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References

  • 1
    Alpert, P. & Mooney, H.A. 1986. Resource sharing among ramets in the clonal herb, Fragaria chiloensis. Oecologia 70: 227 233.
  • 2
    Alpert, P. & Stuefer, J.F. 1997. Division of labour in clonal plants. In: The Ecology and Evolution of Clonal Plants (H. de Kroon & J. van Groenendael, eds), pp. 137–154. Backhuys Publishers, Leiden.
  • 3
    Alpert, P. 1990. Water sharing among ramets in a desert population of Distichlis spicata (Poaceae). Am. J. Bot. 77: 1648 1651.
  • 4
    Alpert, P. 1995. Does clonal growth increase plant performance in natural communities? Abst. Bot. 19: 11 16.
  • 5
    Björkman, O. 1981. Responses to different quantum flux densities. In: Encyclopedia of Plant Physiology, New Series, Vol. 12A (O. L. Lange, P. S. Nobel, G. B. Osmond & H. Ziegler, eds), pp. 57–107. Springer-Verlag, New York.
  • 6
    Bormann, F.H. 1966. The structure, function and ecological significance of root grafts in Pinus strobus. Ecol. Monogr. 36: 1 26.
  • 7
    Candy, S.G. 1986. Fitting a parametric log-linear hazard function to grouped survival data. GLIM Newsletter 13: 28 31.
  • 8
    Caraco, T. & Kelly, C.K. 1991. On the adaptive value of physiological integration in clonal plants. Ecology 72: 81 93.
  • 9
    Cheplick, G.P. 1995. Genotypic variation and plasticity of clonal growth in relation to nutrient availability in Amphibromus scabrivalvis. J. Ecol. 83: 459 468.
  • 10
    Cook, R.E. 1978. Asexual reproduction: a further consideration. Am. Nat. 112: 769 772.
  • 11
    Davy, A.J. 1987. Measurement and prediction of flowering in clonal plants. In: Manipulation of Flowering (J. G. Atherton, ed.), pp. 51–65. Butterworths, London.
  • 12
    Evans, J.P. 1991. The effect of resource integration on fitness related traits in a clonal dune perennial, Hydrocotyle bonariensis. Oecologia 86: 268 276.
  • 13
    Fischer, M., Husi, R., Prati, D., Peintinger, M., Van Kleunen, M., Schmid, B. 2000. RAPD variation among and within small and large populations of the rare clonal plant Ranunculus reptans (Ranuncululaceae). Am. J. Bot. in press.
  • 14
    Fitter, A.H., Graves, J.D., Watkins, N.K., Robinson, D., Scrimgeour, C. 1998. Carbon transfer between plants and its control in networks of arbuscular mycorrhizas. Funct. Ecol. 12: 406 412.
  • 15
    Francis, R. & Read, D.J. 1984. Direct transfer of carbon between plants connected by vesicular-arbuscular mycorrhizal mycelium. Nature 307: 53 56.
  • 16
    Gardner, S.N. & Mangel, M. 1999. Plastic growth and reproduction by clonal plants in response to the environment. Ecology 80: 1202 1220.
  • 17
    Hartnett, D.C. & Bazzaz, F.A. 1983. Physiological integration among intraclonal ramets in Solidago canadensis. Ecology 64: 779 788.
  • 18
    Hess, H.E., Landolt, E., Hirzel. R. 1980. Flora der Schweiz, Vol. 2. Birkhäuser, Basel.
  • 19
    Hutchings, M.J. & Wijesinghe, D.K. 1997. Patchy habitats, division of labour and growth dividends in clonal plants. Trends Ecol. Evol. 12: 390 394.DOI: 10.1016/s0169-5347(97)87382-x
  • 20
    Kelly, C.K. 1995. Thoughts on clonal integration: facing the evolutionary context. Evol. Ecol. 9: 575 585.
  • 21
    Klimeš, L., Klimešová, J., Hendriks, R., Van Groenendael, J. 1997. Clonal plant architecture: a comparative analysis of form and function. In: The Ecology and Evolution of Clonal Plants (H. de Kroon & J. van Groenendael, eds), pp. 1–30. Backhuys Publishers, Leiden.
  • 22
    Lambers, H. & Poorter, H. 1992. Inherent variation in growth rate between higher plants: a search for physiological causes and ecological consequences. Adv. Ecol. Research 23: 187 261.
  • 23
    Leeflang, L., During, H.J., Werger, M.J.A. 1998. The role of petioles in light acquisition by Hydrocotyle vulgaris L. in a vertical light gradient. Oecologia 117: 235 238.DOI: 10.1007/s004420050653
  • 24
    Lötscher, M. & Hay, M.J.M. 1996 a. Distribution of mineral nutrients from nodal roots of Trifolium repens: Genotypic variation in intra-plant allocation of 32P and 45Ca . Physiol. Plant. 97: 269 276.
  • 25
    Lötscher, M. & Hay, M.J.M. 1996b. Distribution of phosphorus and calcium from nodal roots of Trifolium repens: the relative importance of transport via xylem or phloem . New Phytol. 133: 445 452.
  • 26
    Marshall, C. 1990. Source-sink relations of interconnected ramets. In: Clonal Growth in Plants: Regulation and Function (J. van Groenendael & H. de Kroon, eds), pp. 23–41. SPB Academic Publishing, The Hague.
  • 27
    Marshall, C. & Price, E.A.C. 1997. Sectoriality and its implications for physiological integration. In: The Ecology and Evolution of Clonal Plants (H. de Kroon & J. van Groenendael, eds), pp. 79–107. Backhuys Publishers, Leiden.
  • 28
    McCrea, K.D. & Abrahamson, W.G. 1985. Evolutionary impacts of the goldenrod ball gallmaker on Solidago altissima clones. Oecologia 68: 20 22.
  • 29
    McLellan, A.J., Prati, D., Kaltz, O., Schmid, B. 1997. Structure and analysis of phenotypic and genetic variation in clonal plants. In: The Ecology and Evolution of Clonal Plants (H. de Kroon & J. van Groenendael, eds), pp. 185–210. Backhuys Publishers, Leiden.
  • 30
    Mogie, M. & Hutchings, M.J. 1990. Phylogeny, ontogeny and clonal growth in vascular plants. In: Clonal Growth in Plants: Regulation and Function (J. M. van Groenendael & H. de Kroon, eds), pp. 3–22. SPB Academic Publishing, The Hague.
  • 31
    Mousseau, T.A. & Roff, D.A. 1987. Natural selection and the heritability of fitness components. Heredity 59: 181 197.
  • 32
    Payne, R.W., Lane, P.W., Digby, P.G.N., Harding, S.A., Leech, P.K., Morgan, G.W., Todd, A.D., Thompson, R., Tunicliffe Wilson, G., Welham, S.J., White, R.P. 1993. GENSTAT 5 Reference Manual. Clarendon Press, Oxford.
  • 33
    Pitelka, L.F. & Ashmun, J.W. 1985. Physiology and integration of ramets in clonal plants. In: Population Biology and Evolution of Clonal Organisms (J. B. C. Jackson, L. W. Buss & R. E. Cook, eds), pp. 399–435. Yale University Press, New Haven.
  • 34
    Prati, D. 1998. The genetics and life-history evolution of the clonal plant Ranunculus reptans. PhD-thesis, University of Zurich, Zurich.
  • 35
    Prati, D. & Peintinger, M. 2000. Biological flora of Central Europe: Ranunculus reptans L. Flora in press.
  • 36
    Prati, D., Matthies, D., Schmid, B. 1997. Reciprocal parasitization in Rhinathus serotinus: a model system of physiological integration in clonal plants . Oikos 78: 221 229.
  • 37
    Press, M.C. & Graves, J.D., eds. 1995. Parasitic Plants. Chapman & Hall, London.
  • 38
    Salzman, A.G. & Parker, M.A. 1985. Neighbours ameliorate local salinity stress for a rhizomatous plant in a heterogeneous environment. Oecologia 65: 273 277.
  • 39
    Schmid, B. 1990. Some ecological and evolutionary consequences of modular organization and clonal growth in plants. Evol. Trends Plants 4: 25 34.
  • 40
    Schmid, B. 1992. Phenotypic variation in plants. Evol. Trends Plants 6: 45 60.
  • 41
    Schmid, B. & Bazzaz, F.A. 1990. Plasticity in plant size and architecture in rhizome vs. seed-derived Solidago and Aster. Ecology 71: 523 535.
  • 42
    Schmid, B. & Bazzaz, F.A. 1991. Growth of transplanted and native shoots in perennials with contrasting genet architecture. Flora 185: 335 344.
  • 43
    Slade, A.J. & Hutchings, M.J. 1987a. An analysis of the costs and benefits of physiological integration between ramets in the clonal perennial herb Glechoma hederacea. Oecologia 73: 425 431.
  • 44
    Slade, A.J. & Hutchings, M.J. 1987b. Clonal integration and plasticity in foraging behaviour in Glechoma hederacea. J. Ecol. 75: 1023 1036.
  • 45
    Stearns. 1992. The Evolution of Life-Histories. Oxford University Press, Oxford.
  • 46
    Stuefer, J.F. 1997. Division of labour in clonal plants. PhD-thesis, Utrecht University, Utrecht.
  • 47
    Stuefer, J.F., De Kroon, H., During, H.J. 1996. Exploitation of environmental heterogeneity by spatial division of labour in a clonal plant. Funct. Ecol. 10: 328 334.
  • 48
    Stuefer, J.F., During, H.J., De Kroon, H. 1994. High benefits of clonal integration in two stoloniferous species, in response to heterogeneous light environments. J. Ecol. 82: 511 518.
  • 49
    Stuefer, J.F., During, H.J., Schieving, F. 1998. A model on optimal root-shoot allocation and water transport in clonal plants. Ecol. Modelling 111: 171 186.
  • 50
    Thomson, J.D., Herre, E.A., Hamrick, J.L., Stone, J.L. 1991. Genetic mosaics in strangler fig trees: implications for tropical conservation. Science 254: 1214 1216.
  • 51
    Van Groenendael, J., Klimeš, L., Klimešová, J., Hendriks, R.J.J. 1997. Comparative ecology of clonal plants. In: Plant Life Histories: Ecology, Phylogeny, and Evolution (J. Silvertown, M. Franco & J. L. Harper, eds), pp. 191–209. Cambridge University Press, Cambridge.
  • 52
    Van Kleunen, M. & Stuefer, J.F. 1999. Quantifying the effects of reciprocal assimilate and water translocation in a clonal plant by the use of steam-girdling. Oikos 85: 135 145.
  • 53
    Wijesinghe, D.K. & Handel, S.N. 1994. Advantages of clonal growth in heterogeneous habitats: an experiment with Potentilla simplex. J. Ecol. 82: 495 502.