Abstract
Many plants display limited seed dispersal, thereby creating an opportunity for sibling competition, i.e. fitness-determined interactions between related individuals. Here I investigated the consequences of intra-specific competition, by varying density and genetic composition of neighbors, on the performance of seedlings derived by selfing or outcrossing of the partially self-fertilizing plant Plantago coronopus (L.). Seedlings from eight plants, randomly selected from an area of about 50 m2 in a natural population, were used in (i) a density series with either one, four or eight siblings of each cross type per pot and (ii) a replacement series with eight plants per pot where selfed and outcrossed siblings were grown intermixed in varying frequencies. Density had a pronounced effect on plant performance. But, except for singly grown individuals, no differences were detected between selfed and outcrossed progenies in vegetative and reproductive biomass. When grown intermixed, selfed offspring were always inferior to their outcrossed relatives. The magnitude of reduction in performance was dependent on the number of outcrossed relatives a selfed seedling had to compete with, giving rise to a frequency-dependent fitness advantage to outcrossed seedlings. The major result of this study is (i) that the relative fitness of inbred progeny is strongly affected by the type of competitors (inbred or outbred) and (ii) that inbreeding depression varies according to the density and frequency of outbred plants and could be considered as a density- and frequency-dependent phenomenon. It is argued that sibling competition, due to the small genetic neighborhood of P. coronopus, might be an important selective force in natural populations of this species.
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References
Antonovics, J. (1968) Evolution in closely adjacent plant populations. V. Evolution of self-fertility. Heredity 23, 219–238.
Antonovics, J. and Levin, D.A. (1980) The ecological and genetic consequences of density dependent regulation in plants. Ann. Rev. Ecol. Sys. 11, 411–452.
Argyres, A.Z. and Schmitt, J. (1992) Neighbour relatedness and competitive performance in Impatiens capensis (Balsaminaceae): a test of the resource partitioning hypothesis. Am. J. Bot. 79, 181–185.
Baker, R.J. (1987) GLIM 3.77 Reference Manual. Numerical Algorithms Group, Oxford.
Barrett, S.C.H. and Eckert, C.G. (1990) Variation and evolution of mating systems in plants. In S. Kawano (ed.) Biological Approaches and Evolutionary Trends in Plants. Academic Press, London, pp. 229–254.
Begon, M. (1984) Density and individual fitness: asymmetric competition. In B. Shorrocks (ed.) Evolutionary Ecology. Blackwell, Oxford, pp. 175–194.
Begon, M., Harper, J.L. and Townsend, C.R. (1986) Ecology: Individuals, Populations and Communities. Blackwell, Oxford.
Begon, M. and Mortimer, A.M. (1981) Population Ecology: A Unified Study of Animals and Plants. Blackwell, Oxford.
Byers, D.L. and Waller, D.M. (1999) Do plant populations purge their genetic load? Effects of population size and mating history on inbreeding depression. Ann. Rev. Ecol. Sys. 30, 479–513.
Cheplick, G.P. (1992) Sibling competition in plants. J. Ecol. 80, 567–575.
Cheplick, G.P. (1993a) Sibling competition is a consequence of restricted dispersal in an annual cleistogamous grass. Ecology 74, 2161–2164.
Cheplick, G.P. (1993b) Reproductive systems and sibling competition in plants. Plant. Spec. Biol. 8, 131–139.
Cheptou, P.O., Lepart, J. and Escarre, J. (2001) Inbreeding depression under intraspecific competition in a highly outcrossing population of Crepis sancta (Asteracea): evidence for frequencydependent variation. Am. J. Bot. 88, 1424–1429.
Crawford, T. (1984a) The estimation of neighborhood parameters for plant populations. Heredity 52, 273–283.
Crawford, T. (1984b) What is a population? In B. Shorrocks (ed.) Evolutionary Ecology. Blackwell, Oxford, pp. 135–173.
De Wit, C.T. (1960) On competition. Verslagen Landbouwkundig Onderzoek no. 66.8, Wageningen.
Eckert, C.G. and Barrett, S.C.H. (1994) Inbreeding depression in partially self-fertilizing Decodon verticillatus: population-genetic and experimental analysis. Evolution 48, 952–964.
Ellstrand, N.C. and Antonovics, J. (1985) Experimental studies of the evolutionary significance of sexual reproduction. II. Test of the density-dependent selection hypothesis. Evolution 39, 657–666.
Geber, M.A. (1989) Interplay of morphology and development on size inequality: a Polygonum greenhouse study. Ecol. Monogr. 59, 267–288.
Giles, B.E., Lundqvist, E. and Goudet, J. (1998) Restricted geneflow and subpopulation differentiation in Silene dioica. Heredity 80, 715–723.
Grace, J.B. and Tilman, D. eds. (1990) Perspectives on Plant Competition. Academic Press, New York.
Hamilton, W.D. (1964) The genetical evolution of social behaviour. J. Theor. Biol. 7, 1–16.
Heywood, J.S. (1986) The effect of plant size variation on genetic drift in populations of annuals. Am. Nat. 127, 851–861.
Heywood, J.S. (1991) Spatial analysis of genetic variation in plant populations. Ann. Rev. Ecol. Sys. 22, 335–355.
Holsinger, K.E. (1988) Inbreeding depression doesn't matter: the genetic basis of mating system evolution. Evolution 42, 1235–1244.
Holsinger, K.E. (1991) Inbreeding depression and the evolution of plant mating systems. Trends. Ecol. Evol. 6, 307–308.
Houle, D. (1992) Comparing evolvability and variability of quantitative traits. Genetics 130, 195–204.
Husband, B. and Schemske, D.W. (1996) Evolution of magnitude and timing of inbreeding depression in plants. Evolution 50, 54–70.
Hutchings, M. and Waite, S. (1985) Cohort behaviour and environmental determination of life histories within a natural population of Plantago coronopus. In J. Haeck and J.W. Woldendorp (eds.) Structure and Functioning of Plant Populations 2. North Holland Publishing Company, Amsterdam, pp 171–184.
Keddy, P.A. (1989) Competition. Chapman and Hall, New York.
Kelley, S.E. (1989) Experimental studies of the evolutionary signi.cance of sexual reproduction. VI. A greenhouse test of the sib-competition hypotheses. Evolution 43, 1066–1074.
Kelly, J.K. (1994) The effect of scale dependent processes on kin selection: mating and density regulation. Theor. Pop. Biol. 46, 32–57.
Kelly, J.K. (1996) Kin selection in the annual plant Impatiens capensis. Am. Nat. 147, 899–918.
Koelewijn, H.P. (1998) Effects of different levels of inbreeding on progeny fitness in Plantago coronopus. Evolution 52, 692–702.
Koelewijn, H.P., Koski, V. and Savolainen, O. (1999) Magnitude and timing of inbreeding depression in Scots pine (Pinus sylvestris L.). Evolution 53, 758–768.
Koelewijn, H.P. and Van Damme, J.M.M. (1995) The genetics of male sterility in Plantago coronopus. I. Cytoplasmic variation. Genetics 139, 1749–1758.
Lande, R. and Schemske, D.W. (1985) The evolution of self-fertilisation and inbreeding depression in plants. I. Genetic models. Evolution 39, 24–40.
Lawrence, M.J. (1984) The genetical analysis of ecological traits. In B. Shorrocks (ed.) Evolutionary Ecology. Blackwell, Oxford, pp. 27–63.
Levin, D.A. (1988) Local differentiation and the breeding structure of plant populations. In L.D. Gottlieb and S.K. Jain (eds.) Plant Evolutionary Biology. Chapman and Hall, New York, pp. 305–329.
Linhart, Y.B. and Grant, M.C. (1996) Evolutionary significance of local genetic differentiation in plants. Ann. Rev. Ecol. Sys. 27, 237–277.
Lloyd, D.G. (1980) Demographic factors and mating patterns in angiosperms. In O.T. Solbrig (ed.) Demography and Evolution in Plant Populations. Blackwell, Oxford, pp 67–88.
Loveless, M.D. and Hamrick, J.L. (1984) Ecological determinants of genetic structure in plant populations. Ann. Rev. Ecol. Sys. 15, 65–95.
Lovett Doust, J. and Lovett Doust, L. eds. (1988) Plant Reproductive Ecology. Oxford University Press, New York.
Maynard-Smith, J.M. (1978) The Evolution of Sex. Cambridge University Press, Cambridge.
McCall, C.C., Mitchell-Olds, T. and Waller, D.M. (1989) Fitness consequences of outcrossing in Impatiens capensis: tests of the frequency-dependent and sib-competiton models. Evolution 43, 1075–1084.
Mead, R., Curnow, R.N. and Hasted, A.M. (1993) Statistical Methods in Agriculture and Experimental Biology. Chapman and Hall, London.
Miller, T.E. and Schemske, D.W. (1990) An experimental study of competitive performance in Brassica rapa (Cruciferae). Am. J. Bot. 77, 993–998.
Neter, J., Kutner, M.H., Nachtshein, C.J. and Wasserman, W. (1996) Applied Linear Statistical Models. Irwin, Chicago.
Peck, J.R. (1996) Limited dispersal, deleterious mutations and the evolution of sex. Genetics 142, 1053–1060.
Ronsheim, M.L. (1996) Evidence against a frequency-dependent advantage for sexual reproduction in Allium vineale. Am. Nat. 147, 718–734.
SAS Institute (1987) SAS Users Guide Statistics. SAS Institute, Cary, NC.
Schemske, D.W. and Lande, R. (1985) The evolution of self-fertilization and inbreeding depression in plants II. Empirical observations. Evolution 39, 41–50.
Schmitt, J. and Ehrhardt, D.W. (1990) Enhancement of inbreeding depression by dominance and suppression in Impatiens capensis. Evolution 44, 269–278.
Shaw, D.V., Kahler, A.L. and Allard, R.W. (1981) A multilocus estimator of mating system parameters in plant populations. Proc. Natl. Acad. Sci. USA 78, 1298–1302.
Shaw, R.G. (1986) Response to density in a wild population of the perennial herb Salvia lyrata: variation among families. Evolution 40, 492–505.
Silvertown, J.W. and Lovett-Doust, J. (1994) Introduction to Plant Population Ecology. Longman, New York.
Siegel, S. (1956) Nonparametric Statistics for the Behavioral Sciences. McGraw-Hill, New York.
Snow, A.A., Spira, T.P., Simpson, R. and Klips, R.A. (1996) The ecology of geitonogamous pollination. In D.G. Lloyd and S.C.H. Barrett (eds.) Floral Biology. Chapman and Hall, New York, pp. 191–216.
Thomas, S.C. and Bazzaz, F.A. (1993) The genetic component in plant size hierarchies: norms of reaction to density in a Polygonum species. Ecol. Monogr. 63, 231–249.
Tonsor, S.J., Kalisz, S., Fisher, J. and Holtsford, T.P. (1993) A life-history based study of population genetic structure: seed bank to adults in Plantago lanceolata. Evolution 47, 833–843.
Underwood, A.J. (1996) Experiments in Ecology. Cambridge University Press, Cambridge.
Uyenoyama, M.L., Holsinger, K. and Waller, D.M. (1993) Ecological and genetic factors directing the evolution of self-fertilization. Oxford Surv. Evol. Biol. 9, 327–381.
Van Damme, J.M.M. (1986) Gynodioecy in Plantago lanceolata. V. Frequencies and spatial distribution of nuclear and cytoplasmic genes. Heredity 56, 355–364.
Van Dijk, H. (1987) A method for the estimation of gene flow parameters from a population structure caused by restricted gene flow and genetic drift. Theor. Appl. Genet. 73, 724–736.
Van Dijk, H., Wolfe, K. and De Vries, A. (1988) Genetic variability in Plantago species in relation to their ecology. 3. Genetic structure of populations of P. major, P. lanceolata and P. coronopus. Theor. Appl. Genet. 75, 518–528.
Wall, R. and Begon, M. (1985) Competition and fitness. Oikos 44, 356–360.
Waller, D.M. (1984) Genetic consequences of outcrossing in the cleistogamous annual Impatiens capensis. II Outcrossing rates and genotypic correlations. Evolution 43, 860–869
Waller, D.M. (1993) The statics and dynamics of mating system evolution. In N.W. Thornhill (ed.) The Natural History of Inbreeding and Outbreeding: Theoretical and Empirical Perspectives. University of Chicago Press, Chicago, pp. 97–117.
Weiner, J. (1985) Size hierarchies in experimental populations of annual plants. Ecology 66, 743–752.
Weiner, J. (1990) Asymmetric competition in plant populations. Trends Ecol. Evol. 5, 360–364.
Williams, G.C. (1975) Sex and Evolution. Princeton Univ. Press, New York.
Wilson, J.B. and Levin, D.A. (1986) Some genetic consequences of skewed fecundity distributions in plants. Theor. Appl. Genet. 73, 113–121.
Wolfe, L.M. (1993) Inbreeding depression in Hydrophyllum appendiculatum: role of maternal effects, crowding and parental mating history. Evolution 47, 374–386.
Wolfe, K. (1991) Genetic analysis of morphological variability in three Plantago species with different mating systems. Theor. Appl. Genet. 81, 111–119.
Wolfe, K., Friso, B. and Van Damme, J.M.M. (1988) Outcrossing rates and male sterility in natural populations of Plantago coronopus. Theor. Appl. Genet. 76, 190–196.
Wright, S. (1946) Isolation by distance under diverse systems of mating. Genetics 28, 114–138.
Young, J.W.P. (1981) Sib competition can favor sex in two ways. J. Theor. Biol. 88, 755–756.
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Koelewijn, H.P. Sibling competition, size variation and frequency-dependent outcrossing advantage in Plantago coronopus . Evolutionary Ecology 18, 51–74 (2004). https://doi.org/10.1023/B:EVEC.0000017695.64459.e3
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DOI: https://doi.org/10.1023/B:EVEC.0000017695.64459.e3