44-45
Mason, H.E., Navabi, A., Frick, B.L., O'Donovan, J.T., Spaner, D.M. (2007) The weed-competitive ability of Canada western red spring wheat cultivars grown under organic management. Crop Sci, 47(3), 1167-1176
Mataruga, D., Janjić, V., Mitrić, S. (2004) Efikasnost glifosata u suzbijanju ambrozije. Ambrosia artemisiifolia L. Acta herbologica, 13(2): 489-494
Nelson, M.A., Griffith, S.M., Steiner, J.J. (2006) Tillage effects on nitrogen dynamics and grass seed crop production in western Oregon, USA. Soil Science Society of America Journal, 70(3): 825-831
Oljača, S., Stanojević, M., Vrbničanin, S., Stefanović, L., Kovačević, D. (2000) Kompetitivni odnosi između kukuruza i tatule (Datura stramonium L.). Acta herbologica, 9(2): 61-70
Patterson, T.D. (1995) Effects of environmental stress on weed/crop interactions. Weed Science, 43(3), 483-490
Piliksere, D., Strazdiņa, V., Vīcupe, Z., Jansone, Z., Legzdiņa, L., Beinaroviča, I., Kronberga, A. (2013) Cereal breeding for organic farming: Crop traits related with competitiveness against weeds. Proceedings of the Latvian Academy of Sciences. Section B. Natural, Exact, and Applied Sciences, 67(3): 272-276
Pyšek, P., Lambdon, P.W., Arianoutsou, M., Kühn, I., Pino, J., Winter, M. (2009) Alien vascular plants of Europe. u: Handbook of alien species in Europe, Dordrecht: Springer, pp 43-61
Raynal, D.J., Bazzaz, F.A. (1975) Interference of winter annuals with Ambrosia artemisiifolia in early successional fields. Ecology, 56(1): 35-49
Shine, C., Kettunen, M., Genovesi, P., Essl, F., Gollasch, S., Rabitsch, W., Scalera, R., Starfinger, U., Ten, B.P. (2010) Assessment to support continued development of the EU Strategy to combat invasive alien species. Brussels: Institute for European Environmental Policy (IEEP), Final Report for the European Commission
Šikoparija, B., Smith, M., Skjøth, C.A., Radišić, P., Milkovska, S., Šimić, S., Brandt, J. (2009) The Pannonian plain as a source of Ambrosia pollen in the Balkans. International Journal of Biometeorology, 53(3): 263-272
Šilc, U. (2002) Odontito-Ambrosietum Jarolímek et al. 1997: A ruderal association new to Slovenia. Acta Bot. Croat, 61(2), 179-198
Tollenaar, M., Dibo, A.A., Aguilera, A., Weise, S.F., Swanton, C.J. (1994) Effect of crop density on weed interference in maize. Agronomy Journal, 86(4): 591-595
Vidotto, F., Boni, A., Tesio, F., Patracchini, C., Ferrero, A. (0191) Bioecological traits of Ambrosia artemisiifolia L. in North-West Italy. u: Proceedings of the 14 th European weed research society symposium, Hamar, Norway: EWRS, p 191
Vrbničanin, S., Božić, D., Rančić, D. (2007) Biologija ambrozije. u: Biologija ambrozije (Th e Biology of Ambrosia), pp 29-43
Vrbničanin, S., Gavrić, M., Malidža, G. (2015) Kriterijumi, metode i rezultati kartiranja alohtonih invazivnih korova na području Srbije (Criteria, methods and results of the mapping of allochthonous invasive weeds in Serbia). u: Vrbničanin, S. [ur.] Invazivni korovi - invazivni procesi, ekološko-genetički potencijal, unošenje, predviđanje, rizici, širenje, štete i kartiranje (Invasive weeds: Invasive processes, ecological-genetic potential, intro, Belgrade: Weed Science Society of Serbia, pp 233-316
Vrbničanin, S., Karadžić, B., Dajić-Stevanović, Z. (2004) Adventivne i invazivne korovske vrste na području Srbije. Acta herbologica, vol. 13, br. 1, str. 1-12
Weber, E., Gut, D. (2005) A survey of weeds that are increasingly spreading in Europe. Agronomy for Sustainable Development, 25: 109-121
Webster, T.M., Loux, M.M., Regnier, E.E., Harrison, S.K. (1994) Giant ragweed (Ambrosia trifida L.) canopy architecture and interference studies in soybean (Glycine max). Weed Technology, 8(3), 559-564
 

O članku

jezik rada: engleski
vrsta rada: izvorni naučni članak
DOI: 10.2298/PIF2002105S
primljen: 27.10.2020.
prihvaćen: 04.11.2020.
objavljen u SCIndeksu: 25.12.2020.
metod recenzije: dvostruko anoniman
Creative Commons License 4.0

Povezani članci