Enzyme electrophoresis was employed to assess genetic diversity within and divergence among four species of Robinsonia (R. evenia, R. gayana, R. gracilis, R. thurifera), a genus endemic to the Juan Fernandez Islands, Chile. The genus consists of treelike perennial plants, and all species are dioecious. Morphological diversity within the genus is reflected by recognition of two subgenera, with three sections in one subgenus. Total gene diversity is highest in the two species (R. gayana and R. gracilis) that are most common and have the largest population sizes. Robinsonia evenia has only half and the rare R. thurifera only 20% of the diversity detected in the other two species. The diversity measured in R. gayana and R. gracilis is comparable to the values typical of continental species of flowering plants with similar life history attributes. The genetic identities between species range from 0.560 to 0.706, which is similar to or below many values for congeneric species, but much lower than most reports for congeners on oceanic islands. The higher diversity within and divergence among species of Robinsonia compared to many insular endemics may result from several factors. The genus probably arose from selfincompatible plants of the genus Senecio, which means that several to perhaps many colonizers carried considerable allozymic variation to the Islands. Large population sizes and obligate outcrossing are additional factors that would account for higher diversity. Sorting of alleles during radiation and the process of mutation probably combined to produce divergence among the species. Estimated divergence times calculated for the species from allozyme data range from 1.7 to 5.5 million years depending on the assumptions made in the calculations; the age of the island (Masatierra) on which these four species are confined is approximately 4.0 million years. The electrophoretic data suggest that Robinsonia arrived early in the archipelago, and radiated and speciated rapidly after colonization.
Enzyme electrophoresis was employed to assess genetic diversity within and divergence among four species of Robinsonia (R. evenia, R. gayana, R. gracilis, R. thurifera), a genus endemic to the Juan Fernandez Islands, Chile. The genus consists of treelike perennial plants, and all species are dioecious. Morphological diversity within the genus is reflected by recognition of two subgenera, with three sections in one subgenus. Total gene diversity is highest in the two species (R. gayana and R. gracilis) that are most common and have the largest population sizes. Robinsonia evenia has only half and the rare R. thurifera only 20% of the diversity detected in the other two species. The diversity measured in R. gayana and R. gracilis is comparable to the values typical of continental species of flowering plants with similar life history attributes. The genetic identities between species range from 0.560 to 0.706, which is similar to or below many values for congeneric species, but much lower than most reports for congeners on oceanic islands. The higher diversity within and divergence among species of Robinsonia compared to many insular endemics may result from several factors. The genus probably arose from selfincompatible plants of the genus Senecio, which means that several to perhaps many colonizers carried considerable allozymic variation to the Islands. Large population sizes and obligate outcrossing are additional factors that would account for higher diversity. Sorting of alleles during radiation and the process of mutation probably combined to produce divergence among the species. Estimated divergence times calculated for the species from allozyme data range from 1.7 to 5.5 million years depending on the assumptions made in the calculations; the age of the island (Masatierra) on which these four species are confined is approximately 4.0 million years. The electrophoretic data suggest that Robinsonia arrived early in the archipelago, and radiated and speciated rapidly after colonization.
Bands of random amplified polymorphic DNA (RAPDs) were used as markers to test the hypothesis that the species Margyracaena skottsbergii, which is endemic to the island of Masatierra in the Juan Fernandez archipelago, represents an intergeneric hybrid between Acaena argentea and Margyricarpus digynus. Thirteen 10‐mer primers produced 18 consistent species‐specific bands for A. argentea and 27 for M. digynus, with all 45 bands present in the presumed hybrid Margyracaena. A second species of Acaena on Masatierra, A. ovalifolia, has 23 unique amplified bands in all plants examined, and it shares none of these bands with Margyracaena. The data from RAPDs are concordant with morphology in implicating Acaena argentea rather than A. ovalifolia as one parent of Margyracaena. RAPDs can provide numerous genetic markers while requiring minimal quantities of DNA, thereby making them attractive for the study of hybridization, particularly in rare plants where DNA amounts may be limiting.
Bands of random amplified polymorphic DNA (RAPDs) were used as markers to test the hypothesis that the species x Margyracaena skottsbergii, which is endemic to the island of Masatierra in the Juan Fernandez archipelago, represents an intergeneric hybrid between Acaena argentea and Margyricarpus digynus. Thirteen IO-mer primers produced 18 consistent species-specific bands for A. argentea and 27 for M. digynus. with all 45 bands present in the presumed hybrid x Margyracaena.A second species of Acaena on Masatierra, A. ovalifolia, has 23 unique amplified bands in all plants examined, and it shares none of these bands with x Margyracaena. The data from RAPDs are concordant with morphology in implicating Acaena argentea rather than A. ovalifolia as one parent of
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.