In field tests conducted on oriental and fluecured tobacco, six herbicides were evaluated for their effect on broomrape (Orobanche ramosa L.) control and on tobacco growth, yield and chemical composition. Imazaquin-fpendimethalin (1;6) at 0-09-f 0-55 kg a.i. ha"' soU incorporated before transplanting controlled broomrape effectively only in 1990 and significantly reduced tobacco yield. Glyphosate (as Roundup 360ga.e,r'and Armada (90ga.e.r^) and sulfosate, each at 0 2-t-O 3 kg a.e. ha~' and imazaquin at 0-07 4-01 kg a.i. ha"' foliar applied at 40 days and 60 days after transplanting gave excellent control of broomrape, with no adverse effect on tobacco growth or yield; however, the 9% formulation of glyphosate was damaging. Maleic hydrazide gave moderate to good (up to 80%) control of broomrape. Reducing sugars in flue-cured tobacco and nicotine in both oriental and flue-cured tobacco were higher where a herbicide was used. Des herbicides pour lutter contre Orobanche ramosa L. dans le tabac (Nicotiana tabacum L), Dans des experimentations au champ conduites sur du tabac oriental et 'flue cured', six herbicides ont ete evalues pour leur effet sur Orobanche ramosa L. ainsi que sur la croissance, le rende-•Present address: University of Thessaly, GR-383 34, Volos, Greece.
Studies were conducted in North Carolina to determine if johnsongrass [Sorghum halepense(L.) Pers.] rhizomes in the soil exude or produce substances that can affect soybean [Glycine max(L.) Merr.] seedling growth. Fresh and dry weights of soybean seedlings were dependent on the concentration of rhizomes present in the soil before soil samples were used for soybean growth, and on the time of year when soil samples were collected. In studies on rhizome residues, soybean seedling dry weight decreased as percent of dry, decayed rhizomes in the soil increased. For each rhizome concentration, soybean growth inhibition decreased as decay time increased. Fresh and dry weights of soybean plants were reduced by diluted fresh rhizome extract used for irrigation once a week for 3 weeks. Since no rhizomes were present in most of the soils during soybean growth and since nutrient concentrations, organic matter, and pH were not different among the soils used, it is suggested that johnsongrass rhizomes living or decaying in the soil exude, contain, or produce substances that exhibit allelopathic characteristics to soybean growth.
Summary: Growth characteristics of johnsongrass [Sorghum halepence(L) Pers] grown in the field from rhizomes 2.5, 5, 10, 15, 20, or 25 cm long were studied in a sandy loam soil for 2 years. Plant height, number of leaves per plant, number of tillers per plant, and fresh weight of new rhizomes and shoots were significantly dependent on the length of the planted rhizome 20, 40, 60, or 80 days after planting. All growth characteristics increased significantly as the length of planted rhizome increased from 2.5 cm to 10 cm to 25 cm Growth characteristics of Johnsongrass plants grown on rhizomes of adjacent lengths (differing by 5 cm) generally were not significantly different. Longer rhizomes (15, 20, or 25 cm) initiated new rhizome growth much earlier (about 20–30 days) than shorter rhizomes (2.5, 5, or 10 cm) Although all rhizome lengths showed a parallel growth potential, the lunger rhizomes were capable of more and faster growth, especially early after planting. It is suggested that Johnsongrass plants associated with longer rhizomes in the field as a result of limited tillage, coupled with their faster growth rate, are expected to interfere with crop production earlier than plants on shorter rhizomes unless controlled.
Ten herbicides were evaluated for broomrape (Orobanche ramosaL. # ORARA) control and their effect on growth, yield, and chemical composition of four tobacco (Nicotiana tabaccumL.) cultivars. Of the preplant-incorporated (PPI) herbicides, only pebulate (S-propyl butylethylcarbamothioate) at 7.2 kg ai/ha and metham (methylcarbamodithioic acid) at 66 kg ai/ha provided, although inconsistently, 30 to 50% broomrape control in oriental but not in burley tobacco. Single postemergence (POE) applications of glyphosate [N-(phosphonomethyl)glycine] at 0.2 kg ai/ha or MH (1,2-dihydro-3,6-pyridazinedione) at 0.7 kg ai/ha at 40 days after transplanting resulted in 60 to 80% broomrape control. Glyphosate or MH applications at 40 days after transplanting and again at 60 days resulted in 100% and 80 to 90% control, respectively. Very good (80 to 90%) control also occurred with pebulate (PPI) at 7.2 kg ai/ha followed by glyphosate (POE) at 0.2 kg ai/ha at 40 days after transplanting. Tobacco yield increased significantly, compared to that of untreated plots, where glyphosate or MH was used, but nicotine, total nitrogen, and reducing sugar contents were not significantly affected.
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