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Effect of Fatty Acid Methyl Esters on the Herbicidal Effect of Essential Oils on Corn and Weeds

Published online by Cambridge University Press:  13 March 2017

Agnieszka Synowiec*
Affiliation:
Assistant Professor, Department of Agrotechnology and Agricultural Ecology, University of Agriculture in Krakow, 31-120 Poland
Wiktor Halecki
Affiliation:
PhD candidate, Department of Land Reclamation and Environmental Development, University of Agriculture in Krakow, 30-059 Poland
Katarzyna Wielgusz
Affiliation:
Research Assistants in the Institute of Natural Fibers and Medicinal Plants, 60-630 Poznan, Poland
Małgorzata Byczyńska
Affiliation:
Research Assistants in the Institute of Natural Fibers and Medicinal Plants, 60-630 Poznan, Poland
Sylwester Czaplicki
Affiliation:
Assistant Professor, Chair of Food Plant Chemistry and Processing, Faculty of Food Sciences, University of Warmia and Mazury in Olsztyn, 10-719 Poland
*
*Corresponding author’s E-mail: a.stoklosa@ur.krakow.pl
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Abstract

In this study, we tested whether the addition of fatty acid methyl esters (FAME) of edible oils would influence the herbicidal effect of the essential oils (EO) of fiber hemp and peppermint (Mentha×piperita L.) against common lambsquarters, barnyardgrass, and corn. The herbicidal properties of a 2.5% concentration of each EO in water mixtures with FAME were evaluated as sprays in a pot experiment. The oil-FAME mixtures showed phytotoxic effects against common lambsquarters and barnyardgrass expressed by a reduction in plant length and aboveground and root biomass, as measured three weeks after foliar spraying. Corn was the most tolerant species to the tested mixtures. Sunflower FAME alone was safe on corn but reduced the growth of weeds. Peppermint EO alone was the most phytotoxic on all tested species. In conclusion, the mixture of peppermint EO with oilseed rape FAME was the best treatment; however, improvement on Ch. album would be desirable for commercial-level control.

En este estudio, evaluamos si la admisión de fatty acid methyl esters (FAME) de aceites comestibles influencia el efecto herbicida de los aceites esenciales (EO) del cáñamo y la menta contra Chenopodium album, Echinochloa crus-galli, y maíz. Las propiedades herbicidas de una concentración de 2.5% de cada EO en mezclas acuosas con FAME fueron evaluadas en un experimento con potes. Las mezclas de aceite-FAME mostraron efectos fitotóxicos contra C. album y E. crus-galli expresados como una reducción en el largo de la planta y la biomasa aérea y de raíz, medidas tres semanas después de la aspersión foliar. El maíz fue la especie más tolerante a las mezclas evaluadas. FAME de girasol solo fue seguro en el maíz, pero redujo el crecimiento de las malezas. EO de menta solo fue el más fitotóxico de todas las especies evaluadas. En conclusión, la mezcla de EO de menta con FAME de colza fue el mejor tratamiento. Sin embargo, una mejora en la actividad sobre C. album sería deseable para alcanzar un nivel de control comercial.

Information

Type
Weed Management-Techniques
Copyright
© Weed Science Society of America, 2017 
Figure 0

Table 1 Composition (%), formula, and molecular weight of fatty acid methyl esters of three edible oils.

Figure 1

Figure 1 Leaves sprayed with mixtures of water plus essential oils (EOs) and fatty acid methyl esters (FAMEs), 15 minutes after treatment. A) Corn treated with peppermint EO plus oilseed rape FAME, B) barnyardgrass treated with water plus fiber hemp EO; C) common lambsquarters treated with fiber hemp EO plus soybean FAME.

Figure 2

Figure 2 Leaf injury of selected species 12 hours after treatment with selected essential oils.

Figure 3

Figure 3 Canonical variate analysis showing a correlation between length and dry matter of corn □, common lambsquarters ◊, and barnyardgrass ■ following treatment with water mixtures containing the essential oils of peppermint or fiber hemp with the addition of methyl esters of fatty acids as adjuvants.

Figure 4

Figure 4 Effect of spray mixtures on the dry mass of a single plant of A) corn, B) barnyardgrass, and C) common lambsquarters, 3 weeks after spraying. The bars represent the mean value for two series of experiments±SE (n=6). Different letters indicate significant differences in relation to the control sprayed with water, according to Tukey’s test at P<0.05. Abbreviations: FAME, fatty acid methyl esters; H, fiber hemp essential oil; P, peppermint essential oil; R, oilseed rape; SB, soybean; SF, sunflower.

Figure 5

Figure 5 Ternary graphs presenting the measured characteristics of A) corn, B) barnyardgrass, and C) common lambsquarters after treatment with combinations of the essential oils of hemp or peppermint with fatty acid methyl esters, or with treatments containing fatty acid methyl esters only. Abbreviations: H, fiber hemp essential oil; P, peppermint essential oil; R, oilseed rape fatty acid methyl ester; SB, soybean fatty acid methyl ester; SF, sunflower fatty acid methyl ester.