GENE FLOW IN COMMERCIAL FIELDS OF HERBICIDE‐RESISTANT CANOLA (BRASSICA NAPUS)
暂无分享,去创建一个
Hugh J. Beckie | S. Warwick | H. Beckie | G. Séguin-Swartz | Suzanne I. Warwick | Harikumar Nair | G. Séguin-Swartz | Harikumar Nair
[1] M. Wilkinson,et al. Assessing the risks of wind pollination from fields of genetically modified Brassica napus ssp. oleifera , 1995, Euphytica.
[2] R. J. Darby,et al. Factors affecting growth and yield of winter oilseed rape (Brassica napus), 1985–89 , 1994, The Journal of Agricultural Science.
[3] B. Godelle,et al. A pollen-dispersal experiment with transgenic oilseed rape. Estimation of the average pollen dispersal of an individual plant within a field , 1998, Theoretical and Applied Genetics.
[4] Linda Hall,et al. Pollen flow between herbicide-resistant Brassica napus is the cause of multiple-resistant B. napus volunteers1 , 2000, Weed Science.
[5] J. Ingram,et al. The separation distances required to ensure cross-pollination is below specified limits in non-seed crops of sugar beet, maize and oilseed rape. , 2000 .
[6] G. Rakow,et al. OUTCROSSING IN RAPE AND MUSTARD UNDER SASKATCHEWAN PRAIRIE CONDITIONS , 1987 .
[7] Philip J. Dale,et al. Evaluating the effectiveness of isolation distances for field plots of oilseed rape (Brassica napus) using a herbicide‐resistance transgene as a selectable marker , 1995 .
[8] The effect Of insect pollination on plant development and seed production in winter oil-seed rape (Brassica napus L.) , 1987, The Journal of Agricultural Science.
[9] D. L. Thomas,et al. Influence of Timing and Method of Harvest on Rapeseed Yield , 1991 .
[10] Antoine Messéan,et al. Management of transgenic crops within the cropping system , 1999 .
[11] S. Warwick,et al. Presence and persistence of volunteer canola in Canadian cropping systems. , 2001 .
[12] P. McVetty,et al. Plot-to-plot, row-to-row and plant-to-plant outcrossing studies in oilseed rape , 2001 .
[13] Brett Whelan,et al. Does kriging predict weed distributions accurately enough for site-specific weed control? , 2001 .
[14] J. W. Crawford,et al. Regional patterns of gene flow and its consequence for GM oilseed rape , 1999 .
[15] I. Williams. The concentrations of air-borne rape pollen over a crop of oil-seed rape (Brassica napus L.) , 1984, The Journal of Agricultural Science.
[16] P Kareiva,et al. Quantifying the spread of recombinant genes and organisms. , 1991, Biotechnology.
[17] William F. Morris,et al. Do Barren Zones and Pollen Traps Reduce Gene Escape From Transgenic Crops , 1994 .
[18] C. Damgaard,et al. Environmental variation for outcrossing rate in rapeseed (Brassica napus) , 1992, Theoretical and Applied Genetics.
[19] Christopher Preston,et al. Pollen-Mediated Movement of Herbicide Resistance Between Commercial Canola Fields , 2002, Science.
[20] R. Downey. Gene flow and rape - the Canadian experience , 1999 .
[21] P. McVetty,et al. Effectiveness of border areas in confining the spread of transgenic Brassica napus pollen , 2000 .
[22] S. Warwick,et al. The Frequency and Persistence of Volunteer Canola (Brassica napus) in Québec Cropping Systems* , 2002, Weed Technology.
[23] E. Pahlich,et al. A rapid DNA isolation procedure for small quantities of fresh leaf tissue , 1980 .
[24] M. Devine,et al. Advantages of genetically modified canola: a Canadian perspective. , 2001 .
[25] Philip J. Dale,et al. Frequency and distance of pollen dispersal from transgenic oilseed rape (Brassica napus) , 1993, Transgenic Research.