2005
DOI: 10.1038/sj.hdy.6800655
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Spatial genetic structure of two sympatric neotropical palms with contrasting life histories

Abstract: The spatial genetic structure within sympatric populations of two neotropical dioecious palm species with contrasting life histories was characterized to evaluate the influence of life history traits on the extent of genetic isolation by distance. Chamaedorea tepejilote is a common wind-pollinated arboreal understory palm. Chamaedorea elatior is an uncommon climbing subcanopy palm with entomophilous pollination syndrome. A total of 59 allozyme alleles for C. tepejilote and 53 alleles for C. elatior was analyze… Show more

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Cited by 36 publications
(33 citation statements)
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“…In addition to the ecological and evolutionary processes affecting spatial distribution patterns, the fine-scale genetic structure within plant populations can be influenced by limited pollen dispersal, local genetic drift, inbreeding, and selection favoring the same or different genotypes (Heywood 1991;Epperson and AlvarezBuylla 1997). Studies of fine-scale genetic structure of nonwoody plants from tropical rainforests are still scarce, particularly for palms (Luna et al 2005;Sezen et al 2005), despite their substantial contribution to tropical rainforest diversity.…”
Section: Introductionmentioning
confidence: 99%
“…In addition to the ecological and evolutionary processes affecting spatial distribution patterns, the fine-scale genetic structure within plant populations can be influenced by limited pollen dispersal, local genetic drift, inbreeding, and selection favoring the same or different genotypes (Heywood 1991;Epperson and AlvarezBuylla 1997). Studies of fine-scale genetic structure of nonwoody plants from tropical rainforests are still scarce, particularly for palms (Luna et al 2005;Sezen et al 2005), despite their substantial contribution to tropical rainforest diversity.…”
Section: Introductionmentioning
confidence: 99%
“…For example, wind pollinated species of palms had lower population genetic structure, as measured with allozymes, than coexisting species with entomophilous pollination and lower seed dispersal abilities (Luna et al, 2005).…”
Section: Relationship Between Dispersal Ability and Gene Fl Ow/phylogmentioning
confidence: 99%
“…In the decade since a previous focal issue of Heredity on this topic (Lowe, 2005), research to examine the resilience of forest trees to the genetic impacts of fragmentation have included assessments of gene flow dynamics (for example, Bacles et al, 2006;Hardesty et al, 2006;Ottewell et al, 2009), spatial genetic structure and cohort formation in natural populations (for example, Cavers et al, 2005;Hardesty et al, 2005;Kremer et al, 2005;Luna et al, 2005), comparisons of genetic diversity in pre-disturbance adult populations versus post-disturbance seedling populations (Kettle et al, 2007), and analysis of the mating system and fitness consequences of low mate availability (for example, Breed et al, 2012a,b).…”
mentioning
confidence: 99%