TY - JOUR
T1 - Resolving relationships in an exceedingly young Neotropical orchid lineage using Genotyping-by-sequencing data
AU - Pérez-Escobar, Oscar Alejandro
AU - Bogarín, Diego
AU - Schley, Rowan
AU - Bateman, Richard M.
AU - Gerlach, Günter
AU - Harpke, Dörte
AU - Brassac, Jonathan
AU - Fernández-Mazuecos, Mario
AU - Dodsworth, Steven
AU - Hagsater, Eric
AU - Blanco, Mario A.
AU - Gottschling, Marc
AU - Blattner, Frank R.
N1 - Funding Information:
We are grateful to R. Jim?nez-Machorro and Norman Cash for assistance during fieldwork. We thank G. Romero (AMES), Maricruz Bonilla from the Lankester Botanic Garden (Cartago) and Adam Karremans (AKP) from the Comisi?n Institucional de Biodiversidad of the University of Costa Rica for providing plant material and permits to access genetic information. Four anonymous reviewers and the associate editor provided valuable suggestions. Autoridad Nacional del Ambiente of Panama (ANAM), the Smithsonian Tropical Research Institute (Panama City) and Costa Rican ministry of Environment (MINAET) kindly provided scientific research permits (SE/AP-20-13 and FOI-004-001, respectively). We thank the Deutsche Forschungsgemeinschaft for financial support (grants BL 462/14-1, GE 828/12-1, GO 1459/8). MFM was supported by the Juan de la Cierva fellowship of the Spanish Ministry of Economy (IJCI-2015-23459). OAPE is supported by the Lady Sainsbury Orchid Fellowship at the Royal Botanic Gardens, Kew.
Funding Information:
We are grateful to R. Jiménez-Machorro and Norman Cash for assistance during fieldwork. We thank G. Romero (AMES), Maricruz Bonilla from the Lankester Botanic Garden (Cartago) and Adam Karremans (AKP) from the Comisión Institucional de Biodiversidad of the University of Costa Rica for providing plant material and permits to access genetic information. Four anonymous reviewers and the associate editor provided valuable suggestions. Autoridad Nacional del Ambiente of Panama (ANAM), the Smithsonian Tropical Research Institute (Panama City) and Costa Rican ministry of Environment (MINAET) kindly provided scientific research permits (SE/AP-20-13 and FOI-004-001, respectively). We thank the Deutsche Forschungsgemeinschaft for financial support (grants BL 462/14-1 , GE 828/12-1 , GO 1459/8 ). MFM was supported by the Juan de la Cierva fellowship of the Spanish Ministry of Economy ( IJCI-2015-23459 ). OAPE is supported by the Lady Sainsbury Orchid Fellowship at the Royal Botanic Gardens, Kew . Appendix A
Publisher Copyright:
© 2019
PY - 2020/3/1
Y1 - 2020/3/1
N2 - Poor morphological and molecular differentiation in recently diversified lineages is a widespread phenomenon in plants. Phylogenetic relationships within such species complexes are often difficult to resolve because of the low variability in traditional molecular loci. Furthermore, biological phenomena responsible for topological incongruence such as Incomplete Lineage Sorting (ILS) and hybridisation complicate the resolution of phylogenetic relationships among closely related taxa. In this study, we employ a Genotyping-by-sequencing (GBS) approach to disentangle evolutionary relationships within a species complex belonging to the Neotropical orchid genus Cycnoches. This complex includes seven taxa distributed through Central America and the Colombian Chocó, and is nested within a clade estimated to have first diversified in the early Quaternary. Previous phylogenies inferred from few loci failed to provide support for internal relationships within the complex. Our Neighbour-net and coalescent-based analyses inferred from ca. 13,000 GBS loci obtained from 31 individuals belonging to six of the seven traditionally accepted Cycnoches taxa provided a robust phylogeny for this group. The genus Cycnoches includes three main clades that are further supported by morphological traits and geographic distributions. Similarly, a topology reconstructed through maximum likelihood (ML) inference of concatenated GBS loci produced results that are comparable with those reconstructed through coalescence and network-based methods. Our comparative phylogenetic informativeness analyses suggest that the low support evident in the ML phylogeny might be attributed to the abundance of uninformative GBS loci, which can account for up to 50% of the total number of loci recovered. The phylogenomic framework provided here, as well as morphological evidence and geographical patterns, suggest that the six entities previously thought to be different species or subspecies might actually represent only three distinct segregates. We further discuss the limited phylogenetic informativeness found in our GBS approach and its utility to disentangle relationships within recent and rapidly evolving species complexes. Our study is the first to demonstrate the utility of GBS data to reconstruct relationships within young (~2 Ma) Neotropical plant clades, opening new avenues for studies of species complexes that populate the species-rich orchid family.
AB - Poor morphological and molecular differentiation in recently diversified lineages is a widespread phenomenon in plants. Phylogenetic relationships within such species complexes are often difficult to resolve because of the low variability in traditional molecular loci. Furthermore, biological phenomena responsible for topological incongruence such as Incomplete Lineage Sorting (ILS) and hybridisation complicate the resolution of phylogenetic relationships among closely related taxa. In this study, we employ a Genotyping-by-sequencing (GBS) approach to disentangle evolutionary relationships within a species complex belonging to the Neotropical orchid genus Cycnoches. This complex includes seven taxa distributed through Central America and the Colombian Chocó, and is nested within a clade estimated to have first diversified in the early Quaternary. Previous phylogenies inferred from few loci failed to provide support for internal relationships within the complex. Our Neighbour-net and coalescent-based analyses inferred from ca. 13,000 GBS loci obtained from 31 individuals belonging to six of the seven traditionally accepted Cycnoches taxa provided a robust phylogeny for this group. The genus Cycnoches includes three main clades that are further supported by morphological traits and geographic distributions. Similarly, a topology reconstructed through maximum likelihood (ML) inference of concatenated GBS loci produced results that are comparable with those reconstructed through coalescence and network-based methods. Our comparative phylogenetic informativeness analyses suggest that the low support evident in the ML phylogeny might be attributed to the abundance of uninformative GBS loci, which can account for up to 50% of the total number of loci recovered. The phylogenomic framework provided here, as well as morphological evidence and geographical patterns, suggest that the six entities previously thought to be different species or subspecies might actually represent only three distinct segregates. We further discuss the limited phylogenetic informativeness found in our GBS approach and its utility to disentangle relationships within recent and rapidly evolving species complexes. Our study is the first to demonstrate the utility of GBS data to reconstruct relationships within young (~2 Ma) Neotropical plant clades, opening new avenues for studies of species complexes that populate the species-rich orchid family.
KW - American tropics
KW - high-throughput sequencing
KW - orchidaceae
KW - phylogenetic incongruence
KW - rapid diversification
UR - http://www.scopus.com/inward/record.url?scp=85076489129&partnerID=8YFLogxK
UR - https://uobrep.openrepository.com/handle/10547/624068
U2 - 10.1016/j.ympev.2019.106672
DO - 10.1016/j.ympev.2019.106672
M3 - Article
C2 - 31734454
AN - SCOPUS:85076489129
SN - 1055-7903
VL - 144
JO - Molecular Phylogenetics and Evolution
JF - Molecular Phylogenetics and Evolution
M1 - 106672
ER -