Synchrony of flowering between canola and wild radish (Raphanus raphanistrum)
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[1] J. Ollerton,et al. Relationships between flowering phenology, plant size and reproductive success in shape Lotus corniculatus (Fabaceae) , 1998, Plant Ecology.
[2] P. McVetty,et al. Plot-to-plot, row-to-row and plant-to-plant outcrossing studies in oilseed rape , 2001 .
[3] T. D. Potter,et al. Hybridisation between Brassica napus L. and Raphanus raphanistrum L. under agronomic field conditions , 2001, Theoretical and Applied Genetics.
[4] M. Trick,et al. Comparison of flowering time genes in Brassica rapa, B. napus and Arabidopsis thaliana. , 1997, Genetics.
[5] A. Baranger,et al. Characterization of backcross generations obtained under field conditions from oilseed rape-wild radish F1 interspecific hybrids: an assessment of transgene dispersal , 1998, Theoretical and Applied Genetics.
[6] Alain Fleury,et al. Spontaneous hybridizations between oilseed rape and wild radish , 1998 .
[7] A. Baranger,et al. Effect of oilseed rape genotype on the spontaneous hybridization rate with a weedy species:an assessment of transgene dispersal , 1995, Theoretical and Applied Genetics.
[8] J. Orson,et al. Depth and date of emergence of volunteer oilseed rape (Brassica napus L.) and its control with herbicides used in peas, beans, potatoes and sugar beet.. vol. 3 , 1989 .
[9] S. Warwick,et al. Hybridization between transgenic Brassica napus L. and its wild relatives: Brassica rapa L., Raphanus raphanistrum L., Sinapis arvensis L., and Erucastrum gallicum (Willd.) O.E. Schulz , 2003, Theoretical and Applied Genetics.
[10] J. Weiner,et al. The influence of competition on plant reproduction. , 1988 .
[11] S. Mazer. PARENTAL EFFECTS ON SEED DEVELOPMENT AND SEED YIELD IN RAPHANUS RAPHANISTRUM: IMPLICATIONS FOR NATURAL AND SEXUAL SELECTION , 1987, Evolution; international journal of organic evolution.
[12] T. G. Reeves,et al. Seed production and longevity, seasonal emergence and phenology of wild radish (Raphanus raphanistrum L.). , 1981 .
[13] B. Rathcke. Interactions for Pollination among Coflowering Shrubs , 1988 .
[14] S. Warwick,et al. Presence and persistence of volunteer canola in Canadian cropping systems. , 2001 .
[15] M. Stanton. Seed size and emergence time within a stand of wild radish (Raphanus raphanistrum L.): the establishment of a fitness hierarchy , 1985, Oecologia.
[16] A. Fleury,et al. Assessment of interspecific hybridization between transgenic oilseed rape and wild radish under normal agronomic conditions , 2000, Theoretical and Applied Genetics.
[17] S. Warwick,et al. The Frequency and Persistence of Volunteer Canola (Brassica napus) in Québec Cropping Systems* , 2002, Weed Technology.
[18] Linda Hall,et al. Pollen flow between herbicide-resistant Brassica napus is the cause of multiple-resistant B. napus volunteers1 , 2000, Weed Science.
[19] R. Willemsen,et al. Germination Characteristics of Raphanus raphanistrum. I. Laboratory Studies , 1975 .
[20] Hugh J. Beckie,et al. GENE FLOW IN COMMERCIAL FIELDS OF HERBICIDE‐RESISTANT CANOLA (BRASSICA NAPUS) , 2003 .
[21] M. Arnold,et al. ASSORTATIVE MATING AND NATURAL SELECTION IN AN IRIS HYBRID ZONE , 1994, Evolution; international journal of organic evolution.
[22] A. Snow,et al. Pollinator preferences and the persistence of crop genes in wild radish populations (Raphanus raphanistrum, Brassicaceae). , 1998, American journal of botany.
[23] H. Darmency,et al. Predicting hybridization between transgenic oilseed rape and wild mustard , 1996 .
[24] H. Darmency,et al. Polymorphism for interspecific hybridisation within a population of wild radish (Raphanus raphanistrum) pollinated by oilseed rape (Brassica napus) , 2001, Sexual Plant Reproduction.
[25] N. Ellstrand,et al. Gene flow among small populations of a self-incompatible plant: an interaction between demography and genetics. , 1997, American journal of botany.
[26] M. Arnold,et al. Mating system variation in hybridizing irises: Effects of phenology and floral densities on family outcrossing rates , 1994, Heredity.
[27] A. Schneiter,et al. Influence of Planting Date on Canola and Crambe Production , 1995 .
[28] G. Rakow,et al. OUTCROSSING IN RAPE AND MUSTARD UNDER SASKATCHEWAN PRAIRIE CONDITIONS , 1987 .
[29] A. Snow,et al. Floral Evolution: Attractiveness to Pollinators Increases Male Fitness , 1986, Science.
[30] A. Cheam. Seed production and seed dormancy in wild radish (Raphanus raphanistrum L.) and some possibilities for improving control , 1986 .
[31] S. Mazer,et al. CONSTANCY OF POPULATION PARAMETERS FOR LIFE‐HISTORY AND FLORAL TRAITS IN RAPHANUS SATIVUS L. II. EFFECTS OF PLANTING DENSITY ON PHENOTYPE AND HERITABILITY ESTIMATES , 1991, Evolution; international journal of organic evolution.
[32] C. Augspurger. Reproductive Synchrony of a Tropical Shrub: Experimental Studies on Effects of Pollinators and Seed Predators in Hybanthus Prunifolius (Violaceae) , 1981 .
[33] Z. P. Kondra,et al. THE INFLUENCE OF SEEDING DATE AND SEEDING RATE ON SEED YIELD AND GROWTH CHARACTERS OF FIVE GENOTYPES OF Brassica napus , 1981 .
[34] Christopher Preston,et al. Risks of gene flow from transgenic herbicide-resistant canola (Brassica napus) to weedy relatives in southern Australian cropping systems , 1999 .
[35] H. Darmency. Gene Flow between Crops and Weeds: Risk for New Herbicide Resistant Weeds ? , 1997 .
[36] R. Downey,et al. Rapeseed and Mustard , 1980 .
[37] K. Kirkland,et al. Alternative seeding dates (fall and April) affect Brassica napus canola yield and quality , 2000 .
[38] D. R. Sampson. A ONE-LOCUS SELF-INCOMPATIBILITY SYSTEM IN RAPHANUS RAPHANISTRUM , 1964 .
[39] C. Augspurger. Phenology, flowering synchrony, and fruit set of six neotropical shrubs , 1983 .
[40] C. Ghersa,et al. Using phenology prediction in weed management: a review , 1995 .