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References

  • Al-Hiyaly SA, McNeilly T, Bradshaw AD. 1988. The effect of zinc contamination from electricity pylons – evolution in a replicated situation. New Phytologist 110: 571580.
  • Antonovics J, Bradshaw AD, Turner RG. 1971. Heavy metal tolerance in plants. Advances in Ecological Research 7: 185.
  • Assunção AGL, Ten Bookum WM, Nelissen HJM, Vooijs R, Schat H, Ernst WHO. 2003. Differential metal-specific tolerance and accumulation patterns among Thlaspi caerulescens populations originating from different soil types. New Phytologist 159: 411419.
  • Baker AJM, Walker PL. 1990. Ecophysiology of metal uptake by tolerant plants. In: ShawAJ, ed. Heavy metal tolerance in plants. Evolutionary aspects. Boca Raton, FL, USA: CRC Press, 155177.
  • Cook SCA, Lefèbvre C, McNeilly T. 1972. Competition between metal tolerant and normal plant populations on normal soils. Evolution 22: 366372.
  • Cottenie A, Verloo M, Kiekens L, Velghe G, Gamerlynck R. 1982. Chemical analysis of plants and soils. Brussels, Belgium: Instituut tot Aanmoediging van het Wetenschappelijk Onderzoek in Nijverheid en Landbouw (IWONL).
  • Dechamps C, Lefèbvre C, Noret N, Meerts P. 2007. Reaction norms of life history traits in response to zinc in Thlaspi caerulescens from metalliferous and nonmetalliferous sites. New Phytologist 173: 191198.
  • Dubois S. 2005. Etude d’un réseau de populations métallicoles et non-métallicoles de Thlaspi caerulescens (Brassicaceae). PhD thesis, Université Montpellier II – Sciences et Techniques du Languedoc, Montpellier, France.
  • Dubois S, Cheptou P-O, Petit C, Meerts P, Poncelet M, Vekemans X, Lefèbvre C, Escarré J. 2003. Genetic structure and mating system of metallicolous and nonmetallicolous populations of Thlaspi caerulescens. New Phytologist 157: 633641.
  • Egli P, Schmid B. 2001. The analysis of complex leaf survival data. Basic and Applied Ecology 2: 223231.
  • Escarré J, Lefèbvre C, Gruber W, Leblanc M, Lepart J, Rivière Y, Delay B. 2000. Zinc and cadmium hyperaccumulation by Thlaspi caerulescens from metalliferous and nonmetalliferous sites in the Mediterranean area: implications for phytoremediation. New Phytologist 145: 429437.
  • Galloway LF, Fenster CB. 2000. Population differentiation in an annual legume: local adaptation. Evolution 54: 11731181.
  • Gauthier P, Lumaret R, Bédécarrats A. 1998. Ecotype differentiation and coexistence of two parapatric tetraploid subspecies of cockfoot (Dactylis glomerata) in the Alps. New Phytologist 139: 741750.
  • Harper FA, Smith SE, Macnair MR. 1997a. Where is the cost in copper tolerance in Mimulus guttatus? Testing the trade-off hypothesis. Functional Ecology 11: 764774.
  • Harper FA, Smith SE, Macnair MR. 1997b. Can an increased copper requirement in copper-tolerant Mimulus guttatus explain the cost of tolerance? I. Vegetative growth. New Phytologist 136: 455467.
  • Harper FA, Smith SE, Macnair MR. 1998. Can an increased copper requirement in copper-tolerant Mimulus guttatus explain the cost of tolerance? II. Reproductive phase. New Phytologist 140: 637654.
  • Hickey DA, McNeilly T. 1975. Competition between metal tolerant and normal plant populations: a field experiment. Evolution 29: 458464.
  • Jakobsson A, Dinnetz P. 2005. Local adaptation and the effects of isolation and population size – the semelparous perennial Carlina vulgaris as a study case. Evolutionary Ecology 19: 449466.
  • Jiménez-Ambriz G, Petit C, Bourrié I, Dubois S, Olivieri I, Ronce O. 2007. Life history variation in the heavy metal tolerant plant Thlaspi caerulescens growing in a network of contaminated and noncontaminated sites in southern France: role of gene flow, selection and phenotypic plasticity. New Phytologist 173: 199215.
  • Jurjavcic NL, Harrison S, Wolf AT. 2002. Abiotic stress, competition, and the distribution of the native annual grass Vulpia microstachys in a mosaic environment. Oecologia 130: 555562.
  • Kawecki TJ, Ebert D. 2004. Conceptual issues in local adaptation. Ecology Letters 7: 12251241.
  • Van Kleunen M. 2007. Adaptative genetic differentiation in life-history traits between populations of Mimulus guttatus with annual and perennial life cycles. Evolutionary Ecology 21: 185199.
  • Lefèbvre C, Vernet P. 1990. Microevolution processes on contaminated deposits. In: ShawAJ, ed. Heavy metal tolerance in plants. Evolutionary Aspects. Boca Raton, FL, USA: CRC Press, 285300.
  • Linhart YB, Grant MC. 1996. Evolutionary significance of local genetic differentiation in plants. Annual Review of Ecology and Systematics 27: 237277.
  • Macnair MR. 1987. Heavy metal tolerance in plants: a model evolutionary system. Trends in Ecology and Evolution 2: 354359.
  • Macnair MR, Watkins AD. 1983. The fitness of the copper tolerance gene of Mimulus guttatus in uncontaminated soil. New Phytologist 95: 133137.
  • Marquis RJ. 1992. Selective impact of herbivores. In: FritzRS, SimmsEL, eds. Plant resistance to herbivores and pathogens. Ecology, evolution and genetics. Chicago, IL, USA: The University of Chicago Press, 301325.
  • McNeilly T. 1968. Evolution in closely adjacent populations. III. Agrostis tenuis on a small copper mine. Heredity 23: 99108.
  • Meerts P, Van Isacker N. 1997. Heavy metal tolerance and accumulation in metallicolous and non-metallicolous populations of Thlaspi caerulescens from continental Europe. Plant Ecology 133: 221231.
  • Molitor M, Dechamps C, Gruber W, Meerts P. 2005. Thlaspi caerulescens on non metalliferous soil in Luxembourg: ecological niche and genetic variation in mineral element composition. New Phytologist 165: 503512.
  • Nagy ES, Rice KJ. 1997. Local adaptation in two subspecies of an annual plant: implications for migration and gene flow. Evolution 51: 10791089.
  • Noret N, Meerts P, Vanhaelen M, Dos Santos A, Escarré J. 2007. Do metal-rich plants deter herbivores? A field test of the defence hypothesis. Oecologia 152: 92100.
  • Rossiter MC. 1996. Incidence and consequences of inherited environmental effects. Annual Review of Ecology and Systematics 27: 451476.
  • Sambatti JBM, Rice KJ. 2006. Local adaptation patterns of selection and gene flow in the Californian serpentine sunflower (Helianthus exilis). Evolution 60: 696710.
  • SAS. 1999. SAS/STAT user's guide, version 8.0. Cary, NC, USA: SAS Institute Inc.
  • Silvertown J, Charlesworth D. 2001. Introduction to plant population biology, 4th edn. Oxford, UK: Blackwell Science.
  • Simon E. 1978. Heavy metals in soils, vegetation development and heavy metal tolerance in plant populations from metalliferous areas. New Phytologist 81: 175188.
  • Statsoft Inc. 2005. Statistica (data analysis software), version 7.1. http://www.statsoft.com
  • Strauss SY. 1997. Floral characters link herbivores, pollinators, and plant fitness. Ecology 78: 16401645.
  • Wright JW, Stanton ML, Scherson R. 2006. Local adaptation to serpentine and non-serpentine soils in Collinsia sparsiflora. Evolutionary Ecology Research 8: 121.