Competitive equivalence maintains persistent inter-clonal boundaries. Ferrell, D. L. Oecologia, 142(2):184–190, January, 2005.
doi  abstract   bibtex   
Clear boundaries often separate adjacent conspecific competitors. These boundaries may reflect bordering animal territories or regions of inter-organism contact in mobile and non-mobile organisms, respectively. Sessile, clonal organisms often form persistent inter-clonal boundaries despite great variation in competitive ability among genotypes within a population. I show that neighboring clones in the sea anemone Anthopleura elegantissima and three species of the marine hydrold genus Hydractinia are more evenly matched in terms of competitive ability than expected by chance. Hypotheses of genetic relatedness or similar environmental regime shared by neighboring clones are inconsistent with the observed similarities between adjacent competitors in one or both taxa. Instead, inter-clonal borders evidently persist as standoffs between evenly matched competitors. Large differences in competitive ability between bordering clones were rarely observed., suggesting that dominant clones quickly displace or eliminate others in competitive mismatches. This ecological parallel between taxa (i.e., competitive equivalence) exists despite several fundamental differences (e.g., geographical distribution, habitat, body size, longevity), suggesting that competitive equivalence may be a widespread determinant of boundary persistence between adjacent competitors.
@article{ferrell_competitive_2005,
	title = {Competitive equivalence maintains persistent inter-clonal boundaries},
	volume = {142},
	shorttitle = {Competitive equivalence maintains persistent inter-clonal boundaries},
	doi = {10.1007/s00442-004-1728-7},
	abstract = {Clear boundaries often separate adjacent conspecific competitors. These boundaries may reflect bordering animal territories or regions of inter-organism contact in mobile and non-mobile organisms, respectively. Sessile, clonal organisms often form persistent inter-clonal boundaries despite great variation in competitive ability among genotypes within a population. I show that neighboring clones in the sea anemone Anthopleura elegantissima and three species of the marine hydrold genus Hydractinia are more evenly matched in terms of competitive ability than expected by chance. Hypotheses of genetic relatedness or similar environmental regime shared by neighboring clones are inconsistent with the observed similarities between adjacent competitors in one or both taxa. Instead, inter-clonal borders evidently persist as standoffs between evenly matched competitors. Large differences in competitive ability between bordering clones were rarely observed., suggesting that dominant clones quickly displace or eliminate others in competitive mismatches. This ecological parallel between taxa (i.e., competitive equivalence) exists despite several fundamental differences (e.g., geographical distribution, habitat, body size, longevity), suggesting that competitive equivalence may be a widespread determinant of boundary persistence between adjacent competitors.},
	number = {2},
	journal = {Oecologia},
	author = {Ferrell, D. L.},
	month = jan,
	year = {2005},
	keywords = {Anthopleura elegantissima, Hydractinia},
	pages = {184--190},
}
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