Szczegóły

Tytuł artykułu

Allelopathic Behaviour of Cyperus Rotundus L. On Both CHORCHORUS OLITORIUS (BROAD LEAVED WEED) AND ECHINOCHLOA CRUS-GALLI (GRASSY WEED) ASSOCIATED WITH SOYBEAN

Tytuł czasopisma

Journal of Plant Protection Research

Rocznik

2010

Wolumin

vol. 50

Numer

No 3

Autorzy

Wydział PAN

Nauki Biologiczne i Rolnicze

Wydawca

Committee of Plant Protection PAS ; Institute of Plant Protection – National Research Institute

Data

2010

Identyfikator

DOI: 10.2478/v10045-010-0048-7 ; ISSN 1427-4345 ; eISSN 1899-007X

Źródło

Journal of Plant Protection Research; 2010; vol. 50; No 3

Referencje

Abdelhamid M. (2008), Growth, nodulation, and yield of soybean and associated weeds as affected by weed management, Planta Daninha, 26, 4, 855. ; Alam S. (1991), Allelopathic effect of purple nut-sedge (<i>Cyprus rotundus</i>) leaf exrracts on germination and seedling growth of wheat, Pak. J. Weed Sci. Res, 4, 1, 59. ; Ali I. (2005), Allelopathic effect of purple nutsedge (<i>Cyperus rotundus</i> L.) weed on some weeds species, Ann. Agric. Sci, 50, 2, 123. ; AOCS 1964. Official and Tentative Methods of American Oil Chemists Society and American Chem., 3rd ed., Vols. I and II, Ac 3-44, AOSC, Champaign, IL, 44 pp. ; Chon S. (2004), Herbicidal potential and quantification of suspected allelochemicals from four grass crop extracts, J. Agron. Crop Sci, 190, 2, 145. ; Chon S. (2003), Herbicidal potential and quantification of causative allelochemicals from several Compositae weeds, Weed Res, 43, 6, 444. ; F. Chou Chang (1992), Allelopathic potential of purple nutsedge (<i>Cyperus rotundus</i> L.) and barnyard grass [<i>Echinochloa crus-galli</i> (L.) Beauv.] on corn (<i>Zea mays</i> cv Tainung No. 1). II. Weed residue effects on corn emergence and seedling growth, J. Agric. Res. China, 41, 1, 9. ; Chung I. (2003), Comparison of Allelopathic Potential of Rice Leaves, Straw, and Hull Extracts on Barnyardgrass, Agron. J, 95, 4, 1063. ; Dirk C. (1980), The allelopathic effect of yellow nut-sedge (<i>Cyperus esculentus</i>) on corn (<i>Zea mays</i>) and soybeans (<i>Glycin max</i>), Weed Sci, 28, 2, 229. ; Duke S. (1998), Natural products as tools for weed management, Weed Res, 40, 1, 99. ; El-Metwally I. (2007), Response of wheat plants and accompanied weeds to some new herbicides alone or combined in sequence, Arab. Univ. J. Agric. Sci., Ain Shams Univ, 15, 2, 513. ; G. El-Rokiek Kowthar (2007), Evaluating the physiological influence of benzoic and cinnamic acids, alone or in combination on wheat and some infested weeds comparing with the herbicide isoproturon, Ann. Agric. Sci., Ain Shams Univ., Cairo, 52, 1, 45. ; G. El-Rokiek Kowthar (2006), New approach to use rice straw waste for weed control II. The effect of rice straw extract and fusilade (herbicide) on some weeds infesting soybean (<i>Glycin max</i> L.), Int. J. Agric. Biol, 8, 2, 269. ; G. El-Rokiek Kowthar (2009), Allelopathic effects of <i>Eucalyptus citriodora</i> on amaryllis and associated grassy weed, Planta Daninha, 27, 887. ; Hamayun M. (2005), Allelopathic effect of <i>Cyperus rotundus</i> and <i>Echinochloa crus-galli</i> on seed germination, and plumule and radicle growth in maize (<i>Zea mays</i> L.), Pak. J. Weed Sci. Res, 11, 1-2, 81. ; Herbert D. (1971), Determination of total carbohydrate, Methods Microbiol, 5B, 209. ; Hussein H. (2001), Estimation of critical period of crop-weed competition and nutrient removal by weeds in onion (<i>Allium cepa</i> L.) in sandy soil, Egypt J. Agron, 24, 43. ; Krishnan H. (2005), Engineering soybean for enhanced sulfur amino acid content, Crop Sci, 45, 2, 454. ; Lowery O. (1951), Protein measurements with folin phenol reagent, J. Biol. Chem, 193, 265. ; Mahmood A. (2004), Influence of sorghum mulch on purple nutsedge (<i>Cyperus rotundus</i> L.), Int. J. Agric. Biol, 6, 1, 86. ; McLaren J. (1986), Biologically active substances from higher plants: Status and future potential, Pest Sci, 17, 5, 559. ; Montogomery R. (1961), Further studies of the phenol-sulphuric acid reagent for carbohydrate, Biochim. Biophys. Acta, 48, 591. ; Olofsdotter M. (2002), Improving crop competitive ability using allelopathy - an example from rice, Plant Breeding, 121, 1, 1. ; Polichett E. (1996), Cholesterol-lowering effect of soyabean lecithin in normolipidaemic rats by stimulation of biliary lipid secretion, British J. Nut, 75, 3, 471. ; Porwal M. (1992), Allelopathic effects of aqueous extracts of <i>Cyperus rotundus</i> and <i>Echinochloa colonum</i> on germination and growth of black gram and paddy, null, 34, 525. ; Qasem J. (1994), Allelopathic effect of white top (<i>Lepidium draba</i>) on wheat and barley, Allelopathy J, 1, 1, 29. ; Qasem J. (2001), Allelopathic potential of white top and Syrian sage on vegetable crops, Agron. J, 93, 1, 64. ; Quayyum H. (2000), Growth inhibitory effects of nutgrass (<i>Cyperus rotundus</i>) on rice (<i>Oryza sativa</i>) seedlings, J. Chem. Ecol, 26, 9, 2221. ; Rice E. (1984), In Allelopathy, 422. ; Scott C. (1992), <i>Cyperus kyllingia</i> and <i>Cyperus brevifolius</i>: a potential model for the study of allelopathy, Hort. Sci, 27, 6, 490. ; Singh H. (2003), Phytotoxic interference of <i>Ageratum conyzoides</i> with wheat (<i>Triticum aestivum</i>), J. Agron. Crop Sci, 189, 5, 341. ; Singh N. (2009), Allelopathic effects of <i>Cyperus rotundus</i> extract <i>in vitro</i> and <i>ex vitro</i> on banana, Acta Phys. Plant, 31, 3, 633. ; Snedecor G. (1980), Statistical Methods, 507. ; Tawaha A. (2003), Allelopathic effects of black mustard (<i>Brassica nigra</i>) on germination and growth of wild barley (<i>Hordeum spontaneum</i>), J. Agron. Crop Sci, 189, 5, 298. ; Yongqing M. (2005), Allelopathic studies of common wheat (<i>Triticum aestivum</i> L.), Weed Biol. Manag, 5, 3, 93.
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