[1] 刘登义.1997.病原菌与自然植物种群Ⅲ.病原菌与寄主植物的共进化及媒体传布的菌病的种群模型[J].生态学报,17(1):105~108. [2] 何晨阳,王金山.1994.植物--病原物互作中的基因类型和功能[J].生命科学,6(1):7~10. [3] 海蒂弗斯,威廉姆斯(朱有缸等译).1991.植物病理生理学[M].北京:农业出版社,705~718. [4] Alexander HM, Antonovics J. 1988. Disease spread and population dynamics of anther infection of Silene dioica caused by the fungus Ustilago violancea [J]. J. Ecol., 76: 91 ~ 104. [5] Antonovics J, Thrall PH. 1994. The cost of resistance and the maintenance of genetic polymorphism in host-pathogen systems[J]. P. Roy. Soc. Lon . Biol., 257:105~110. [6] Bergelson J. 1994. Failing to predict invasiveness in fecundity: a model study of transgenic plants [J]. Ecology, 75: 249~ 252. [7] Bergelson J. 1994. The effects of genotype and the environment on costs of resistance in lettuce [J]. Amer. Nat., 143: 349~359. [8] Brodny U, Wahl I, Rotem J. 1988. Factors conditioning dominance in Israel[J]. Phytopathology, 78:135~139. [9] Burdon JJ, Chilvers GA. 1982. Host density as a factor in plant disease ecology [J]. Ann. Rev. Phytopathol., 20:143~ 166. [10] Burdon JJ. 1987. Diseases and Plant Population Biology [M].Cambridge: Cambridge University Press. [11] Burdon J J, Marshall DR. 1981. Biological control and the reproductive mode of weeds [J].J. Ecol., 18:647~658. [12] Burdon JJ, Oates JD, Marshall DR. 1983. Interactions between Avena and Puccinia species. I. The wild hosts: Avena barbata Pott ex Link, A.fatua L. and A. ludovicinia Durieu [J].J.Appl. Ecol., 20: 571 ~ 584. [13] Burdon JJ, Shattock RC. 1980.Disease in plant communities [A].Appl. Biol., 5:145~219. [14] Chaplin JF. 1970. Associations among disease resistance characteristics and chemical constituents in flue-cured tobacco [J]. Agron .J. ,62:87~91. [15] Conard SG, Radosevich SR. 1979. Ecological fitness of Senecio vulgaris and Amaranthus retroflexus biotypes susceptible or resistant to atrazine [J]. J. Appl. Ecol., 16:171 ~ 177. [16] Damgaard C. 1999. Coevolution of a plant host-pathogen genefor-gene system in a metapopulation model without cost of resistance or cost of virulence [J]. J. Theor. Biol., 201:1 ~ 12. [17] Dinoor A, Eshed N. 1984. The role and importance of pathogens in natural plant communities [J]. Ann. Rev. Phytopathol., 22:443~ 446. [18] Dinoor A. 1970. Sources of oat crown rust resistance in hexaploid and tetraploid wild oats in Israel [J]. Can. J. Bot., 48:153 ~161. [19] Ewald PW. 1983. Host-parasite relations, vectors and the evolution of disease severity [J]. Ann. Rev. Ecol. Syst., 14:465~485. [20] Flor HH. 1971.Current status of the gene forgene concept [J].Ann. Rev. Phytopathol., 9: 275 ~ 296. [21] Flor HH. 1955. Host-parasite interaction in flax rust-its genetics and other implications [J]. Phytopathology, 45: 680 ~ 685. [22] Flor HH. 1956. The complementary genicsystems in llaxang flaxrust[J]. Adv. Genet. ,8:29~54. [23] Gandon S, Michalakis Y. 2000. Evolution of parasite virulence against qualitative or quantitative hostresistance[J]. Proc. Royal Soc. London B, 267: 985~ 990. [24] Hamilton WD. 1980. Sex versus non-sex versus parasite [J].Oikos, 35: 282 ~ 290. [25] Harlan JR. 1976. Diseases as a factor in plant evolution [J].Ann. Rev. Phytopathol., 14: 31 ~ 51. [26] Heitefuss R. 1967. The significance of changes in nucleic acid metabolism for the relation between host and obligate parasites[J]. Neth . J . Plant pathol . , Suppl., 1:9~ 18. [27] Jaenike J. 1978. An hypothesis to account for the maintenance of sex within populations [J]. Evol. Theor., 3:191 ~ 194. [28] Jarosz AM, Burdon JJ. 1991. Host-Pathogen interactions in natural populations of Linum marginale and Melampsora Lini. Ⅱ .Local and regional variation in patterns of resistance and racial structure[J]. Evolution, 45(7): 1618~ 1627. [29] Jayakar SD. 1970. A mathematical model for interaction of gene frequencies in a parasite and its host [J]. Theor. Popul. Biol.,1:140~ 164. [30] Lenski RE. 1998. Bacterial evolution and the cost of antibiotic resistance [J]. Internal Microbiol., 1: 265~ 270. [31] Lenski RE, May RM. 1994. The evolution of virulence in parasites and pathogens: reconciliation between two competing hypotheses [J]. J. Theor. Biol., 169:253~265. [32] Leonard KJ, Cxochor RJ. 1980. Theory of genetic interactions among populations of plants and their pathogens[J]. Ann. Rev.Phytopathol., 18:1237~ 1258. [33] Leonard KJ. 1977. Selection pressure and plant pathogens [J].Ann. N. Y. Acad. Sci., 287:207~222. [34] Levin DA. 1975. Pest pressure and recombination system in plants[J]. Amer. Nat., 109:437~ 451. [35] Luig NH, Waterson IA. 1970. The effect of complex genetic resistance in wheat on the variability of Puccinia graminis f. sp.Tritici [J]. P . Linnean Soc. New South Wales, 95:22~45. [36] Luig NH, Waterson IA. 1977. The role of barley, rye and gresses in the 1973~ 1974 wheat stem rust epiphytotic in southern and eastern Australia[J]. P. Linnean Soci . New South Wales, 101:65~76. [37] May RM, Anderson RM. 1983. Epidemiology and genetics in the coevoltion of parasites and hosts [J]. P. Roy. Soci. Lond. B.Biol., 219:281~ 313. [38] Moseman JG, Nevo E, Zohary D. 1983. Resistance of Hordeum spontaneum collected in Israel to infection with Erysiphe gramihis hordei [J]. Crop Sci., 23:1115 ~ 1119. [39] Parker MA. 1988. Disequilibrium between disease-resistance variants and allozyme in an annual legume [J]. Evolution, 42(2) :239~247. [40] Parker MA. 1985. Local population differentiation for compatibility in annual legume and its host-specific fungal pathogen [J].Evolution, 39(4) :713~723. [41] Parker MA. 1991. Nonadaptive evolution of disease resistance in an annual legume [J]. Evolution, 45(4): 1209~ 1217. [42] Person C. 1959 Gene-for-gene relationships in host-parasite systems [J]. Can .J. Bot. ,37:1101~1114. [43] Rausher MD. 2001. Co-evolution and plant resistance to natural enemies [J]. Nature, 411: 857~ 864. [44] Rehoud X, Boutraud IT. 1991. The cost of herbicide resistance measured by a competition experiment [J]. Theor. Appl.Genet., 82:690 ~ 696. [45] Rice WR. 1983. Parent-offspring pathogen transmission: a selective agent promoting sexual reproduction [J]. Amer. Nat., 121:437~451. [46] Rotem J, Cohen Y, Putter J. 1971. Relativity of limiting and optimum inoculum loads, wetting, durations, and temperatures for infection by [J]. Phytophthora Infestans Phytopathol., 61: 275 ~278. [47] Roy BA, Kirchner JW. 2000. Evolutionary dynamics of pathogen resistance and tolerance[J]. Evolution, 54(1): 51 ~ 63. [48] Sharma JK, Heather WA, Winer P. 1980. Effect of leaf maturity and shoot age of clones of Populus species on susceptibility to Melampsora larici-populina [J]. Phytopathology, 70:548 ~554. [49] Thompson JN, Nuismer SL, Gomulkiewicz R. 2002. Coevolution and Maladaptationl [J]. Integ. Comp. Biol., 42:381~ 387. [50] Thrall PH, Burdon JJ, Young A. 2001. Variation in resistance and virulence among demes of a single host-pathogen metapopulation [J].J. Ecol., 89:736~748. [51] Thrall PH, Jarosz AM. 1994. Host-pathogen dynamics in experimental populations of Siene alba and Ustilago violacea. I: Ecological and genetic determinations of disease spread [J]. J.Ecol., 82: 561~ 570. [52] Thrall PH, Jarosz AM. 1994. Host-pathogen dynamics in experimental populations of Siene alba and Ustilago violacea. Ⅱ. Experimental tests of theoretical models [J]. J. Ecol., 82:561 ~570. [53] Toft CA, Karter AJ.1990.Parasite-host coevolution [J]. TREE,5:326 ~ 329. [54] Wahl I. 1970. Prevalence and geographic distribution of resistance to crown rust in Avena sterilis. [J]. Phytopathology, 60:746~749. [55] Weaver SE, Warwick SI. 1982. Competitive relationships between atrazine resistant and susceptible populations of Amaranthus retroflexus and A.powellii from southern Ontario [J]. New Phytol..92:131 ~139. |