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References

  • Aldenius J, Carlsson B, Karlsson PS. 1983. Effects of insect trapping on growth and nutrient content of Pinguicula vulgaris L. in relation to the nutrient content of the substrate. New Phytologist 93: 5359.
  • Bonnet M, Coumans M, Hofinger M, Raumat JL, Gaspar Th. 1984. High-performance gas chromatography of 1,4-naphthoquinones from Droseraceae. Chromatographia 18: 621622.
  • Brewer JS. 1998. Effects of competition and litter on a carnivorous plant, Drosera capillaris (Droseraceae). American Journal of Botany 85: 15921596.
  • Bryant JP, Chapin FS, IIIKlein DR. 1983. Carbon/nutrient balance of boreal plants in relation to vertebrate history. Oikos 40: 357368.
  • Crowder AA, Pearson MC, Grubb PJ, Langlois PH. 1990. Biological flora of the British Isles. Journal of Ecology 78: 233267.
  • Darwin C. 1875. Insectivorous plants. London, UK: Murray.
  • Ellison AM, Gotelli NJ. 2001. Evolutionary ecology of carnivorous plants. Trends in Ecology and Evolution 16: 623629.
  • Ellison AM, Gotelli NJ. 2002. Nitrogen availability alters the expression of carnivory in the northern pitcher plant, Sarracenia purpurea. Proceedings of the National Academy of Sciences, USA 99: 44094412.
  • Harbone JB, Baxter H. 1993. Phytochemical dictionary. London, UK: Taylor & Francis Ltd.
  • Juniper BE, Robins RJ, Joel DM. 1989. The carnivorous plants. London, UK: Academic Press.
  • Kämäräinen T, Uusitalo J, Jalonen J, Laine K, Hohtola A. 2003. Regional and habitat differences in 7-methyljuglone content of Finnish Drosera rotundifolia. Phytochemistry 63: 309314.
  • Karlsson PS, Nordell KO, Carlsson BÅ, Svensson BM. 1991. The effect of soil nutrient status on prey utilization in four carnivorous plants. Oecologia 86: 17.
  • Karlsson PS, Svensson BM, Carlsson BÅ. 1996. The significance of carnivory for three Pinguicula species in a subarctic environment. Ecological Bulletin 45: 115120.
  • Knight SE. 1992. Costs of carnivory in the common bladderwort, Utricularia macrorhiza. Oecologia 89: 348355.
  • Koricheva J, Larsson S, Haukioja E, Keinänen M. 1998. Regulation of woody plant secondary metabolism by resource availability: hypothesis testing by means of meta-analyses. Oikos 83: 212226.
  • Krafft CC, Handel SN. 1991. The role of carnivory in the growth and reproduction of Drosera filiformis and D. rotundifolia. Bulletin of Torrey Botanical Club 118: 1219.
  • Mendez M, Karlsson PS. 1999. Costs and benefits of carnivory in plants: insights from the photosynthetic performance of four carnivorous plants in a subarctic environment. Oikos 86: 105112.
  • Millett J, Jones RI, Waldron S. 2003. The contribution of insect prey to the total nitrogen content of sundews (Drosera spp.) determined in situ by stable isotope analysis. New Phytologist 158: 527534.
  • Rischer H, Hamm A, Bringmann G. 2002. Nepenthes insignis uses a C2-portion of the carbon skeleton of l-alanine acquired via its carnivorous organs, to build up the allelochemical plumbagin. Phytochemistry 59: 603609.
  • Rost K, Schauer R. 1977. Physical and chemical properties of the mucin secreted by Drosera capensis. Phytochemistry 16: 13651368.
  • Slack A. 1979. Carnivorous plants. London, UK: Ebury Press.
  • Sokal RR, Rohlf FJ. 1995. Biometry, 3rd edn. New York, NY, USA: WH Freeman.
  • Svensson BM. 1995. Competition between Sphagnum fuscum and Drosera rotundifolia: a case of ecosystem engineering. Oikos 74: 205212.
  • Thorén LM, Karlsson PS. 1998. Effects of supplementary feeding on growth and reproduction of three carnivorous plant species in a subarctic environment. Journal of Ecology 86: 501510.
  • Zamora R, Gómez JM, Hódar JA. 1997. Responses of a carnivorous plant to prey and inorganic nutrients in a Mediterranean environment. Oecologia 111: 443451.
  • Zamora R, Gómez JM, Hódar JA. 1998. Fitness responses of a carnivorous plant in contrasting ecological scenarios. Ecology 79: 16301644.