Search Results

You are looking at 131 - 140 of 191 items for :

  • "weed suppression" x
Clear All
Full access

Jennifer Tillman, Ajay Nair, Mark Gleason and Jean Batzer

, and herbicides influence weed suppression and yield of pumpkins Weed Technol. 18 953 961 Roper, M.M. Gupta, V.V.S.R. Murphy, D.V. 2010 Tillage practices altered labile soil organic carbon and microbial function without affecting crop yields Austral. J

Full access

Christian A. Wyenandt, Landon H. Rhodes, Mark A. Bennett and Richard M. Riedel

mechanically killing cover crops to optimize weed suppression Amer. J. Altern. Agr. 10 157 162 Creamer, N.G. Bennett, M.A. Stinner, B.R. Cardina, J. 1996a A comparison of four processing tomato production systems differing in cover crop and chemical inputs J

Full access

Sanjeev K. Bangarwa, Jason K. Norsworthy, Edward E. Gbur and John D. Mattice

for weed suppression. Similarly, Norsworthy and Meehan (2005b) found that for yellow nutsedge emergence to be reduced 92%, a phenyl ITC concentration of 1352 ppm in soil is required. However, the above-mentioned studies were conducted in open trays

Full access

Christian A. Wyenandt, Richard M. Riedel, Landon H. Rhodes, Mark A. Bennett and Stephen G.P. Nameth

.H. Phillips, R.E. 1971 Influence of no-tillage on soil moisture Agron. J. 63 593 596 Creamer, N.G. Plassman, B. Bennett, M.A. Wood, R.K. Stinner, B.R. Cardina, J. 1995 A method for mechanically killing cover crops to optimize weed suppression Am. J. Altern

Full access

Victoria J. Ackroyd and Mathieu Ngouajio

control soilborne pathogens, while contributing other benefits such as decreased erosion and weed suppression. Research suggests that brassica cover crops may be phytotoxic to cash crop seeds. Haramoto and Gallandt (2005) determined that brassica cover

Free access

Francesco Montemurro, Angelo Fiore, Gabriele Campanelli, Fabio Tittarelli, Luigi Ledda and Stefano Canali

Paper No. 56. FAO, Rome, Italy Altieri, M.A. Lana, M.A. Bittencourt, H.V. Kieling, A.S. Comin, J.J. Lovato, P.E. 2011 Enhancing crop productivity via weed suppression in organic no-till cropping systems in Santa Catarina, Brazil J. Sustain. Agr. 35 855

Full access

Shuresh Ghimire, Arnold M. Saxton, Annette L. Wszelaki, Jenny C. Moore and Carol A. Miles

the soil Environ. Sci. Technol. 46 6453 6454 Schonbeck, M.W. 1999 Weed suppression and labor costs associated with organic, plastic, and paper mulches in small-scale vegetable production J. Sustain. Agr. 13 13 33 Shogren, R.L. 2000 Biodegradable

Free access

Jeffrey R. Pieper, Rebecca Nelson Brown and José A. Amador

averaged only 1.7 Mg·ha −1 in 2011 and 2.1 Mg·ha −1 in 2012. Teasdale and Mohler (2000) showed an exponential relationship between rye mulch biomass and weed populations, concluding that weed suppression is increased by 15% for every 1000 kg of cover

Free access

Katie J. Kammler, S. Alan Walters and Bryan G. Young

.C. Vermeylen, F.M. 2004 Reduced tillage, rye residues, and herbicides influence weed suppression and yield of pumpkins Weed Technol. 18 953 961 Senseman, S.A. 2007 Herbicide handbook 9th ed Weed Science Society of

Free access

Rick A. Boydston, Harold P. Collins and Steven F. Vaughn

species at rates of 300 to 1000 g·m 2 ( Bingaman and Christians, 1995 ). Although weed suppression is often limited with corn gluten meal application rates below 300 g·m −2 , stands of several direct seeded vegetables were reduced with rates as low as 100