Exploring the Herbicidal and Hormetic Potential of Allelopathic Crops Against Fenoxaprop-Resistant Phalaris minor

Exploring the Herbicidal and Hormetic Potential of Allelopathic Crops Against Fenoxaprop-Resistant Phalaris minor

Recent increases in the development of herbicide resistance in Phalaris minor worldwide demand alternative non-chemical strategies to control this weed. A series of experiments were conducted under laboratory and greenhouse conditions to explore the herbicidal potential of four allelopathic crops, i...

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Veröffentlicht in:Advances in Weed Science 2018, Vol.36
Hauptverfasser: ABBAS, T., NADEEM, M.A., TANVEER, A., ALI, H.H., SAFDAR, M.E., ZOHAIB, A., FAROOQ, N.
Format: Artikel
Sprache:eng
Schlagworte:
Acids
Agricultural production
Allelochemicals
Allelopathy
alternative weed management
Cereal crops
Corn
Crop residues
Crops
Experiments
Herbicide resistance
Herbicides
Hormesis
Laboratories
littleseed canarygrass
Morphology
Mulches
natural herbicides
Natural products
Organic chemistry
Phalaris minor
PLANT SCIENCES
Reduction
Residues
Rice
Scholarly publishing
Seeds
Sorghum
Weeds
Wheat
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Zusammenfassung:Recent increases in the development of herbicide resistance in Phalaris minor worldwide demand alternative non-chemical strategies to control this weed. A series of experiments were conducted under laboratory and greenhouse conditions to explore the herbicidal potential of four allelopathic crops, including maize, rice, sorghum and sunflower, at different concentrations of aqueous extracts (2.5% and 5%), residues (1%, 2% and 4%) and mulches (4, 8, and 12 ton ha-1) against fenoxaprop-resistant P. minor. Aqueous extracts, residues and mulches provided 86-100%, 73-100% and 16-40% control of this resistant weed biotype, respectively. The dry biomass reduction due to aqueous extracts, residues and mulches was 48-100%, 48-100% and 20-54%, respectively. Mulches also caused 17-41% reduction in the seed production potential of P. minor. Lower concentrations of allelochemicals showed hormesis (positive effect) against some emergence and growth traits of P. minor. The phytotoxic chemicals of these four crops have a strong herbicidal potential against herbicide-resistant P. minor, and can be used as an organic alternative to control herbicide resistant P. minor, thus ensuring a sustainable wheat production. RESUMO: Aumentos recentes no desenvolvimento da resistência a herbicidas em Phalaris minor no mundo inteiro exigem estratégias não químicas alternativas para controlar essa planta daninha. Uma série de experimentos foi conduzida em condições laboratoriais e de estufa para explorar o potencial herbicida de quatro culturas alelopáticas, incluindo milho, arroz, sorgo e girassol, em diferentes concentrações de extratos aquosos (2,5% e 5%), resíduos (1%, 2% e 4%) e coberturas (4, 8 e 12 toneladas ha-1), contra P. minor resistente ao fenoxaprop. Os extratos aquosos, resíduos e coberturas proporcionaram controle de 86-100%, 73-100% e 16-40%, respectivamente, desse biótipo de planta daninha resistente. A redução na biomassa seca devido a extratos aquosos, resíduos e coberturas foi de 48-100%, 48-100% e 20-54%, respectivamente. As coberturas causaram também redução de 17-41% no potencial de produção de sementes de P. minor. Menores concentrações de aleloquímicos mostraram hormese (efeito positivo) contra algumas características de emergência e crescimento de P. minor. Os produtos químicos fitotóxicos dessas quatro culturas têm forte potencial herbicida contra P. minor resistente a herbicidas e podem ser usados como uma alternativa orgânica para controlá-la, garantindo uma p
ISSN:0100-8358
1806-9681
1806-9681
2675-9462
DOI:10.1590/s0100-83582018360100056