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201. Figure 4 from: Compton JA, Schrire BD, Könyves K, Forest F, Malakasi P, Mattapha S, Sirichamorn Y (2019) The Callerya Group redefined and Tribe Wisterieae (Fabaceae) emended based on morphology and data from nuclear and chloroplast DNA sequences. PhytoKeys 125: 1-112. https://doi.org/10.3897/phytokeys.125.34877

Author

Compton, James A., primary, Schrire, Brian D., additional, Könyves, Kálmán, additional, Forest, Félix, additional, Malakasi, Panagiota, additional, Mattapha, Sawai, additional, and Sirichamorn, Yotsawate, additional

Published
2019
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202. Figure 1 from: Compton JA, Schrire BD, Könyves K, Forest F, Malakasi P, Mattapha S, Sirichamorn Y (2019) The Callerya Group redefined and Tribe Wisterieae (Fabaceae) emended based on morphology and data from nuclear and chloroplast DNA sequences. PhytoKeys 125: 1-112. https://doi.org/10.3897/phytokeys.125.34877

Author

Compton, James A., primary, Schrire, Brian D., additional, Könyves, Kálmán, additional, Forest, Félix, additional, Malakasi, Panagiota, additional, Mattapha, Sawai, additional, and Sirichamorn, Yotsawate, additional

Published
2019
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203. Figure 3 from: Compton JA, Schrire BD, Könyves K, Forest F, Malakasi P, Mattapha S, Sirichamorn Y (2019) The Callerya Group redefined and Tribe Wisterieae (Fabaceae) emended based on morphology and data from nuclear and chloroplast DNA sequences. PhytoKeys 125: 1-112. https://doi.org/10.3897/phytokeys.125.34877

Author

Compton, James A., primary, Schrire, Brian D., additional, Könyves, Kálmán, additional, Forest, Félix, additional, Malakasi, Panagiota, additional, Mattapha, Sawai, additional, and Sirichamorn, Yotsawate, additional

Published
2019
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204. Figure 2 from: Compton JA, Schrire BD, Könyves K, Forest F, Malakasi P, Mattapha S, Sirichamorn Y (2019) The Callerya Group redefined and Tribe Wisterieae (Fabaceae) emended based on morphology and data from nuclear and chloroplast DNA sequences. PhytoKeys 125: 1-112. https://doi.org/10.3897/phytokeys.125.34877

Author

Compton, James A., primary, Schrire, Brian D., additional, Könyves, Kálmán, additional, Forest, Félix, additional, Malakasi, Panagiota, additional, Mattapha, Sawai, additional, and Sirichamorn, Yotsawate, additional

Published
2019
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206. Figure 5 from: Compton JA, Schrire BD, Könyves K, Forest F, Malakasi P, Mattapha S, Sirichamorn Y (2019) The Callerya Group redefined and Tribe Wisterieae (Fabaceae) emended based on morphology and data from nuclear and chloroplast DNA sequences. PhytoKeys 125: 1-112. https://doi.org/10.3897/phytokeys.125.34877

Author

Compton, James A., primary, Schrire, Brian D., additional, Könyves, Kálmán, additional, Forest, Félix, additional, Malakasi, Panagiota, additional, Mattapha, Sawai, additional, and Sirichamorn, Yotsawate, additional

Published
2019
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207. Plate 3 from: Compton JA, Schrire BD, Könyves K, Forest F, Malakasi P, Mattapha S, Sirichamorn Y (2019) The Callerya Group redefined and Tribe Wisterieae (Fabaceae) emended based on morphology and data from nuclear and chloroplast DNA sequences. PhytoKeys 125: 1-112. https://doi.org/10.3897/phytokeys.125.34877

Author

Compton, James A., primary, Schrire, Brian D., additional, Könyves, Kálmán, additional, Forest, Félix, additional, Malakasi, Panagiota, additional, Mattapha, Sawai, additional, and Sirichamorn, Yotsawate, additional

Published
2019
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208. A phylogenomic analysis ofNepenthes(Nepenthaceae)

Author

Murphy, Bruce, primary, Forest, Félix, additional, Barraclough, Timothy, additional, Rosindell, James, additional, Bellot, Sidonie, additional, Cowan, Robyn, additional, Golos, Michal, additional, Jebb, Matthew, additional, and Cheek, Martin, additional

Published
2019
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211. Phylogenomics within the Anthonotha clade (Detarioideae, Leguminosae) reveals a high diversity in floral trait shifts and a general trend towards organ number reduction

Author

Ojeda, Dario I., primary, Koenen, Erik, additional, Cervantes, Sandra, additional, de la Estrella, Manuel, additional, Banguera-Hinestroza, Eulalia, additional, Janssens, Steven B., additional, Migliore, Jeremy, additional, Demenou, Boris, additional, Bruneau, Anne, additional, Forest, Félix, additional, and Hardy, Olivier J., additional

Published
2019
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213. Origin and global diversification patterns of tropical rain forests: inferences from a complete genus-level phylogeny of palms

Author

Couvreur Thomas LP, Forest Félix, and Baker William J

Subjects
Biology (General), QH301-705.5
Abstract

Abstract Background Understanding how biodiversity is shaped through time is a fundamental question in biology. Even though tropical rain forests (TRF) represent the most diverse terrestrial biomes on the planet, the timing, location and mechanisms of their diversification remain poorly understood. Molecular phylogenies are valuable tools for exploring these issues, but to date most studies have focused only on recent time scales, which minimises their explanatory potential. In order to provide a long-term view of TRF diversification, we constructed the first complete genus-level dated phylogeny of a largely TRF-restricted plant family with a known history dating back to the Cretaceous. Palms (Arecaceae/Palmae) are one of the most characteristic and ecologically important components of TRF worldwide, and represent a model group for the investigation of TRF evolution. Results We provide evidence that diversification of extant lineages of palms started during the mid-Cretaceous period about 100 million years ago. Ancestral biome and area reconstructions for the whole family strongly support the hypothesis that palms diversified in a TRF-like environment at northern latitudes. Finally, our results suggest that palms conform to a constant diversification model (the 'museum' model or Yule process), at least until the Neogene, with no evidence for any change in diversification rates even through the Cretaceous/Paleogene mass extinction event. Conclusions Because palms are restricted to TRF and assuming biome conservatism over time, our results suggest the presence of a TRF-like biome in the mid-Cretaceous period of Laurasia, consistent with controversial fossil evidence of the earliest TRF. Throughout its history, the TRF biome is thought to have been highly dynamic and to have fluctuated greatly in extent, but it has persisted even during climatically unfavourable periods. This may have allowed old lineages to survive and contribute to the steady accumulation of diversity over time. In contrast to other plant studies, our results suggest that ancient and steady evolutionary processes dating back to the mid-Cretaceous period can contribute, at least in part, to present day species richness in TRF.

Published
2011
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214. Consistent phenological shifts in the making of a biodiversity hotspot: the Cape flora

Author

Quint Marcus, Oberlander Kenneth C, Mummenhoff Klaus, Muasya A Muthama, Linder H Peter, Hardy Christopher R, Galley Chloé, Forest Félix, Edwards Dawn, Dreyer Léanne L, Claßen-Bockhoff Regine, Bytebier Benny, Bellstedt Dirk U, Bakker Freek T, Warren Ben H, Richardson James E, Savolainen Vincent, Schrire Brian D, van der Niet Timotheüs, Verboom G Anthony, Yesson Christopher, and Hawkins Julie A

Subjects
Evolution, QH359-425
Abstract

Abstract Background The best documented survival responses of organisms to past climate change on short (glacial-interglacial) timescales are distributional shifts. Despite ample evidence on such timescales for local adaptations of populations at specific sites, the long-term impacts of such changes on evolutionary significant units in response to past climatic change have been little documented. Here we use phylogenies to reconstruct changes in distribution and flowering ecology of the Cape flora - South Africa's biodiversity hotspot - through a period of past (Neogene and Quaternary) changes in the seasonality of rainfall over a timescale of several million years. Results Forty-three distributional and phenological shifts consistent with past climatic change occur across the flora, and a comparable number of clades underwent adaptive changes in their flowering phenology (9 clades; half of the clades investigated) as underwent distributional shifts (12 clades; two thirds of the clades investigated). Of extant Cape angiosperm species, 14-41% have been contributed by lineages that show distributional shifts consistent with past climate change, yet a similar proportion (14-55%) arose from lineages that shifted flowering phenology. Conclusions Adaptive changes in ecology at the scale we uncover in the Cape and consistent with past climatic change have not been documented for other floras. Shifts in climate tolerance appear to have been more important in this flora than is currently appreciated, and lineages that underwent such shifts went on to contribute a high proportion of the flora's extant species diversity. That shifts in phenology, on an evolutionary timescale and on such a scale, have not yet been detected for other floras is likely a result of the method used; shifts in flowering phenology cannot be detected in the fossil record.

Published
2011
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215. A Universal Probe Set for Targeted Sequencing of 353 Nuclear Genes from Any Flowering Plant Designed Using k-Medoids Clustering

Author

Johnson, Matthew G, primary, Pokorny, Lisa, additional, Dodsworth, Steven, additional, Botigué, Laura R, additional, Cowan, Robyn S, additional, Devault, Alison, additional, Eiserhardt, Wolf L, additional, Epitawalage, Niroshini, additional, Forest, Félix, additional, Kim, Jan T, additional, Leebens-Mack, James H, additional, Leitch, Ilia J, additional, Maurin, Olivier, additional, Soltis, Douglas E, additional, Soltis, Pamela S, additional, Wong, Gane Ka-shu, additional, Baker, William J, additional, and Wickett, Norman J, additional

Published
2018
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216. Crop wild phylorelatives (CWPs): phylogenetic distance, cytogenetic compatibility and breeding system data enable estimation of crop wild relative gene pool classification.

Author

Viruel, Juan, Kantar, Michael B, Gargiulo, Roberta, Hesketh-Prichard, Peri, Leong, Nathan, Cockel, Christopher, Forest, Félix, Gravendeel, Barbara, Pérez-Barrales, Rocío, Leitch, Ilia J, and Wilkin, Paul

Subjects
PLANT breeding, PLANTS, CLASSIFICATION, GERMPLASM, BREEDING, ASPARAGUS, WILD flowers
Abstract

Enabling food security requires access to a broad range of genetic resources to facilitate crop breeding. This need is increased in a climate change scenario, which will require the production of novel crops adapted to new conditions. However, many major crops have reduced genetic diversity due to the genetic bottlenecks that they have experienced during their domestication and subsequent breeding. Crop wild relatives (CWRs) remain underexploited in plant breeding programmes, mostly because of the lack of knowledge of their cross-compatibility with crops. In this study, we use a combination of phylogenetic distance metrics, cytogenetic compatibility data (e.g. chromosome number and ploidy) and information about breeding systems to predict interspecific cross-compatibility between crop and wild species and hence identify crop wild phylorelatives (CWPs) (i.e. CWRs that can breed with the crop). We illustrate this concept using cultivated asparagus as a model by integrating previous cross-compatibility knowledge and CWR classifications into a phylogenetic framework reconstructed using available sequence data. Our approach aims to reinforce the use of the gene pool classification system of CWRs of Harlan and De Wet, since CWPs are estimated to belong to the secondary gene pool and non-CWPs to the tertiary gene pool. Identifying CWPs unlocks novel uses of genetic resources, although such data are available for less than half of the known CWRs (43.4% with sequence data and 32.5% with known ploidy). The need to conserve plants that provide or enhance provisioning ecosystem services, including CWRs, is clear if we are to rise to the global challenge of ensuring food security for all. However, basic knowledge about their conservation status is still lacking, with only c. 20% of CWRs assigned an IUCN red list assessment, 23% of which are Data Deficient (DD). Using the CWP classification presented here to define CWRs will contribute towards helping to prioritize CWRs for IUCN assessments and, where prioritised, conservation. [ABSTRACT FROM AUTHOR]

Published
2021
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217. Potential of Herbariomics for Studying Repetitive DNA in Angiosperms

Author

Dodsworth, Steven, primary, Guignard, Maïté S., additional, Christenhusz, Maarten J. M., additional, Cowan, Robyn S., additional, Knapp, Sandra, additional, Maurin, Olivier, additional, Struebig, Monika, additional, Leitch, Andrew R., additional, Chase, Mark W., additional, and Forest, Félix, additional

Published
2018
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220. A Universal Probe Set for Targeted Sequencing of 353 Nuclear Genes from Any Flowering Plant Designed Using k-medoids Clustering

Author

Johnson, Matthew G., primary, Pokorny, Lisa, additional, Dodsworth, Steven, additional, Botigue, Laura R., additional, Cowan, Robyn S., additional, Devault, Alison, additional, Eiserhardt, Wolf L., additional, Epitawalage, Niroshini, additional, Forest, Félix, additional, Kim, Jan T., additional, Leebens-Mack, James H., additional, Leitch, Ilia J., additional, Maurin, Olivier, additional, Soltis, Douglas E., additional, Soltis, Pamela S., additional, Wong, Gane Ka-Shu, additional, Baker, William J., additional, and Wickett, Norman J., additional

Published
2018
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223. Gymnosperms on the EDGE

Author

Forest, Félix, primary, Moat, Justin, additional, Baloch, Elisabeth, additional, Brummitt, Neil A., additional, Bachman, Steve P., additional, Ickert-Bond, Steffi, additional, Hollingsworth, Peter M., additional, Liston, Aaron, additional, Little, Damon P., additional, Mathews, Sarah, additional, Rai, Hardeep, additional, Rydin, Catarina, additional, Stevenson, Dennis W., additional, Thomas, Philip, additional, and Buerki, Sven, additional

Published
2018
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225. Genomics of the divergence continuum in an African plant biodiversity hotspot, I Drivers of population divergence in Restio capensis (Restionaceae)

Author

Heuertz, Myriam [0000-0002-6322-3645], Forest, Félix [0000-0002-2004-433X], Lexer, C., Wüest, Rafael O., Mangili, S., Heuertz, Myriam, Stölting, K. N., Pearman, P. B., Forest, Félix, Salamin, N., Zimmermann, N. E., Bossolini, E., Heuertz, Myriam [0000-0002-6322-3645], Forest, Félix [0000-0002-2004-433X], Lexer, C., Wüest, Rafael O., Mangili, S., Heuertz, Myriam, Stölting, K. N., Pearman, P. B., Forest, Félix, Salamin, N., Zimmermann, N. E., and Bossolini, E.

Abstract

Understanding the drivers of population divergence, speciation and species persistence is of great interest to molecular ecology, especially for species-rich radiations inhabiting the world's biodiversity hotspots. The toolbox of population genomics holds great promise for addressing these key issues, especially if genomic data are analysed within a spatially and ecologically explicit context. We have studied the earliest stages of the divergence continuum in the Restionaceae, a species-rich and ecologically important plant family of the Cape Floristic Region (CFR) of South Africa, using the widespread CFR endemic Restio capensis (L.) H.P. Linder & C.R. Hardy as an example. We studied diverging populations of this morphotaxon for plastid DNA sequences and >14 400 nuclear DNA polymorphisms from Restriction site Associated DNA (RAD) sequencing and analysed the results jointly with spatial, climatic and phytogeographic data, using a Bayesian generalized linear mixed modelling (GLMM) approach. The results indicate that population divergence across the extreme environmental mosaic of the CFR is mostly driven by isolation by environment (IBE) rather than isolation by distance (IBD) for both neutral and non-neutral markers, consistent with genome hitchhiking or coupling effects during early stages of divergence. Mixed modelling of plastid DNA and single divergent outlier loci from a Bayesian genome scan confirmed the predominant role of climate and pointed to additional drivers of divergence, such as drift and ecological agents of selection captured by phytogeographic zones. Our study demonstrates the usefulness of population genomics for disentangling the effects of IBD and IBE along the divergence continuum often found in species radiations across heterogeneous ecological landscapes. © 2014 John Wiley & Sons Ltd.

Published
2014

226. The abrupt climate change at the Eocene-Oligocene boundary and the emergence of South-East Asia triggered the spread of sapindaceous lineages

Author

Buerki, Sven, Forest, Félix, Stadler, Tanja, Alvarez, Nadir, Buerki, Sven, Forest, Félix, Stadler, Tanja, and Alvarez, Nadir

Abstract

Background and Aims Paleoclimatic data indicate that an abrupt climate change occurred at the Eocene-Oligocene (E-O) boundary affecting the distribution of tropical forests on Earth. The same period has seen the emergence of South-East (SE) Asia, caused by the collision of the Eurasian and Australian plates. How the combination of these climatic and geomorphological factors affected the spatio-temporal history of angiosperms is little known. This topic is investigated by using the worldwide sapindaceous clade as a case study. Methods Analyses of divergence time inference, diversification and biogeography (constrained by paleogeography) are applied to a combined plastid and nuclear DNA sequence data set. Biogeographical and diversification analyses are performed over a set of trees to take phylogenetic and dating uncertainty into account. Results are analysed in the context of past climatic fluctuations. Key Results An increase in the number of dispersal events at the E-O boundary is recorded, which intensified during the Miocene. This pattern is associated with a higher rate in the emergence of new genera. These results are discussed in light of the geomorphological importance of SE Asia, which acted as a tropical bridge allowing multiple contacts between areas and additional speciation across landmasses derived from Laurasia and Gondwana. Conclusions This study demonstrates the importance of the combined effect of geomorphological (the emergence of most islands in SE Asia approx. 30 million years ago) and climatic (the dramatic E-O climate change that shifted the tropical belt and reduced sea levels) factors in shaping species distribution within the sapindaceous clade

Published
2017

227. The evolutionary history of Eugenia sect. Phyllocalyx (Myrtaceae) corroborates historically stable areas in the southern Atlantic forests

Author

Bünger, Mariana de Oliveira, Mazine, Fiorella Fernanda, Forest, Félix, Bueno, Marcelo Leandro, Stehmann, João Renato, and Lucas, Eve J.

Subjects
Pleistocene, Biome shifts, Myrtaceae, Diversity patterns
Abstract

Background and aims: Eugenia sect. Phyllocalyx Nied. includes 14 species endemic to the Neotropics, mostly distributed in the Atlantic coastal forests of Brazil. Here the first comprehensive phylogenetic study of this group is presented, and this phylogeny is used as the basis to evaluate the recent infrageneric classification in Eugenia sensu lato (s.l.) to test the history of the evolution of traits in the group and test hypotheses associated with the history of this clade. Methods: A total of 42 taxa were sampled, of which 14 were Eugenia sect. Phyllocalyx for one nuclear (ribosomal internal transcribed spacer) and four plastid markers (psbA-trnH, rpl16, trnL-rpl32 and trnQ-rps16). The relationships were reconstructed based on Bayesian analysis and maximum likelihood. Additionally, ancestral area analysis and modelling methods were used to estimate species dispersal, comparing historically climatic stable (refuges) and unstable areas. Key results: Maximum likelihood and Bayesian inferences indicate that Eugenia sect. Phyllocalyx is paraphyletic and the two clades recovered are characterized by combinations of morphological characters. Phylogenetic relationships support a link between Cerrado and south-eastern species and a difference in the composition of species from north-eastern and south-eastern Atlantic forest. Refugia and stable areas identified within unstable areas suggest that these areas were important to maintain diversity in the Atlantic forest biodiversity hotspot. Conclusion: This study provides a robust phylogenetic framework to address important historical questions for Eugenia s.l. within an evolutionary context, supporting the need for better taxonomic study of one of the largest genera in the Neotropics. Furthermore, valuable insight is offered into diversification and biome shifts of plant species in the highly environmentally impacted Atlantic forest of South America. Evidence is presented that climate stability in the south-eastern Atlantic forest during the Quaternary contributed to the highest levels of plant diversity in this region that acted as a refugium.

Published
2016

228. Resprouter fraction in Cape Restionaceae assemblages varies with climate and soil type

Author

Wüest, Rafael O, Litsios, Glenn, Forest, Félix, Lexer, Christian, Linder, H Peter, Salamin, Nicolas, Zimmermann, Niklaus E, Pearman, Peter B, University of Zurich, and Wüest, Rafael O

Subjects
10121 Department of Systematic and Evolutionary Botany, 1105 Ecology, Evolution, Behavior and Systematics, 580 Plants (Botany), 10211 Zurich-Basel Plant Science Center
Published
2016

233. Universal Probe Set for Targeted Sequencing of 353 Nuclear Genes from Any Flowering Plant Designed Using k-Medoids Clustering.

Author

Johnson, Matthew G, Pokorny, Lisa, Dodsworth, Steven, Botigué, Laura R, Cowan, Robyn S, Devault, Alison, Eiserhardt, Wolf L, Epitawalage, Niroshini, Forest, Félix, Kim, Jan T, Leebens-Mack, James H, Leitch, Ilia J, Maurin, Olivier, Soltis, Douglas E, Soltis, Pamela S, Wong, Gane Ka-shu, Baker, William J, and Wickett, Norman J

Subjects
FACTORY design & construction, BOTANY, ORYZA, GENES, ART & science, LIFE sciences, ANGIOSPERMS
Published
2019
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234. Madagascar's grasses and grasslands: anthropogenic or natural?

Author

Vorontsova, Maria S, Besnard, Guillaume, Forest, Félix, Malakasi, Panagiota, Moat, Justin, Clayton, W Derek, Ficinski, Paweł, Savva, George M, Nanjarisoa, Olinirina P, Razanatsoa, Jacqueline, Randriatsara, Fetra O, Kimeu, John M, Luke, W R Quentin, Kayombo, Canisius, Linder, H Peter, Vorontsova, Maria S, Besnard, Guillaume, Forest, Félix, Malakasi, Panagiota, Moat, Justin, Clayton, W Derek, Ficinski, Paweł, Savva, George M, Nanjarisoa, Olinirina P, Razanatsoa, Jacqueline, Randriatsara, Fetra O, Kimeu, John M, Luke, W R Quentin, Kayombo, Canisius, and Linder, H Peter

Abstract

Grasses, by their high productivity even under very low pCO2, their ability to survive repeated burning and to tolerate long dry seasons, have transformed the terrestrial biomes in the Neogene and Quaternary. The expansion of grasslands at the cost of biodiverse forest biomes in Madagascar is often postulated as a consequence of the Holocene settlement of the island by humans. However, we show that the Malagasy grass flora has many indications of being ancient with a long local evolutionary history, much predating the Holocene arrival of humans. First, the level of endemism in the Madagascar grass flora is well above the global average for large islands. Second, a survey of many of the more diverse areas indicates that there is a very high spatial and ecological turnover in the grass flora, indicating a high degree of niche specialization. We also find some evidence that there are both recently disturbed and natural stable grasslands: phylogenetic community assembly indicates that recently severely disturbed grasslands are phylogenetically clustered, whereas more undisturbed grasslands tend to be phylogenetically more evenly distributed. From this evidence, it is likely that grass communities existed in Madagascar long before human arrival and so were determined by climate, natural grazing and other natural factors. Humans introduced zebu cattle farming and increased fire frequency, and may have triggered an expansion of the grasslands. Grasses probably played the same role in the modification of the Malagasy environments as elsewhere in the tropics.

Published
2016

239. Madagascar's grasses and grasslands: anthropogenic or natural?

Author

Vorontsova, Maria S., primary, Besnard, Guillaume, additional, Forest, Félix, additional, Malakasi, Panagiota, additional, Moat, Justin, additional, Clayton, W. Derek, additional, Ficinski, Paweł, additional, Savva, George M., additional, Nanjarisoa, Olinirina P., additional, Razanatsoa, Jacqueline, additional, Randriatsara, Fetra O., additional, Kimeu, John M., additional, Luke, W. R. Quentin, additional, Kayombo, Canisius, additional, and Linder, H. Peter, additional

Published
2016
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241. A Molecular Phylogeny and New Infrageneric Classification ofMucunaAdans. (Leguminosae-Papilionoideae) including Insights from Morphology and Hypotheses about Biogeography

Author

Moura, Tania M., primary, Vatanparast, Mohammad, additional, Tozzi, Ana M. G. A., additional, Forest, Félix, additional, Wilmot-Dear, C. Melanie, additional, Simon, Marcelo F., additional, Mansano, Vidal F., additional, Kajita, Tadashi, additional, and Lewis, Gwilym P., additional

Published
2016
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242. Evolutionary history and leaf succulence as explanations for medicinal use in aloes and the global popularity of Aloe vera

Author

Grace, Olwen M., Buerki, Sven, Symonds, Matthew R. E., Forest, Félix, van Wyk, Abraham E., Smith, Gideon F., Klopper, Ronell R., Bjorå, Charlotte S., Neale, Sophie, Demissew, Sebsebe, Simmonds, Monique S.J., Rønsted, Nina, Grace, Olwen M., Buerki, Sven, Symonds, Matthew R. E., Forest, Félix, van Wyk, Abraham E., Smith, Gideon F., Klopper, Ronell R., Bjorå, Charlotte S., Neale, Sophie, Demissew, Sebsebe, Simmonds, Monique S.J., and Rønsted, Nina

Abstract

BACKGROUND: Aloe vera supports a substantial global trade yet its wild origins, and explanations for its popularity over 500 related Aloe species in one of the world's largest succulent groups, have remained uncertain. We developed an explicit phylogenetic framework to explore links between the rich traditions of medicinal use and leaf succulence in aloes. RESULTS: The phylogenetic hypothesis clarifies the origins of Aloe vera to the Arabian Peninsula at the northernmost limits of the range for aloes. The genus Aloe originated in southern Africa ~16 million years ago and underwent two major radiations driven by different speciation processes, giving rise to the extraordinary diversity known today. Large, succulent leaves typical of medicinal aloes arose during the most recent diversification ~10 million years ago and are strongly correlated to the phylogeny and to the likelihood of a species being used for medicine. A significant, albeit weak, phylogenetic signal is evident in the medicinal uses of aloes, suggesting that the properties for which they are valued do not occur randomly across the branches of the phylogenetic tree. CONCLUSIONS: Phylogenetic investigation of plant use and leaf succulence among aloes has yielded new explanations for the extraordinary market dominance of Aloe vera. The industry preference for Aloe vera appears to be due to its proximity to important historic trade routes, and early introduction to trade and cultivation. Well-developed succulent leaf mesophyll tissue, an adaptive feature that likely contributed to the ecological success of the genus Aloe, is the main predictor for medicinal use among Aloe species, whereas evolutionary loss of succulence tends to be associated with losses of medicinal use. Phylogenetic analyses of plant use offer potential to understand patterns in the value of global plant diversity.

Published
2015

243. Evolutionary history and leaf succulence as explanations for medicinal use in aloes and the global popularity of Aloe vera

Author

Grace, Olwen Megan, Buerki, Sven, Symonds, Matthew RE, Forest, Félix, van Wyk, Abraham E, Smith, Gideon, Klopper, Ronell R., Bjora, Charlotte S, Neale, Sophie, Sebsebe, Demissew, Simmonds, Monique SJ, Rønsted, Nina, Grace, Olwen Megan, Buerki, Sven, Symonds, Matthew RE, Forest, Félix, van Wyk, Abraham E, Smith, Gideon, Klopper, Ronell R., Bjora, Charlotte S, Neale, Sophie, Sebsebe, Demissew, Simmonds, Monique SJ, and Rønsted, Nina

Abstract

Background: Aloe vera supports a substantial global trade yet its wild origins, and explanations for its popularity over 500 related Aloe species in one of the world’s largest succulent groups, have remained uncertain. We developed an explicit phylogenetic framework to explore links between the rich traditions of medicinal use and leaf succulence in aloes. Results: The phylogenetic hypothesis clarifies the origins of Aloe vera to the Arabian Peninsula at the northernmost limits of the range for aloes. The genus Aloe originated in southern Africa ~16 million years ago and underwent two major radiations driven by different speciation processes, giving rise to the extraordinary diversity known today. Large, succulent leaves typical of medicinal aloes arose during the most recent diversification ~10 million years ago and are strongly correlated to the phylogeny and to the likelihood of a species being used for medicine. A significant, albeit weak, phylogenetic signal is evident in the medicinal uses of aloes, suggesting that the properties for which they are valued do not occur randomly across the branches of the phylogenetic tree. Conclusions: Phylogenetic investigation of plant use and leaf succulence among aloes has yielded new explanations for the extraordinary market dominance of Aloe vera. The industry preference for Aloe vera appears to be due to its proximity to important historic trade routes, and early introduction to trade and cultivation. Well-developed succulent leaf mesophyll tissue, an adaptive feature that likely contributed to the ecological success of the genus Aloe, is the main predictor for medicinal use among Aloe species, whereas evolutionary losses of succulence tend to be associated with losses of medicinal use. Phylogenetic analyses of plant use offer potential to understand patterns in the value of global plant diversity.

Published
2015

246. Effects of a Fire Response Trait on Diversification in Replicated Radiations

Author

Litsios, Glenn, Wüest, Rafael O, Kostikova, Anna, Forest, Félix, Lexer, Christian, Linder, H Peter, Pearman, Peter B, Zimmermann, Niklaus E, Salamin, Nicolas, and University of Zurich

Subjects
10121 Department of Systematic and Evolutionary Botany, 1105 Ecology, Evolution, Behavior and Systematics, 1311 Genetics, 1100 General Agricultural and Biological Sciences, 580 Plants (Botany)
Abstract

Fire has been proposed as a factor explaining the exceptional plant species richness found in Mediterranean regions. A fire response trait that allows plants to cope with frequent fire by either reseeding or resprouting could differentially affect rates of species diversification. However, little is known about the generality of the effects of differing fire response on species evolution. We study this question in the Restionaceae, a family that radiated in Southern Africa and Australia. These radiations occurred independently and represent evolutionary replicates. We apply Bayesian approaches to estimate trait-specific diversification rates and patterns of climatic niche evolution. We also compare the climatic heterogeneity of South Africa and Australia. Reseeders diversify faster than resprouters in South Africa, but not in Australia. We show that climatic preferences evolve more rapidly in reseeder lineages than in resprouters and that the optima of these climatic preferences differ between the two strategies. We find that South Africa is more climatically heterogeneous than Australia, independent of the spatial scale we consider. We propose that rapid shifts between states of the fire response trait promote speciation by separating species ecologically, but this only happens when the landscape is sufficiently heterogeneous.

Published
2013

247. Phylogeny and biogeography of the hyper-diverse genus Eugenia (Myrtaceae: Myrteae), with emphasis on E. sect. Umbellatae, the most unmanageable clade.

Author

Mazine, Fiorella Fernanda, Faria, Jair Eustáquio Quintino, Giaretta, Augusto, Vasconcelos, Thais, Forest, Félix, and Lucas, Eve

Subjects
PLANT phylogeny, BIOGEOGRAPHY, MYRTACEAE
Abstract

Eugenia, comprising ca. 1100 species, is the largest genus of Neotropical Myrtaceae. Eugenia sect. Umbellatae (formerly referred to as "clade 9") is the most speciose lineage of Eugenia. This study aims to better delimit E. sect. Umbellatae, to identify and understand relationships between manageable subgroups of this large clade for future discrete systematic studies and to explain biogeographical patterns in the genus. In total, 103 samples were used in this study. These include representatives of the nine clades of the "Eugenia group" with a particular focus on Eugenia clade 9, representing the morphological and geographical diversity found in the genus. Phylogenetic reconstructions were performed using maximum likelihood (ML) and Bayesian inference (BI) for the combined dataset, using the markers ITS, rpl16, psbA-trnH, rpl32-trnL, trnQ-rps16. The resultant tree was fossil calibrated and used for historical biogeographical analysis using DEC implemented in RASP. The mid Oligocene is the most likely period in which the crown node of Eugenia s.l. diversified. The earliest Eugenia appear to be associated with dry biomes and to have arisen from non-tropical southern South America, as did ancestors of the earliest American Myrteae. Eugenia subg. Pseudeugenia also most likely diversified in dry biomes, while E. subg. Hexachlamys and E. subg. Eugenia are likely to have diverged in the Atlantic Forests biome. Eugenia sect. Umbellatae is morphologically very variable,some clades can be circumscribed based on morphology while some remain morphologically undiagnosable. The study presented here provides discussion of the earliest origins of Eugenia and its response to climate-driven changes in the Neotropics as humid, forest biomes became more widespread in the Miocene. In addition, important practical conclusions are drawn regarding relationships within Eugenia. Three clades are newly classified as subgenera: E. subg. Pseudeugenia (including species of E. sect. Pseudeugenia),E. subg. Hexachlamys (including E. sect. Hexachlamys) and E. subg. Eugenia (including E. sect. Umbellatae, E. sect. Jossinia, E. sect. Phyllocalyx, E. sect. Pilothecium, E. sect. Racemosae, E. sect. Schizocalomyrtus, E. sect. Speciosae and Eugenia sect. Excelsae). Two previously unidentified clades are published as E. sect. Excelsae and recognized as E. sect. Jossinia, the latter consisting entirely of Old World species. [ABSTRACT FROM AUTHOR]

Published
2018
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248. Earth BioGenome Project: Sequencing life for the future of life.

Author

Lewin, Harris A., Robinson, Gene E., Kress, W. John, Baker, William J., Coddington, Jonathan, Crandall, Keith A., Durbin, Richard, Edwards, Scott V., Forest, Félix, Gilbert, M. Thomas P., Goldstein, Melissa M., Grigoriev, Igor V., Hackett, Kevin J., Haussler, David, Jarvis, Erich D., Johnson, Warren E., Patrinos, Aristides, Richards, Stephen, Castilla-Rubio, Juan Carlos, and Van Sluys, Marie-Anne

Subjects
NUCLEOTIDE sequencing, GENOMICS, DATA science, EUKARYOTIC cells, DATA analysis
Abstract

Increasing our understanding of Earth's biodiversity and responsibly stewarding its resources are among the most crucial scientific and social challenges of the new millennium. These challenges require fundamental new knowledge of the organization, evolution, functions, and interactions among millions of the planet's organisms. Herein, we present a perspective on the Earth BioGenome Project (EBP), a moonshot for biology that aims to sequence, catalog, and characterize the genomes of all of Earth's eukaryotic biodiversity over a period of 10 years. The outcomes of the EBP will inform a broad range of major issues facing humanity, such as the impact of climate change on biodiversity, the conservation of endangered species and ecosystems, and the preservation and enhancement of ecosystem services. We describe hurdles that the project faces, including data-sharing policies that ensure a permanent, freely available resource for future scientific discovery while respecting access and benefit sharing guidelines of the Nagoya Protocol. We also describe scientific and organizational challenges in executing such an ambitious project, and the structure proposed to achieve the project's goals. The far-reaching potential benefits of creating an open digital repository of genomic information for life on Earth can be realized only by a coordinated international effort. [ABSTRACT FROM AUTHOR]

Published
2018
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249. A roadmap for global synthesis of the plant tree of life.

Author

Botigué, Laura R., Dodsworth, Steven, Forest, Félix, Kim, Jan T., Leitch, Ilia J., Pérez‐Escobar, Oscar A., Pokorny, Lisa, Baker, William J., Eiserhardt, Wolf L., Mirarab, Siavash, Piel, William H., Rahbek, Carsten, Sandel, Brody, Smith, Stephen A., Vos, Rutger A., Warnow, Tandy, Antonelli, Alexandre, Bennett, Dominic J., Burleigh, J. Gordon, and Maitner, Brian S.

Subjects
PLANT phylogeny, BRYOPHYTES, NUCLEOTIDE sequencing
Abstract

Abstract: Providing science and society with an integrated, up‐to‐date, high quality, open, reproducible and sustainable plant tree of life would be a huge service that is now coming within reach. However, synthesizing the growing body of DNA sequence data in the public domain and disseminating the trees to a diverse audience are often not straightforward due to numerous informatics barriers. While big synthetic plant phylogenies are being built, they remain static and become quickly outdated as new data are published and tree‐building methods improve. Moreover, the body of existing phylogenetic evidence is hard to navigate and access for non‐experts. We propose that our community of botanists, tree builders, and informaticians should converge on a modular framework for data integration and phylogenetic analysis, allowing easy collaboration, updating, data sourcing and flexible analyses. With support from major institutions, this pipeline should be re‐run at regular intervals, storing trees and their metadata long‐term. Providing the trees to a diverse global audience through user‐friendly front ends and application development interfaces should also be a priority. Interactive interfaces could be used to solicit user feedback and thus improve data quality and to coordinate the generation of new data. We conclude by outlining a number of steps that we suggest the scientific community should take to achieve global phylogenetic synthesis. [ABSTRACT FROM AUTHOR]

Published
2018
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250. Benstonea thurstonii Callm. & Buerki, comb. nova

Author

Callmander, Martin W., Lowry Ii, Porter P., Forest, Félix, Devey, Dion S., Beentje, Henk, and Buerki, Sven

Subjects
Benstonea thurstonii, Tracheophyta, Liliopsida, Pandanales, Biodiversity, Plantae, Pandanaceae, Benstonea, Taxonomy
Abstract

44. Benstonea thurstonii (C. H. Wright) Callm. & Buerki, comb. nova. ≡ Pandanus thurstonii C. H. Wright in Bull. Misc. Inform. Kew 1894: 348. 1894. Typus: FIJI. Viti Levu: V.1894, J. B. Thurston s.n. (holo-: K!; iso-: FI [FI003945]!). Distribution and ecology. – Benstonea thurstonii is endemic to Fiji and has been recorded on the islands of Viti Lev and Koro, and has recently been collected on Vanua Levu (Fig. 6).

Published
2012
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