Iconic, threatened, but largely unknown: Biogeography of the Macaronesian dragon trees (Dracaena spp.) as inferred from plastid DNA markers
The genus Dracaena in Macaronesia comprises two threatened species of arborescent monocots that are often associated with one of the most intriguing biogeographic disjunctions: the Rand Flora pattern. Molecular information is, however, largely missing for the Macaronesian Dracaena taxa (“MDT”, hereafter), and the biogeographic or population genetic patterns of this lineage have not yet been thoroughly assessed. To fill this gap, we generated plastid DNA sequence data of 14 Dracaena populations representing the entire natural distribution of MDT (including mainland Morocco and all recognized subspecies), 9 additional populations of subspontaneous origin, and a set of related species of the genus. We performed phylogenetic, biogeographic, and population genetic analyses at different spatial scales and conducted a comparative review on plant haplotype diversity in Macaronesian plants. The results of our phylogenetic analyses indicated the monophyly of the MDT and an origin separate from a clade of geographically distant species that so far were postulated as their closest living relatives (D. cinnabari, D. ombet, D. schizantha, D. serrulata). The results of our phylogeographic analyses indicated that diversification within D. draco occurred throughout the Pleistocene and that wild peripheral populations (Madeira, mainland Morocco) may have a recent origin from Canarian source populations. Recent dispersals, coupled with remarkably low levels of haplotype diversity, probably account for the weak phylogeographic signal observed across wild populations. However, our results suggested that human‐assisted expansion of Dracaena inflates the extant phylogeographic signal by non‐random translocation of a specific subset of haplotypes. Our study demonstrates that many of the previous biogeographic scenarios on MDT are not supported by molecular data. Instead, our results highlight (i) the impact that human activity may have on the phylogeographic pattern of island plants, and (ii) the need of a deeper taxonomic sampling in future investigations on MDT and close relatives.
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| Language: | English |
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Wiley-VCH
2020-04-27
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| Subjects: | Biogeographic disjunction, Dracaena draco, Haplotype diversity, Human‐mediated dispersal, Island biogeography, Rand Flora, |
| Online Access: | http://hdl.handle.net/10261/224335 http://dx.doi.org/10.13039/501100000780 |
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dig-ipna-es-10261-2243352022-06-30T07:29:58Z Iconic, threatened, but largely unknown: Biogeography of the Macaronesian dragon trees (Dracaena spp.) as inferred from plastid DNA markers Durán, Iván Marrero, Águedo Msanda, Fouad Harrouni, Cherif Gruenstaeudl, Michael Patiño, Jairo Caujapé Castells, J. García-Verdugo, Carlos European Commission Govern de les Illes Balears European Commission Biogeographic disjunction Dracaena draco Haplotype diversity Human‐mediated dispersal Island biogeography Rand Flora The genus Dracaena in Macaronesia comprises two threatened species of arborescent monocots that are often associated with one of the most intriguing biogeographic disjunctions: the Rand Flora pattern. Molecular information is, however, largely missing for the Macaronesian Dracaena taxa (“MDT”, hereafter), and the biogeographic or population genetic patterns of this lineage have not yet been thoroughly assessed. To fill this gap, we generated plastid DNA sequence data of 14 Dracaena populations representing the entire natural distribution of MDT (including mainland Morocco and all recognized subspecies), 9 additional populations of subspontaneous origin, and a set of related species of the genus. We performed phylogenetic, biogeographic, and population genetic analyses at different spatial scales and conducted a comparative review on plant haplotype diversity in Macaronesian plants. The results of our phylogenetic analyses indicated the monophyly of the MDT and an origin separate from a clade of geographically distant species that so far were postulated as their closest living relatives (D. cinnabari, D. ombet, D. schizantha, D. serrulata). The results of our phylogeographic analyses indicated that diversification within D. draco occurred throughout the Pleistocene and that wild peripheral populations (Madeira, mainland Morocco) may have a recent origin from Canarian source populations. Recent dispersals, coupled with remarkably low levels of haplotype diversity, probably account for the weak phylogeographic signal observed across wild populations. However, our results suggested that human‐assisted expansion of Dracaena inflates the extant phylogeographic signal by non‐random translocation of a specific subset of haplotypes. Our study demonstrates that many of the previous biogeographic scenarios on MDT are not supported by molecular data. Instead, our results highlight (i) the impact that human activity may have on the phylogeographic pattern of island plants, and (ii) the need of a deeper taxonomic sampling in future investigations on MDT and close relatives. This research was funded by the European Regional Development Fund (Intereg projects CAVEGEN and ENCLAVES). JP was funded by the Marie Sklodowska‐Curie COFUND, Researchers’ Night and Individual Fellowships Global (MSCA grant agreement No 747238, “UNISLAND”’), and the Ramón y Cajal program (RYC‐2016‐20506). CG‐V was financially supported by a “Vicenç Mut” postdoctoral fellowship (Conselleria d'Innovació, Recerca i Turisme, Govern de les Illes Balears and the European Social Fund). Peer reviewed 2020-12-03T13:28:10Z 2020-12-03T13:28:10Z 2020-04-27 artículo http://purl.org/coar/resource_type/c_6501 Taxon 69(2): 217-233 (2020) http://hdl.handle.net/10261/224335 10.1002/tax.12215 1996-8175 http://dx.doi.org/10.13039/501100000780 en Postprint https://doi.org/10.1002/tax.12215 Sí none Wiley-VCH International Association for Plant Taxonomy |
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Biogeographic disjunction Dracaena draco Haplotype diversity Human‐mediated dispersal Island biogeography Rand Flora Biogeographic disjunction Dracaena draco Haplotype diversity Human‐mediated dispersal Island biogeography Rand Flora |
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Biogeographic disjunction Dracaena draco Haplotype diversity Human‐mediated dispersal Island biogeography Rand Flora Biogeographic disjunction Dracaena draco Haplotype diversity Human‐mediated dispersal Island biogeography Rand Flora Durán, Iván Marrero, Águedo Msanda, Fouad Harrouni, Cherif Gruenstaeudl, Michael Patiño, Jairo Caujapé Castells, J. García-Verdugo, Carlos Iconic, threatened, but largely unknown: Biogeography of the Macaronesian dragon trees (Dracaena spp.) as inferred from plastid DNA markers |
| description |
The genus Dracaena in Macaronesia comprises two threatened species of arborescent monocots that are often associated with one of the most intriguing biogeographic disjunctions: the Rand Flora pattern. Molecular information is, however, largely missing for the Macaronesian Dracaena taxa (“MDT”, hereafter), and the biogeographic or population genetic patterns of this lineage have not yet been thoroughly assessed. To fill this gap, we generated plastid DNA sequence data of 14 Dracaena populations representing the entire natural distribution of MDT (including mainland Morocco and all recognized subspecies), 9 additional populations of subspontaneous origin, and a set of related species of the genus. We performed phylogenetic, biogeographic, and population genetic analyses at different spatial scales and conducted a comparative review on plant haplotype diversity in Macaronesian plants. The results of our phylogenetic analyses indicated the monophyly of the MDT and an origin separate from a clade of geographically distant species that so far were postulated as their closest living relatives (D. cinnabari, D. ombet, D. schizantha, D. serrulata). The results of our phylogeographic analyses indicated that diversification within D. draco occurred throughout the Pleistocene and that wild peripheral populations (Madeira, mainland Morocco) may have a recent origin from Canarian source populations. Recent dispersals, coupled with remarkably low levels of haplotype diversity, probably account for the weak phylogeographic signal observed across wild populations. However, our results suggested that human‐assisted expansion of Dracaena inflates the extant phylogeographic signal by non‐random translocation of a specific subset of haplotypes. Our study demonstrates that many of the previous biogeographic scenarios on MDT are not supported by molecular data. Instead, our results highlight (i) the impact that human activity may have on the phylogeographic pattern of island plants, and (ii) the need of a deeper taxonomic sampling in future investigations on MDT and close relatives. |
| author2 |
European Commission |
| author_facet |
European Commission Durán, Iván Marrero, Águedo Msanda, Fouad Harrouni, Cherif Gruenstaeudl, Michael Patiño, Jairo Caujapé Castells, J. García-Verdugo, Carlos |
| format |
artículo |
| topic_facet |
Biogeographic disjunction Dracaena draco Haplotype diversity Human‐mediated dispersal Island biogeography Rand Flora |
| author |
Durán, Iván Marrero, Águedo Msanda, Fouad Harrouni, Cherif Gruenstaeudl, Michael Patiño, Jairo Caujapé Castells, J. García-Verdugo, Carlos |
| author_sort |
Durán, Iván |
| title |
Iconic, threatened, but largely unknown: Biogeography of the Macaronesian dragon trees (Dracaena spp.) as inferred from plastid DNA markers |
| title_short |
Iconic, threatened, but largely unknown: Biogeography of the Macaronesian dragon trees (Dracaena spp.) as inferred from plastid DNA markers |
| title_full |
Iconic, threatened, but largely unknown: Biogeography of the Macaronesian dragon trees (Dracaena spp.) as inferred from plastid DNA markers |
| title_fullStr |
Iconic, threatened, but largely unknown: Biogeography of the Macaronesian dragon trees (Dracaena spp.) as inferred from plastid DNA markers |
| title_full_unstemmed |
Iconic, threatened, but largely unknown: Biogeography of the Macaronesian dragon trees (Dracaena spp.) as inferred from plastid DNA markers |
| title_sort |
iconic, threatened, but largely unknown: biogeography of the macaronesian dragon trees (dracaena spp.) as inferred from plastid dna markers |
| publisher |
Wiley-VCH |
| publishDate |
2020-04-27 |
| url |
http://hdl.handle.net/10261/224335 http://dx.doi.org/10.13039/501100000780 |
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| _version_ |
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