Affiliation:
1. The Far Eastern Research Institute of Plant Protection – Branch of Federal Scientific Center of Agricultural Biotechnology of the Far East named after A. K.Chaiki
Abstract
The effect of herbicide Flex, AS (active ingredient fomesafen 250 g/l) on annual weed species common in soybean crops was studied. The studies were conducted under greenhouse conditions in 2019-2021. The sensitivity of ragweed Ambrosia artemisiifolia L., Asian copper leaf Acalypha australis L., common lamb's quarters Chenopodium album L., common dayflower Commelina communis L., China jute Abutilon theophrasti Medik, trailing hollyhock Hibiscus trionum L., St.-Paul’swort Sigesbeckia pubescens Makino, green amaranth Amaranthus retroflexus L., elsholtzia Elsholtzia pseudocristata Levl. et Vaniot, and Siberian cocklebur Xanthium sibiricum Patrin ex Widd was determined. Weed treatment with Flex at rates of 0.75, 1.0, 1.25 and 1.5 l/ha was carried out three times a season at different stages of plant growth and development. The level of sensitivity of weed species to herbicide was judged by the decrease in height and weight of the aboveground organs of the experimental plants compared to the control. It was found that Flex herbicide completely destroys plants of all tested species in the early stages of growth and development (1-4 true leaves). When treating weeds that have formed 3-10 leaves, ragweed, green amaranth, Asian copper leaf, trailing hollyhock and Siberian cocklebur remain highly sensitive to the drug action (reduction of the aboveground weight up to 94-100%). Application of Flex on overgrown plants leads to a significant decrease in its activity against all studied weed species. When used in the third term, the herbicide is effective only on the green amaranth, suppressing the mass of the plants by 76-86%.
Reference20 articles.
1. Kim L.V., Vdovenko A.V., Nazarova A.A., Emel'yanova E.A. Problems and prospects of crop production in the Far East. Dal'nevostochnyi agrarnyi vestnik = Far East Agrarian Bulletin, 2019, no. 3 (51), pp. 19–26. (In Russian). DOI: 10.24411/1999-6837-2019-13031.
2. Stepanov A.S., Aseeva T.A., Dubrovin K.N. The influence of climatic characteristics and values of NDVI at soybean yield (on the example of the districts of the Primorskiy region). Agrarnyi vestnik Urala = Agrarian Bulletin of the Urals, 2020, no. 1 (192), pp. 10–19. (In Russian.). DOI: 10.32417/1997-4868-2020-192-1-10-19.
3. Prisyazhnaya I.M., Sinegovskii M.O., Prisyazhnaya S.P., Sinegovskaya V.T. Usage of not grain part of soybean grain as organic manure. Vestnik Rossiiskoi sel'skokhozyaistvennoi nauki = Vestnik of the Russian agricultural science, 2022, no. 1, pp. 62–66. (In Russian.). DOI: 10.30850/vrsn/2022/1/62-66.
4. Popova O.V., Rukin V.F., Salmanova I.A. For the soybean protection in the Central Black Earth region. Zaschita i karantin rastenii = Board of Plant Protection and Quarantine, 2012, no. 7, pp. 27–31. (In Russian).
5. Venevtsev V.Z., Zakharova M.N., Rozhkova L.V. Control of weeds in soybean crops in the Ryazan region. Zaschita i karantin rastenii = Board of Plant Protection and Quarantine, 2017, no. 12, pp. 28–29. (In Russian).
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