The evolution of novel herbicide tolerance in a noxious weed: the geographic mosaic of selection
暂无分享,去创建一个
[1] G. Dill,et al. Glyphosate-resistant crops: history, status and future. , 2005, Pest management science.
[2] R. Baucom,et al. Fitness costs and benefits of novel herbicide tolerance in a noxious weed. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[3] Richard E. Miller,et al. Systematics of Ipomoea subgenus Quamoclit (Convolvulaceae) based on ITS sequence data and a Bayesian phylogenetic analysis. , 2004, American journal of botany.
[4] J. Stinchcombe,et al. EVOLUTIONARY GENETICS OF RESISTANCE AND TOLERANCE TO NATURAL HERBIVORY IN ARABIDOPSIS THALIANA , 2003, Evolution; international journal of organic evolution.
[5] E D Brodie,et al. THE EVOLUTIONARY RESPONSE OF PREDATORS TO DANGEROUS PREY: HOTSPOTS AND COLDSPOTS IN THE GEOGRAPHIC MOSAIC OF COEVOLUTION BETWEEN GARTER SNAKES AND NEWTS , 2002, Evolution; international journal of organic evolution.
[6] T. Buckley,et al. An examination of the monophyly of morning glory taxa using Bayesian phylogenetic inference. , 2002, Systematic biology.
[7] M. Rausher,et al. The evolution of tolerance to deer herbivory: modifications caused by the abundance of insect herbivores , 2002, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[8] P. Tiffin,et al. MEASURING TOLERANCE TO HERBIVORY: ACCURACY AND PRECISION OF ESTIMATES MADE USING NATURAL VERSUS IMPOSED DAMAGE , 2000, Evolution; international journal of organic evolution.
[9] M. Rausher,et al. Genetic Constraints and Selection Acting on Tolerance to Herbivory in the Common Morning Glory Ipomoea purpurea , 1999, The American Naturalist.
[10] J. Burdon,et al. Spatial and Temporal Patterns in Coevolving Plant and Pathogen Associations , 1999, The American Naturalist.
[11] M. Rausher,et al. Frequency‐Dependent Pollen Discounting Contributes to Maintenance of a Mixed Mating System in the Common Morning Glory Ipomoea purpurea , 1998, The American Naturalist.
[12] J. Thompson. EVALUATING THE DYNAMICS OF COEVOLUTION AMONG GEOGRAPHICALLY STRUCTURED POPULATIONS , 1997 .
[13] M. Rausher,et al. VARIATION IN THE DEFENSE STRATEGIES OF PLANTS: ARE RESISTANCE AND TOLERANCE MUTUALLY EXCLUSIVE? , 1997 .
[14] J. Hamrick,et al. Effects of life history traits on genetic diversity in plant species , 1996 .
[15] B. Epperson,et al. Measurement of genetic structure within populations using Moran's spatial autocorrelation statistics. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[16] M. Rausher,et al. Tradeoff between resistance and tolerance to herbivore damage in a morning glory , 1995, Nature.
[17] E. Simms,et al. COSTS AND BENEFITS OF PLANT RESPONSES TO DISEASE: RESISTANCE AND TOLERANCE , 1994, Evolution; international journal of organic evolution.
[18] K. Spitze. Population structure in Daphnia obtusa: quantitative genetic and allozymic variation. , 1993, Genetics.
[19] B. Roitberg,et al. Insect Chemical Ecology: An Evolutionary Approach , 1992 .
[20] M. Rausher. THE MEASUREMENT OF SELECTION ON QUANTITATIVE TRAITS: BIASES DUE TO ENVIRONMENTAL COVARIANCES BETWEEN TRAITS AND FITNESS , 1992, Evolution; international journal of organic evolution.
[21] B. Weir,et al. Plant Population Genetics, Breeding, and Genetic Resources , 1989 .
[22] G. Barry,et al. The herbicide glyphosate. , 1989, BioFactors.
[23] M. Clegg,et al. INFLUENCE OF FLOWER COLOR POLYMORPHISM ON GENETIC TRANSMISSION IN A NATURAL POPULATION OF THE COMMON MORNING GLORY, IPOMOEA PURPUREA , 1984, Evolution; international journal of organic evolution.
[24] R. Ennos. Quantitative studies of the mating system in two sympatric species of Ipomoea (Convolvulaceae) , 1981, Genetica.
[25] N. Amrhein,et al. The Site of the Inhibition of the Shikimate Pathway by Glyphosate: I. INHIBITION BY GLYPHOSATE OF PHENYLPROPANOID SYNTHESIS IN BUCKWHEAT (FAGOPYRUM ESCULENTUM MOENCH) . , 1980, Plant physiology.
[26] N. Amrhein,et al. The Site of the Inhibition of the Shikimate Pathway by Glyphosate: II. INTERFERENCE OF GLYPHOSATE WITH CHORISMATE FORMATION IN VIVO AND IN VITRO. , 1980, Plant physiology.
[27] N. Amrhein,et al. The herbicide glyphosate is a potent inhibitor of 5-enolpyruvyl-shikimic acid-3-phosphate synthase. , 1980, Biochemical and biophysical research communications.
[28] R. Guries. A test of the mentor pollen technique in the genus Ipomoea , 1978, Euphytica.
[29] J. Endler. Geographic variation, speciation, and clines. , 1977, Monographs in population biology.
[30] G. E. Hutchinson,et al. Homage to Santa Rosalia or Why Are There So Many Kinds of Animals? , 1959, The American Naturalist.
[31] P. Moran. Notes on continuous stochastic phenomena. , 1950, Biometrika.
[32] S. Wright,et al. Isolation by Distance. , 1943, Genetics.
[33] John E. Franz,et al. Glyphosate: A Unique Global Herbicide , 1997 .
[34] S. Warwick. Herbicide Resistance in Weedy Plants: Physiology and Population Biology , 1991 .
[35] B. Weir,et al. Allozyme diversity in plant species. , 1990 .
[36] C. D. Elmore. Weed survey: southern states: grass crops subsection , 1988 .