TY - JOUR
T1 - Why are there so many plant species in the Neotropics?
JF - Taxon
Y1 - 2011
A1 - Antonelli, Alexandre
A1 - Sanmartín, I.
SP - 403
EP - 414
VL - 60
ER -
TY - JOUR
T1 - Mass Extinction, Gradual Cooling, or Rapid Radiation? Reconstructing the Spatiotemporal Evolution of the Ancient Angiosperm Genus Hedyosmum (Chloranthaceae) Using Empirical and Simulated Approaches
JF - Systematic Biology
Y1 - 2011
A1 - Antonelli, Alexandre
A1 - Sanmartín, Isabel
SP - 596
EP - 615
AB - Chloranthaceae is a small family of flowering plants (65 species) with an extensive fossil record extending back to the Early Cretaceous. Within Chloranthaceae, Hedyosmum is remarkable because of its disjunct distribution–1 species in the Paleotropics and 44 confined to the Neotropics–and a long "temporal gap" between its stem age (Early Cretaceous) and the beginning of the extant radiation (late Cenozoic). Is this gap real, reflecting low diversification and a recent radiation, or the signature of extinction? Here we use paleontological data, relaxed-clock molecular dating, diversification analyses, and parametric ancestral area reconstruction to investigate the timing, tempo, and mode of diversification in Hedyosmum. Our results, based on analyses of plastid and nuclear sequences for 40 species, suggest that the ancestor of Chloranthaceae and the Hedyosmum stem lineages were widespread in the Holarctic in the Late Cretaceous. High extinction rates, possibly associated with Cenozoic climatic fluctuations, may have been responsible for the low extant diversity of the family. Crown group Hedyosmum originated c. 36–43 Ma and colonized South America from the north during the Early-Middle Miocene (c. 20 Ma). This coincided with an increase in diversification rates, probably triggered by the uplift of the Northern Andes from the Mid-Miocene onward. This study illustrates the advantages of combining paleontological, phylogenetic, and biogeographic data to reconstruct the spatiotemporal evolution of an ancient lineage, for which the extant diversity is only a remnant of past radiations. It also shows the difficulties of inferring patterns of lineage diversification when incomplete taxon sampling is combined with high extinction rates.
VL - 60
UR - http://sysbio.oxfordjournals.org/content/60/5/596.abstract
ER -
TY - JOUR
T1 - Revisiting taxonomy, morphological evolution, and fossil calibration strategies in Chloranthaceae
JF - Journal of Systematics and Evolution
Y1 - 2011
A1 - Zhang, Qiang
A1 - Antonelli, Alexandre
A1 - Feild, Taylor S.
A1 - Kong, Hong-Zhi
SP - 315–329
AB - Chloranthaceae is one of the earliest diverging angiosperm families and is comprised of approximately 75 species in four genera (Chloranthus, Sarcandra, Ascarina, and Hedyosmum). This family has received considerable attention because of its seemingly primitive morphology, disjunct tropical distribution in Asia and America, and extensive fossil record from the Early Cretaceous. In the present study, we reconstructed the phylogeny of Chloranthaceae based on a combined dataset of three plastid DNA regions and 56 species. We then estimated divergence times in the family using two relaxed molecular clock methods (BEAST and penalized likelihood). We focused on testing the influence of fossil taxa in calibrating the molecular phylogeny, and on assessing the current taxonomy of the family in light of the phylogenetic results. Our results indicate that most intrageneric divisions within Ascarina and Hedyosmum are not monophyletic. The results from the dating analysis suggest that the Hedyosmum-like fossil Asteropollis represents a stem lineage of Hedyosmum, as has been suggested previously from morphological analyses. In contrast, our results indicate that the Chloranthus-like fossil Chloranthistemon, previously suggested on morphological grounds to be a stem relative of Chloranthus, may, instead, belong to the branch leading to the clade Chloranthus+Sarcandra. The median crown ages of Chloranthus, Sarcandra, Ascarina, and Hedyosmum estimated in the BEAST analysis were 26.3, 9.5, 31.0 and 45.8 million years ago (Ma), respectively, whereas the divergence between Chloranthus and Sarcandra, the splitting of Ascarina with the former two genera, and Hedyosmum separating from the three genera were estimated to 63.8, 95.7 and 111.1 Ma. The present study sheds further light on the temporal evolution of Chloranthaceae and exemplifies how molecular dating analyses may be used to explore alternative phylogenetic placements of fossil taxa.
VL - 49
UR - http://www.jse.ac.cn/Abstract.aspx?id=2827
ER -
TY - JOUR
T1 - Diversification in the Andes: Age and origins of South American Heliotropium lineages (Heliotropiaceae, Boraginales)
JF - Molecular Phylogenetics and Evolution
Y1 - 2011
DO - 10.1016/j.ympev.2011.06.001
A1 - Luebert, F.
A1 - Hilger, H. H.
A1 - Weigend, M.
SP - 90–102
VL - 61
UR - http://dx.doi.org/10.1016/j.ympev.2011.06.001
IS - 1
ER -
TY - JOUR
T1 - Phylogenetic relationships and morphological diversity in Neotropical Heliotropium (Heliotropiaceae)
JF - Taxon
Y1 - 2011
A1 - Luebert, F.
A1 - Brokamp, G.
A1 - Wen, J.
A1 - Weigend, M.
A1 - Hilger, H. H.
SP - 663
EP - 680
VL - 60
UR - http://www.ingentaconnect.com/content/iapt/tax/2011/00000060/00000003/art00004
IS - 3
ER -
TY - JOUR
T1 - Underestimated endemic species diversity in the dry inter-Andean valley of the Río Marañón, northern Peru: An example from Mimosa (Leguminosae, Mimosoideae)
JF - Taxon
Y1 - 2011
A1 - Särkinen, T. E.
A1 - Marcelo-Peña, José Luis
A1 - Yomona, A. Daza
A1 - Simon, Marcelo F.
A1 - Pennington, R. Toby
A1 - Hughes, Colin E.
SP - 139
EP - 150
VL - 60
UR - - http://www.ingentaconnect.com/content/iapt/tax/2011/00000060/00000001/art00012
N1 - - 139
ER -
TY - JOUR
T1 - Recent oceanic long-distance dispersal and divergence in the amphi-Atlantic rain forest genus Renealmia L.f. (Zingiberaceae)
JF - Molecular Phylogenetics and Evolution
Y1 - 2007
A1 - Särkinen, T. E.
A1 - Newman, M. F.
A1 - Maas, P. J. M.
A1 - Maas, H.
A1 - Poulsen, A. D.
A1 - Harris, D. J.
A1 - Richardson, J. E.
A1 - Clark, A.
A1 - Hollingsworth, M.
A1 - Pennington, R. T.
SP - 968
EP - 980
AB - Renealmia L.f. (Zingiberaceae) is one of the few tropical plant genera with numerous species in both Africa and South America but not in Asia. Based on phylogenetic analysis of nuclear ribosomal internal transcribed spacer (ITS) and chloroplast trnL-F DNA, Rellealmia is shown to be monophyletic with high branch support. Low sequence divergence found in the two genome regions (ITS: 0-2.4%; trnL-F: 0-1.9%) suggests recent diversification within the genus. Molecular divergence age estimates give further support to the recent origin of the genus and show that Renealmia has attained its amphi-Atlantic distribution by an oceanic long-distance dispersal event from Africa to South America during the Miocene or Pliocene (15.8-2.7 My ago). Some support is found for the hypothesis that speciation in neotropical Renealmia was influenced by the Andean orogeny. Speciation has been approximately simultaneous on both sides of the Atlantic, but increased taxon sampling is required to compare the speciation rates between the New World and Old World tropics. (c) 2007 Elsevier Inc. All rights reserved.
VL - 44
SN - 1055-7903
UR - ://WOS:000249845400004
N1 - Times Cited: 7
ER -
TY - JOUR
T1 - Systematics and biogeography of Amicia Kunth (Leguminosae, Papilionoideae)
JF - Systematic Botany Monographs
Y1 - 2011
A1 - Särkinen, T.
A1 - Hughes, C. E.
VL - accepted pending revision
ER -
TY - JOUR
T1 - Evolutionary islands in the Andes: persistence, isolation and endemism in Andean dry tropical forests
JF - Submitted
Y1 - 2011
A1 - Särkinen, T.
A1 - Simon, M. F.
A1 - Lavin, M.
A1 - Pennington, R. T.
A1 - Hughes, C. E.
ER -
TY - JOUR
T1 - Origins of biodiversity response
JF - Science
Y1 - 2011
A1 - Hoorn, C.
A1 - Wesselingh, F. P.
A1 - ter Steege, H.
A1 - Bermudez, M. A.
A1 - Mora, A.
A1 - Sevink, J.
A1 - Sanmartín, I.
A1 - Sanchez-Meseguer, A.
A1 - Anderson, C. L.
A1 - Figueiredo, J. P.
A1 - Jaramillo, C.
A1 - Riff, D.
A1 - Negri, F. R.
A1 - Hooghiemstra, H.
A1 - Lundberg, J.
A1 - Stadler, T.
A1 - Särkinen, T.
A1 - Antonelli, A.
SP - 399
EP - 400
VL - 331
UR - ://WOS:000286635900027
N1 - Times Cited: 0
ER -
TY - JOUR
T1 - Contrasting plant diversification histories within the Andean biodiversity hotspot
JF - Proceedings of the National Academy of Sciences of the United States of America
Y1 - 2010
A1 - Pennington, R. T.
A1 - Lavin, M.
A1 - Särkinen, T.
A1 - Lewis, G. P.
A1 - Klitgaard, B. B.
A1 - Hughes, C. E.
SP - 13783
EP - 13787
AB - The Andes are the most species-rich global biodiversity hotspot. Most research and conservation attention in the Andes has focused on biomes such as rain forest, cloud forest, and paramo, where much plant species diversity is the hypothesized result of rapid speciation associated with the recent Andean orogeny. In contrast to these mesic biomes, we present evidence for a different, older diversification history in seasonally dry tropical forests (SDTF) occupying rain-shadowed inter-Andean valleys. High DNA sequence divergence in Cyathostegia mathewsii, a shrub endemic to inter-Andean SDTF, indicates isolation for at least 5 million years of populations separated by only ca. 600 km of high cordillera in Peru. In conjunction with fossil evidence indicating the presence of SDTF in the Andes in the late Miocene, our data suggest that the disjunct small valley pockets of inter-Andean SDTF have persisted over millions of years. These forests are rich in endemic species but massively impacted, and merit better representation in future plans for science and conservation in Andean countries.
VL - 107
UR - ://WOS:000280605900043
N1 - Times Cited: 4
ER -
TY - JOUR
T1 - Amazonia through time: Andean uplift, climate change, landscape evolution, and biodiversity
JF - Science
Y1 - 2010
A1 - Hoorn, C.
A1 - Wesselingh, F. P.
A1 - ter Steege, H.
A1 - Bermudez, M. A.
A1 - Mora, A.
A1 - Sevink, J.
A1 - Sanmartín, I.
A1 - Sanchez-Meseguer, A.
A1 - Anderson, C. L.
A1 - Figueiredo, J. P.
A1 - Jaramillo, C.
A1 - Riff, D.
A1 - Negri, F. R.
A1 - Hooghiemstra, H.
A1 - Lundberg, J.
A1 - Stadler, T.
A1 - Särkinen, T.
A1 - Antonelli, A.
SP - 927
EP - 931
AB - The Amazonian rainforest is arguably the most species-rich terrestrial ecosystem in the world, yet the timing of the origin and evolutionary causes of this diversity are a matter of debate. We review the geologic and phylogenetic evidence from Amazonia and compare it with uplift records from the Andes. This uplift and its effect on regional climate fundamentally changed the Amazonian landscape by reconfiguring drainage patterns and creating a vast influx of sediments into the basin. On this "Andean" substrate, a region-wide edaphic mosaic developed that became extremely rich in species, particularly in Western Amazonia. We show that Andean uplift was crucial for the evolution of Amazonian landscapes and ecosystems, and that current biodiversity patterns are rooted deep in the pre-Quaternary.
VL - 330
UR - ://WOS:000284118000031
N1 - Times Cited: 1
ER -
TY - CHAP
T1 - Phylogeny and dating of Aframomum (Zingiberaceae)
T2 - Diversity, Phylogeny, and Evolution in the Monocotyledons
Y1 - 2010
A1 - Auvrey, G.
A1 - Harris, D. J.
A1 - Richardson, J. D.
A1 - Newman, M. F.
A1 - Särkinen, T.
SP - 287
EP - 305
JF - Diversity, Phylogeny, and Evolution in the Monocotyledons
PB - Aarhus University Press
CY - Aarhus
ER -
TY - CHAP
T1 - Phylogeny and dating of Aframomum (Zingiberaceae)
T2 - Diversity, Phylogeny, and Evolution in the Monocotyledons
Y1 - 2010
A1 - Auvrey, G.
A1 - Harris, D. J.
A1 - Richardson, J. D.
A1 - Newman, M. F.
A1 - Särkinen, T.
SP - 287
EP - 305
JF - Diversity, Phylogeny, and Evolution in the Monocotyledons
PB - Aarhus University Press
CY - Aarhus
ER -
TY - JOUR
T1 - Phylogenetic analysis of Fosterella L.B. Sm. (Pitcairnioideae, Bromeliaceae) based on four chloroplast DNA regions
JF - Molecular Phylogenetics and Evolution
Y1 - 2009
DO - 10.1016/j.ympev.2009.01.001
A1 - Rex, Martina
A1 - Schulte, Katharina
A1 - Zizka, Georg
A1 - Peters, Jule
A1 - Vásquez, Roberto
A1 - Ibisch, Pierre L.
A1 - Weising, Kurt
SP - 472–485
VL - 51
ER -
TY - JOUR
T1 - Towards a taxonomic revision of the genus Fosterella (Bromeliaceae)
JF - Selbyana
Y1 - 2008
A1 - Peters, Jule
A1 - Vásquez, Roberto
A1 - Osinaga, Arturo
A1 - Leme, Elton
A1 - Weising, Kurt
A1 - Ibisch, Pierre L.
SP - 182–194
VL - 29
ER -
TY - JOUR
T1 - Inferring the diversification of the epiphytic fern genus Serpocaulon (Polypodiaceae) in South America using chloroplast sequences and amplified fragment length polymorphisms
JF - Plant Systematics and Evolution
Y1 - 2008
DO - 10.1007/s00606-008-0021-3
A1 - Kreier, H.-P
A1 - Rex, M.
A1 - Weising, Kurt
A1 - Kessler, M.
A1 - Smith, A. R.
A1 - Schneider, H.
SP - 1–16
VL - 274
ER -
TY - JOUR
T1 - AFLP analysis of genetic relationships in the genus Fosterella L.B. Smith (Pitcairnioideae, Bromeliaceae)
JF - Genome
Y1 - 2007
DO - 10.1139/G06-141
A1 - Rex, Martina
A1 - Patzolt, Kerstin
A1 - Schulte, Katharina
A1 - Zizka, Georg
A1 - Vásquez, Roberto
A1 - Ibisch, Pierre L.
A1 - Weising, Kurt
SP - 90–105
VL - 50
ER -
TY - CHAP
T1 - Organizing specimen and tissue preservation in the field for subsequent molecular analyses
T2 - Manual on field recording techniques and protocols for all taxa biodiversity: Inventories and monitoring
Y1 - 2010
A1 - Gemeinholzer, Birgit
A1 - Rey, Isabel
A1 - Weising, Kurt
A1 - Grundmann, Michael
A1 - Muellner, Alexandra N.
A1 - Zetzsche, Holger
A1 - Droege, Gabriele
A1 - Seberg, Ole
A1 - Petersen, Gitte
A1 - Rawson, David
A1 - Weigt, Lee
ED - Eymann, Jutta
ED - Degreef, Jerome
ED - Häuser, Christoph L.
ED - Monje, Juan Carlos
ED - Samyn, Yves
ED - VandenSpiegel, Didier
SP - 129–157
JF - Manual on field recording techniques and protocols for all taxa biodiversity: Inventories and monitoring
T3 - ABC Taxa
VL - 8
UR - http://www.abctaxa.be/volumes/volume-8-manual-atbi
ER -
TY - JOUR
T1 - Epitypification of Heliotropium arborescens L. (Heliotropiaceae)
JF - Taxon
Y1 - 2010
A1 - Luebert, F.
A1 - Weigend, M.
A1 - Hilger, H. H.
SP - 1263
EP - 1266
VL - 59
UR - http://www.ingentaconnect.com/content/iapt/tax/2010/00000059/00000004/art00023
ER -
TY - JOUR
T1 - Phylogenetic analysis and evolutionary diversification of Heliotropium sect. Cochranea (Heliotropiaceae) in the Atacama Desert
JF - Systematic Botany
Y1 - 2008
DO - 10.1600/036364408784571635
A1 - Luebert, F.
A1 - Wen, J.
SP - 390
EP - 402
VL - 33
UR - http://www.bioone.org/doi/abs/10.1600/036364408784571635
IS - 2
ER -
TY - JOUR
T1 - Systematic placement and biogeographical relationships of the monotypic genera Gypothamnium and Oxyphyllum (Asteraceae: Mutisioideae) from the Atacama Desert
JF - Botanical Journal of the Linnean Society
Y1 - 2009
DO - 10.1111/j.1095-8339.2008.00926.x
A1 - Luebert, F.
A1 - Wen, J.
A1 - Dillon, M. O.
SP - 32
EP - 51
VL - 159
UR - http://onlinelibrary.wiley.com/doi/10.1111/j.1095-8339.2008.00926.x/abstract
ER -
TY - JOUR
T1 - Origins of Biodiversity–Response
JF - Science
Y1 - 2011
A1 - Hoorn, C.
A1 - Wesselingh, F. P.
A1 - Steege, H. Ter
A1 - Bermudez, M. A.
A1 - Mora, A.
A1 - Sevink, J.
A1 - Sanmartín, I.
A1 - Sanchez-Meseguer, A.
A1 - Anderson, C. L.
A1 - Figueiredo, J. P.
A1 - Jaramillo, C.
A1 - Riff, D.
A1 - Negri, F. R.
A1 - Hooghiemstra, H.
A1 - Lundberg, J.
A1 - Stadler, T.
A1 - Särkinen, T.
A1 - Antonelli, Alexandre
SP - 399
EP - 400
VL - 331
UR - http://www.sciencemag.org/content/331/6016/399.short
ER -
TY - JOUR
T1 - Vicariance or long-distance dispersal: historical biogeography of the pantropical subfamily Chrysophylloideae (Sapotaceae)
JF - Journal of Biogeography
Y1 - 2011
A1 - Bartish, Igor V.
A1 - Antonelli, Alexandre
A1 - Richardson, James E.
A1 - Swenson, Ulf
SP - 177
EP - 190
KW - Africa
KW - Australasia
KW - land bridges
KW - Late Cretaceous
KW - long-distance dispersal
KW - molecular dating
KW - Neotropics
KW - Sapotaceae
KW - Tertiary
KW - vicariance
AB - Abstract Aim Continental disjunctions in pantropical taxa have been explained by vicariance or long-distance dispersal. The relative importance of these explanations in shaping current distributions may vary, depending on historical backgrounds or biological characteristics of particular taxa. We aimed to determine the geographical origin of the pantropical subfamily Chrysophylloideae (Sapotaceae) and the roles vicariance and dispersal have played in shaping its modern distribution. Location Tropical areas of Africa, Australasia and South America. Methods We utilized a recently published, comprehensive data set including 66 species and nine molecular markers. Bayesian phylogenetic trees were generated and dated using five fossils and the penalized likelihood approach. Distributional ranges of nodes were estimated using maximum likelihood and parsimony analyses. In both biogeographical and molecular dating analyses, phylogenetic and branch length uncertainty was taken into account by averaging the results over 2000 trees extracted from the Bayesian stationary sample. Results Our results indicate that the earliest diversification of Chrysophylloideae was in the Campanian of Africa c. 73–83 Ma. A narrow time interval for colonization from Africa to the Neotropics (one to three dispersals) and Australasia (a single migration) indicates a relatively rapid radiation of this subfamily in the latest Cretaceous to the earliest Palaeocene (c. 62–72 Ma). A single dispersal event from the Neotropics back to Africa during the Neogene was inferred. Long-distance dispersal between Australia and New Caledonia occurred at least four times, and between Africa and Madagascar on multiple occasions. Main conclusions Long-distance dispersal has been the dominant mechanism for range expansion in the subfamily Chrysophylloideae. Vicariance could explain South American–Australian disjunction via Antarctica, but not the exchanges between Africa and South America and between New Caledonia and Australia, or the presence of the subfamily in Madagascar. We find low support for the hypothesis that the North Atlantic land bridge facilitated range expansions at the Palaeocene/Eocene boundary.
PB - Blackwell Publishing Ltd
VL - 38
SN - 1365-2699
UR - http://dx.doi.org/10.1111/j.1365-2699.2010.02389.x
ER -
TY - JOUR
T1 - On the origin of Amazonian landscapes and biodiversity: a synthesis
JF - In Hoorn, C., Wesselingh, F.P.: Amazonia, Landscape and Species Evolution, 1st edition. Blackwell publishing
Y1 - 2010
A1 - Wesselingh, F. P.
A1 - Hoorn, C.
A1 - Kroonenberg, S.B.
A1 - Antonelli, Alexandre
A1 - Lundberg, J.G.
A1 - Vonhof, H.B.
A1 - Hooghiemstra, H.
SP - 421
EP - 431
AB - In northern South America the Cenozoic was a period of intense tectonic and climatic interaction that resulted in a dynamic Amazonian landscape dominated by lowlands with local and shield-derived rivers. These drainage systems constantly changed shape and size. During the entire Cenozoic, the Brazilian and Guiana Shields were stable mountainous areas. Andean-derived river systems increased in importance especially in the Neogene. A remarkable feature in western Amazonian history is the waxing and waning of large lake systems and embayments. By the Late Miocene (about 11 Ma), the Andes were connected with the Atlantic through an incipient Amazon River, and from c. 7 Ma Andean-derived river systems became fully established in central and eastern Amazonia and the modern landscape configuration had developed. Rainforests already existed in northern South America during the Paleogene, but the modern rainforests – with resemblance to the Present forest – only developed during the Miocene. The western Amazonian Miocene record contains very diverse aquatic faunas (molluscs, ostracods, turtles, crocodiles, fishes) as well as terrestrial mammals. Remarkable gigantic forms thrived in Amazonian ecosystems at the time. Since the Late Miocene, edaphically heterogeneous lands emerged in western Amazonia in areas previously occupied by lake systems. At the same time nutrient-rich deposits spread over central and eastern Amazonia, an event that, based on molecular phylogenetic studies on extant taxa, coincided with diversification of terrestrial taxa. Molecular-based time estimates confirm the steady diversification and mostly pre-Quaternary origin of extant Amazonian taxa. A significant portion of the current species richness is attributed to a combination of relatively constant wet and warm climates and a heterogeneous edaphic substrate. The Quaternary was a time of distribution shifts, but can no longer be considered a time of diversification in Amazonia.
ER -
TY - JOUR
T1 - Amazonia Through Time: Andean Uplift, Climate Change, Landscape Evolution, and Biodiversity
JF - Science
Y1 - 2010
A1 - Hoorn, C.
A1 - Wesselingh, F. P.
A1 - ter Steege, H.
A1 - Bermudez, M. A.
A1 - Mora, A.
A1 - Sevink, J.
A1 - Sanmartín, I.
A1 - Sanchez-Meseguer, A.
A1 - Anderson, C. L.
A1 - Figueiredo, J. P.
A1 - Jaramillo, C.
A1 - Riff, D.
A1 - Negri, F. R.
A1 - Hooghiemstra, H.
A1 - Lundberg, J.
A1 - Stadler, T.
A1 - Särkinen, T.
A1 - Antonelli, Alexandre
SP - 927
EP - 931
AB - The Amazonian rainforest is arguably the most species-rich terrestrial ecosystem in the world, yet the timing of the origin and evolutionary causes of this diversity are a matter of debate. We review the geologic and phylogenetic evidence from Amazonia and compare it with uplift records from the Andes. This uplift and its effect on regional climate fundamentally changed the Amazonian landscape by reconfiguring drainage patterns and creating a vast influx of sediments into the basin. On this "Andean" substrate, a region-wide edaphic mosaic developed that became extremely rich in species, particularly in Western Amazonia. We show that Andean uplift was crucial for the evolution of Amazonian landscapes and ecosystems, and that current biodiversity patterns are rooted deep in the pre-Quaternary.
VL - 330
UR - http://www.sciencemag.org/cgi/content/abstract/330/6006/927
ER -
TY - JOUR
T1 - Reassessing the temporal evolution of orchids with new fossils and a Bayesian relaxed clock, with implications for the diversification of the rare South American genus Hoffmannseggella (Orchidaceae: Epidendroideae)
JF - BMC Evolutionary Biology
Y1 - 2010
A1 - Gustafsson, A.L.S.
A1 - Verola, C.F.
A1 - Antonelli, Alexandre
SP - 177
AB - BACKGROUND:The temporal origin and diversification of orchids (family Orchidaceae) has been subject to intense debate in the last decade. The description of the first reliable fossil in 2007 enabled a direct calibration of the orchid phylogeny, but little attention has been paid to the potential influence of dating methodology in obtaining reliable age estimates. Moreover, two new orchid fossils described in 2009 have not yet been incorporated in a molecular dating analysis. Here we compare the ages of major orchid clades estimated under two widely used methods, a Bayesian relaxed clock implemented in BEAST and Penalized Likelihood implemented in r8s. We then perform a new family-level analysis by integrating all 3 available fossils and using BEAST. To evaluate how the newly estimated ages may influence the evolutionary interpretation of a species-level phylogeny, we assess divergence times for the South American genus Hoffmannseggella (subfam. Epidendroideae), for which we present an almost complete phylogeny (40 out of 41 species sampled). RESULTS:Our results provide additional support that all extant orchids shared a most recent common ancestor in the Late Cretaceous (~77 million years ago, Ma). However, we estimate the crown age of the five orchid subfamilies to be generally younger (~1-8 Ma) than previously calculated under the Penalized Likelihood algorithm and using a single internal fossil calibration. The crown age of Hoffmannseggella is estimated at ~11 Ma, some 3 Ma more recently than estimated under Penalized Likelihood. CONCLUSIONS:Contrary to recent suggestions that orchid diversification began in a period of global warming, our results place the onset of diversification of the largest orchid subfamilies (Orchidoideae and Epidendroideae) in a period of global cooling subsequent to the Early Eocene Climatic Optimum. The diversification of Hoffmannseggella appears even more correlated to late Tertiary climatic fluctuations than previously suggested. With the incorporation of new fossils in the orchid phylogeny and the use of a method that is arguably more adequate given the present data, our results represent the most up-to-date estimate of divergence times in orchids.
VL - 10
SN - 1471-2148
UR - http://www.biomedcentral.com/1471-2148/10/177
ER -
TY - JOUR
T1 - Climate cooling promoted the expansion and radiation of a threatened group of South American orchids (Epidendroideae: Laeliinae)
JF - Biological Journal of the Linnean Society
Y1 - 2010
A1 - Antonelli, Alexandre
A1 - Verola, C.F.
A1 - Parisod, C.
A1 - Gustafsson, A.L.S.
SP - 597
EP - 607
AB - The Brazilian Cerrado is the most species-rich tropical savanna in the world. Within this biome, the Campos Rupestres ('rocky savannas') constitute a poorly studied and highly threatened ecosystem. To better understand how plants characteristic of this vegetation have evolved and come to occupy the now widely-separated patches of rocky formations in eastern Brazil, we reconstruct the biogeographical history of the rare orchid genus Hoffmannseggella. We apply parsimony and Bayesian methods to infer the phylogenetic relationships among 40 out of the 41 described species. Absolute divergence times are calculated under penalized likelihood and compared with estimates from a Bayesian relaxed clock. Ancestral ranges are inferred for all nodes of the phylogeny using Fitch optimization and statistical dispersal vicariance analysis. In all analyses, phylogenetic uncertainty is taken into account by the independent analysis of a large tree sample. The results obtained indicate that Hoffmannseggella underwent rapid radiation around the Middle/Late Miocene (approximately 11201314†Mya). The region corresponding today to southern Minas Gerais acted as a main source area for several independent range expansions north- and eastwards via episodic corridors. These results provide independent evidence that climate cooling following the Middle Miocene Climatic Optimum (approximately 15†Mya) led to important vegetational shifts in eastern Brazil, causing an increase in the dominance of open versus closed habitats. Polyploidy following secondary contact of previously isolated populations may have been responsible for the formation of many species, as demonstrated by the high ploidy levels reported in the genus.††© 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2010, 100, 5972013607.
VL - 100
SN - 1095-8312
UR - http://dx.doi.org/10.1111/j.1095-8312.2010.01438.x
N1 - 10.1111/j.1095-8312.2010.01438.x
ER -
TY - JOUR
T1 - Molecular studies and phylogeography of Amazonian tetrapods and their relation to geological and climatic models
JF - In Hoorn, C., Wesselingh, F.: Amazonia, Landscape and Species Evolution, 1st edition. Blackwell publishing
Y1 - 2010
A1 - Antonelli, Alexandre
A1 - Quijada-Mascareñas, A.
A1 - Crawford, A. J.
A1 - Bates, J. M.
A1 - Velazco, P.M.
A1 - Wüster, W.
SP - 386
EP - 404
AB - Explaining the origins and evolution of Amazonian biodiversity continues to be an outstanding question in evolutionary biology. A plethora of mechanisms for promoting diversification has been proposed, generally invoking ecological and vicariance processes associated with major geological, hydrological and climatic events in the history of the Amazon drainage basin. Here, we review recent advances on this topic in the light of a rich new source of information: molecular phylogenetics and especially phylogeography. We present a comparison of phylogeographical studies covering over 50 clades of amphibians, birds, non-avian reptiles and mammals, focusing on studies where estimates of divergence times were explicitly calculated. We then discuss the congruence of the speciation patterns found in these studies with previous hypotheses of diversification. Based on the estimates of crown group ages, we conclude that a high proportion of present-day diversity is a result of Neogene diversification. The origin of most species clearly predates the Pleistocene by a considerable margin, refuting the long-held hypothesis that repeated expansion and contraction of lowland forests during Pleistocene climatic changes would be responsible for most of the Amazonian biodiversity. However, some evidence from phylogenetic and distributional patterns suggests that climate cycles did trigger speciation. Speciose lineages of tetrapods tend to be older than groups containing one to a few species, with a few notable exceptions. Considering each tetrapod group alone, amphibians and non-avian reptiles are generally older than birds, while mammals contain both recent and ancient clades of approximately the same number of species. Finally, we make recommendations about future research approaches and animal systems that deserve further attention from phylogeographers.
ER -
TY - JOUR
T1 - Brazil Should Facilitate Research Permits
JF - Conservation Biology
Y1 - 2009
A1 - Antonelli, Alexandre
A1 - Victor Rodriguez
SP - 1068
EP - 1069
VL - 23
SN - 1523-1739
UR - http://dx.doi.org/10.1111/j.1523-1739.2009.01300.x
N1 - 10.1111/j.1523-1739.2009.01300.x
ER -
TY - JOUR
T1 - Tracing the impact of the Andean uplift on Neotropical plant evolution
JF - Proceedings of the National Academy of Sciences
Y1 - 2009
A1 - Antonelli, Alexandre
A1 - Nylander, Johan A. A.
A1 - Persson, Claes
A1 - Sanmartín, Isabel
SP - 9749
EP - 9754
AB - Recent phylogenetic studies have revealed the major role played by the uplift of the Andes in the extraordinary diversification of the Neotropical flora. These studies, however, have typically considered the Andean uplift as a single, time-limited event fostering the evolution of highland elements. This contrasts with geological reconstructions indicating that the uplift occurred in discrete periods from west to east and that it affected different regions at different times. We introduce an approach for integrating Andean tectonics with biogeographic reconstructions of Neotropical plants, using the coffee family (Rubiaceae) as a model group. The distribution of this family spans highland and montane habitats as well as tropical lowlands of Central and South America, thus offering a unique opportunity to study the influence of the Andean uplift on the entire Neotropical flora. Our results suggest that the Rubiaceae originated in the Paleotropics and used the boreotropical connection to reach South America. The biogeographic patterns found corroborate the existence of a long-lasting dispersal barrier between the Northern and Central Andes, the "Western Andean Portal". The uplift of the Eastern Cordillera ended this barrier, allowing dispersal of boreotropical lineages to the South, but gave rise to a huge wetland system ("Lake Pebas") in western Amazonia that prevented in situ speciation and floristic dispersal between the Andes and Amazonia for at least 6 million years. Here, we provide evidence of these events in plants.
VL - 106
UR - http://www.pnas.org/content/106/24/9749.abstract
ER -
TY - JOUR
T1 - Have giant lobelias evolved several times independently? Life form shifts and historical biogeography of the cosmopolitan and highly diverse subfamily Lobelioideae (Campanulaceae)
JF - Bmc Biology
Y1 - 2009
A1 - Antonelli, Alexandre
SP - 82
AB - BACKGROUND:The tendency of animals and plants to independently develop similar features under similar evolutionary pressures - convergence - is a widespread phenomenon in nature. In plants, convergence has been suggested to explain the striking similarity in life form between the giant lobelioids (Campanulaceae, the bellflower family) of Africa and the Hawaiian Islands. Under this assumption these plants would have developed the giant habit from herbaceous ancestors independently, in much the same way as has been suggested for the giant senecios of Africa and the silversword alliance of Hawaii.RESULTS:Phylogenetic analyses based on plastid (rbcL, trnL-F) and nuclear (internal transcribed spacer [ITS]) DNA sequences for 101 species in subfamily Lobelioideae demonstrate that the large lobelioids from eastern Africa the Hawaiian Islands, and also South America, French Polynesia and southeast Asia, form a strongly supported monophyletic group. Ancestral state reconstructions of life form and distribution, taking into account phylogenetic uncertainty, indicate their descent from a woody ancestor that was probably confined to Africa. Molecular dating analyses using Penalized Likelihood and Bayesian relaxed clock approaches, and combining multiple calibration points, estimate their first diversification at ~25-33 million years ago (Ma), shortly followed by several long-distance dispersal events that resulted in the current pantropical distribution.CONCLUSION:These results confidently show that lobelioid species, commonly called 'giant', are very closely related and have not developed their giant form from herbaceous ancestors independently. This study, which includes the hitherto largest taxon sampling for subfamily Lobelioideae, highlights the need for a broad phylogenetic framework for testing assumptions about morphological development in general, and convergent evolution in particular.
VL - 7
SN - 1741-7007
UR - http://www.biomedcentral.com/1741-7007/7/82
ER -
TY - JOUR
T1 - Higher level phylogeny and evolutionary trends in Campanulaceae subfam. Lobelioideae: Molecular signal overshadows morphology
JF - Molecular Phylogenetics and Evolution
Y1 - 2008
A1 - Antonelli, Alexandre
SP - 1
EP - 18
KW - Bayesian inference
KW - Campanulaceae
KW - Fruit evolution
KW - Lobelioideae (Lobeliaceae)
KW - ndhF
KW - rbcL
KW - SH test
KW - Systematics
KW - trnL-F
AB - Relationships within the subfamily Lobelioideae in Campanulaceae are inferred from DNA sequence variation in the rbcL and ndhF genes, and the trnL-F region including the trnL intron and the trnL-F intergenic spacer. Results derived from Bayesian and parsimony analyses provide evidence for the long-suspected paraphyly of the genus Lobelia, comprising over 400 species as presently circumscribed. The perennial dwarf herbs belonging to the Andean genus Lysipomia are sister to a group comprising the Neotropical shrubs Burmeistera, Centropogon, and Siphocampylus. Giant lobelioids from the Hawaiian Islands, Brazil, Africa, and Sri Lanka form a strongly supported group. Character optimizations on the phylogenetic tree reveal that shifts in fruit types and lignification have occurred much more commonly than generally assumed. The main clades in the subfamily are outlined, which largely contradict previous classifications based on morphology. © 2007 Elsevier Inc. All rights reserved.
VL - 46
UR - http://www.scopus.com/scopus/inward/record.url?eid=2-s2.0-37249069472&partnerID=40&rel=R7.0.0
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ER -
TY - JOUR
T1 - Physiological diversity and biogeography of vascular epiphytes at Río Changuinola, Panama
JF - Flora - Morphology, Distribution, Functional Ecology of Plants
Y1 - 2011
DO - DOI: 10.1016/j.flora.2010.01.011
A1 - Stefan Wester
A1 - Glenda Mendieta-Leiva
A1 - Lars Nauheimer
A1 - Wolfgang Wanek
A1 - Holger Kreft
A1 - Gerhard Zotz
SP - 66
EP - 79
KW - Floristic composition
VL - 206
UR - http://www.sciencedirect.com/science/article/B7GX0-5178VJS-1/2/8dc2de2078fe376c49fb71252ed0d933
ER -