TitleEvaluation of allelopathic potential of safflower genotypes (Carthamus tinctorius L.)
Journal titleJournal of Plant Protection Research
Divisions of PASNauki Biologiczne i Rolnicze
PublisherInstitute of Plant Protection – National Research Institute ; Committee of Plant Protection PAS
IdentifiereISSN 1899–007X ; ISSN 1427–4345
ReferencesCzarnota (2003), Evaluation of root exudates of seven sorghum accessions of, Journal Chemical Ecology, 29, 2073. ; Amini (2009), Allelopathic assessment of annual ryegrass rigidum Bioassays, Allelopathy Journal, 24, 67. ; Wu (2001), Allelopathy in wheat aestivum of, Annals Applied Biology, 139, 1. ; Zuo (2010), Allelopathy regulates wheat genotypes performance at the enhancement stage by soil water and prohydrojasmon PDJ ) of, African Journal Biotechnology, 9, 5430. ; Einhellig (1995), Interactions involving allelopathy in cropping systems, Agronomy Journal, 88, 886. ; Powles (1996), Herbicide resistance : impact and management in, Advances Agronomy, 58, 57. ; Yousefi Davood (2013), A bioassay assessment of safflower allelopathy using equal compartment agar methods of, Journal Agrobiology, 30, 97. ; Wu (1999), Crop cultivars with allelopathic capability, Weed Research, 39, 171. ; Kabir (2010), Allelopathic potential of rice varieties against spinach cia oleracea ) of Agriculture and, International Journal Biology, 12, 809. ; Oueslati (2005), Barley autotoxicity as influenced by varietal and seasonal variation of and, Journal Agronomy Crop Science, 191, 249. ; Om (2002), Allelopathic response of Phalaris minor to crop and weed plants in ricewheat system, Crop Protection, 21, 699. ; Farhoudi (2012), Evaluation of safflower ( Carthamus tinctorius cv Koseh ) extract on germination and induction of α - amylase activity of wild mustard arvensis ) seeds and, Seed Science Technology, 40, 134. ; Bonamigo (2013), Allelopathic interference of safflower leaves with oilseed species, Biotemas, 26, 1. ; Yang (2004), SOR a gene associated with bioherbicide production in sorghum root hairs of, Journal Experimental Botany, 55, 2251. ; Emeterio (2004), Allelopathic potential of Lolium rigidum Gaud on the early growth of three associated pasture species and, Grass Forage Science, 59, 107. ; Niakan (2013), Changes of sorghum growth in response to drought and allelopathy stresses of, Annals Biological Research, 4, 18. ; Wu (2000), b Distribution and exudation of allelochemicals in wheat aestivum ) of, Journal Chemical Ecology, 26, 2141. ; Whittaker (1971), Allelochemics : chemical interaction between species, Science, 171. ; Chung (2001), Assessment of allelopathic potential of barnyard grass ( Echinochloa crus - galli ) on rice sativa ) cultivars, Crop Protection, 20, 921. ; Ashrafi (2008), Allelopathic effects of sunflower Helianthus annuus ) on germination and growth of wild barley spontaneum of Agricultural Technology, Journal, 4, 219. ; Tang (1995), Plant stress and allelopathy, ACS Symposium Series, 582. ; Tongma (2001), Allelopathic activity of Mexican sunflower Tithonia diversifolia Gray in soil under natural field conditions and different moisture conditions and, Weed Biology Management, 1, 115. ; Nimbal (1996), Phytotoxicity and distribution of sorgoleone in grain sorghum germplasm of and, Journal Agricultural Food Chemistry, 44, 1343. ; Wu (2000), a Evaluation of seedling allelopathy in wheat Triticum aestivum ) accessions against annual ryegrass Lolium rigidum ) by the equal - compartment - agar method of, Australian Journal Agricultural Research, 453, 937. ; Allen (1998), Crop evapotranspiration - guidelines for computing crop water requirements Irrigation and Drainage paper FAO, FAO, 56, 300. ; Modhej (2013), Allelopathic inhibitory potential of some crop species ( wheat barley canola and safflower ) and wild mustard arvensis of, International Journal Biosciences, 3, 212. ; Kong (2002), Allelopathic potential and chemical constituents of volatites Ageratum conyzoides under stress of, Journal Chemical Ecology, 28, 1173. ; Farooq (2013), Application of allelopathy in crop production of Agriculture and, International Journal Biology, 15, 1367. ; Itani (2013), Allelopathic activity of some herb plant species of Agriculture and, International Journal Biology, 15, 1359. ; Nishihara (2005), Dihydroxyphenyl ) alanine an allelochemical exuded from velvetbean pruriens ) roots Growth, Plant Regulation, 45, 113. ; Fujii (2003), Screening of medicinal plant species for allelopathic activity using the sandwich method and, Weed Biology Management, 3, 233. ; Albuquerque (2011), Allelopathy , an alternative tool to improve cropping systems A review for, Agronomy Sustainable Development, 31, 379. ; Pedrol (2006), : A Physiological Process with Ecological Implications Springer, Allelopathy, 638. ; Sabagh Nekonam (2014), Assessment of some medicinal plants for their allelopathic potential against redroot pigweed retroflexus of Plant Protection Research, Journal, 54, 90. ; Vidal (1997), Fate of allelochemicals in the soil, Ciência Rural, 27, 351.