G. F. Warren scite author profile

Competition studies were conducted in Brazil during 1972 and 1973 between high populations (160 plants/0.1 m2at 5 to 7 weeks after planting) of purple nutsedge (Cyperus rotundusL.) and the following vegetable crops: garlic (Allium sativumL. ‘Mineiro’), okra (Hibiscus esculentusL. ‘UFV 1152’), carrot (Daucus carotaL. ‘Nantes’ and ‘Kuroda’), bush-type green bean (Phaseolus vulgarisL. ‘Topcrop’), cucumber (Cucumis sativusL. ‘Aldai’), transplanted cabbage (Brassica oleraceaL. var. capitata ‘Louco’) and transplanted tomato (Lycopersicon esculentumMill. ‘Santa Rita’). Purple nutsedge grew all year with irrigation, although growth was greater during the warm, wet season (October to March). Crop losses due to purple nutsedge competition during the entire cropping season were as follows: garlic 89%; okra 62%; two carrot cultivars, ‘Kuroda’ and ‘Nantes’ 39% and 50%, respectively; green bean 41%; cucumber 43%; cabbage 35%; and tomato 53%. Critical periods of purple nutsedge competition occurred between 3 and 13 weeks for garlic; 3 and 7 weeks for okra, cucumber and the carrot cultivar ‘Nantes’; 3 and 5 weeks for tomato and the carrot cultivar ‘Kuroda’; and at approximately 4 weeks for cabbage and green bean. Purple nutsedge competed for light in the slow-growing, non-competitive crops and for nutrients in all crops. Competition for water was reduced because the vegetables were irrigated regularly. The rate of leaf area development for a competitive crop, green bean, was similar to the rate for purple nutsedge, whereas the rate was much lower for the non-competitive okra.

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Fate and Activity of Herbicides in Soils

Ogle¹,

Warren²

1954

Weeds

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Differential Phytotoxicity of Trifluralin and Nitralin

Barrentine¹,

Warren²

1971

Weed sci.

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Comparative phytotoxicity ofα,α,α-trifluoro-2,6-dinitro-N,N-dipropyl-p-toluidine (trifluralin) and 4-(methylsulfonyl)-2,6-dinitro-N,N-dipropylaniline (nitralin) on several plant species indicated trifluralin was more toxic than nitralin to the shoots while nitralin was more toxic than trifluralin to the roots. An E0concentration, defined as that concentration required to prevent seedling emergence, was established for trifluralin on nearly all species assayed. Nitralin did not prevent emergence of any species. Trifluralin was more toxic than nitralin to the shoots of sorghum (Sorghum bicolor(L.) Moench, var. RS-610) and cucumber (Cucumis sativusL., var. Wis. SMR-15 and Pioneer) via shoot exposure. Nitralin was more toxic than trifluralin to the roots via root exposure. A comparison of the phytotoxicity through vapor activity showed trifluralin was much more toxic than nitralin.

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Photochemical Decomposition of Trifluralin

Wright¹,

Warren²

1965

Weeds

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G. F. Warren

Adsorption and Desorption of Herbicides by Soil

Competition Between Purple Nutsedge and Vegetables

Fate and Activity of Herbicides in Soils

Differential Phytotoxicity of Trifluralin and Nitralin

Photochemical Decomposition of Trifluralin

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