Browse on keywords: weed no-till
Search results on 05/20/13
1335. Cleary, C.L. and T.F. Peeper. 1983. Effect of no-till systems on weed control and yields of continuous winter wheat.. Weed Sci. 31:813-818.
Experiments were conducted to determine whether selected herbicide treatments applied before or after hervest would provide adequate weed control without the use of tillage between crops in continuous winter wheat. After 4 yrs, pops. of winter annual cruciferae spp. at one location were lower in treatments that had poorer control of summer annual weeds of volunteer wheat. At a second location, winter annual broadleaf species were more numerous in conventionally tilled than in no-till treatments. Wheat yields obtained with no-till treatments were lower than yields obtained with conventional tillage in seasons favorable for high yields.
7994. Stewart, V.R., L.S> Prestbye, T.K. Keener, and L.E. Welty. 1986. Weed control in sod-seeded alfalfa.. Montana AgResearch 3(1):21-24.
8001. Stewart, V.R., L.E. Welty, and P.F. Hensleigh. 1979. Evaluation of glyphosate in combination with various herbicides for sod-seeding.. West. Soc. Weed Sci. Abstr. p. 110.
9724. Reinertsen, S., V.L. Cochran and L.A. Morrow. 1983. Response of spring wheat to N fertilizer placement, row spacing, and wild oat herbicides in a no-till system.. Agronomy J. 76:753-756..
A 2-year study was conducted on a north facing Thatuna silt loam (fine-silty, mixed, mesic Xeric Argialbolls) to evaluate the influence of N fertilizer placement, crop row spacing, and wild oat (Avena fatua L.) herbicides on wild oat populations and wheat yield in no-till spring wheat. The treatments were factorial arrangements of ammonium nitrate either surface applied preplant or banded 50 mm below the crop seed at planting; wild oat control using triallate premergence, difenzoquat post-emergence, or no herbicide (check); and crop row spacings of either 200, 300, or 400 mm. Surface-applied fertilizer N significantly increased wild oat populations compared with banding the N fertilizer below the seed, but had no effect on dry weight or N uptake. Banded N increased total dry weight N uptake, and grain yield of wheat. These responses indicate that banded fertilizer N was positionally more available to wheat than was broadcast N, but banding N did not reduce availability of N to wild oat. However, surface applied N stimulated wild oat emergence. Triallate decreased wild oat populations compared to difenzoquat or no herbicide, but was no more effective than difensoquat in reducing wild oat dry weight and total Kjeldahl N uptake. Both herbicides reduced wild oat dry weight as compared to the no herbicide check and significantly increased wheat yields. Row spacing did not affect wild oat dry weight or total N uptake, but the 200 m row increased wheat dry weight, total Kjeldhl N uptake, and grain yields compared to the 300 and 400 cm rows. There were no significant interactions.