With contributions by: Abreu, Maria C.; Acevedo-Rodríguez, Pedro; Agra, Maria F.; Almeida Jr., Eduardo B.; Almeida, Gracineide S.S.; Almeida, Rafael F.; Alves, Flávio M.; Alves, Marccus; Alves-Araujo, Anderson; Amaral, Maria C.E.; Amorim, André M.; Amorim, Bruno; Andrade, Ivanilza M.; Andreata, Regina H.P.; Andrino, Caroline O.; Anunciação, Elisete A.; Aona, Lidyanne Y.S.; Aranguren, Yani; Aranha Filho, João L.M.; Araújo, Andrea O.; Araújo, Ariclenes A.M.; Araújo, Diogo; Arbo, María M.; Assis, Leandro; Assis, Marta C.; Assunção, Vivian A.; Athiê-Souza, Sarah M.; Azevedo, Cecilia O.; Baitello, João B.; Barberena, Felipe F.V.A.; Barbosa, Maria R.V.; Barros, Fábio; Barros, Lucas A.V.; Barros, Michel J.F.; Baumgratz, José F.A.; Bernacci, Luis C.; Berry, Paul E.; Bigio, Narcísio C.; Biral, Leonardo; Bittrich, Volker; Borges, Rafael A.X.; Bortoluzzi, Roseli L.C.; Bove, Cláudia P.; Bovini, Massimo G.; Braga, João M.A.; Braz, Denise M.; Bringel Jr., João B.A.; Bruniera, Carla P.; Buturi, Camila V.; Cabral, Elza; Cabral, Fernanda N.; Caddah, Mayara K.; Caires, Claudenir S.; Calazans, Luana S.B.; Calió, Maria F.; Camargo, Rodrigo A.; Campbell, Lisa; Canto-Dorow, Thais S.; Carauta, Jorge P.P. †; Cardiel, José M.; Cardoso, Domingos B.O.S.; Cardoso, Leandro J.T.; Carneiro, Camila R.; Carneiro, Cláudia E.; Carneiro-Torres, Daniela S.; Carrijo, Tatiana T.; Caruzo, Maria B.R.; Carvalho, Maria L.S.; Carvalho-Silva, Micheline; Castello, Ana C.D.; Cavalheiro, Larissa; Cervi, Armando C. †; Chacon, Roberta G.; Chautems, Alain; Chiavegatto, Berenice; Chukr, Nádia S.; Coelho, Alexa A.O.P.; Coelho, Marcus A.N.; Coelho, Rubens L.G.; Cordeiro, Inês; Cordula, Elizabeth; Cornejo, Xavier; Côrtes, Ana L.A.; Costa, Andrea F.; Costa, Fabiane N.; Costa, Jorge A.S.; Costa, Leila C.; Costa-e-Silva, Maria B.; Costa-Lima, James L.; Cota, Maria R.C.; Couto, Ricardo S.; Daly, Douglas C.; De Stefano, Rodrigo D.; De Toni, Karen; Dematteis, Massimiliano; Dettke, Greta A.; Di Maio, Fernando R.; Dórea, Marcos C.; Duarte, Marília C.; Dutilh, Julie H.A.; Dutra, Valquíria F.; Echternacht, Lívia; Eggers, Lilian; Esteves, Gerleni; Ezcurra, Cecilia; Falcão Junior, Marcus J.A.; Feres, Fabíola; Fernandes, José M.; Ferreira, D.M.C.; Ferreira, Fabrício M.; Ferreira, Gabriel E.; Ferreira, Priscila P.A.; Ferreira, Silvana C.; Ferrucci, Maria S.; Fiaschi, Pedro; Filgueiras, Tarciso S.; Firens, Marcela; Flores, Andreia S.; Forero, Enrique; Forster, Wellington; Fortuna-Perez, Ana P.; Fortunato, Reneé H.; Fraga, Cláudio N.; França, Flávio; Francener, Augusto; Freitas, Joelcio; Freitas, Maria F.; Fritsch, Peter W.; Furtado, Samyra G.; Gaglioti, André L.; Garcia, Flávia C.P.; Germano Filho, Pedro; Giacomin, Leandro; Gil, André S.B.; Giulietti, Ana M.; Godoy, Silvana A.P. ; Goldenberg, Renato; Gomes da Costa, Géssica A.; Gomes, Mário; Gomes-Klein, Vera L.; Gonçalves, Eduardo Gomes; Graham, Shirley; Groppo, Milton; Guedes. Juliana S.; Guimarães, Leonardo R.S.; Guimarães, Paulo J.F.; Guimarães, Elsie F.; Gutierrez, Raul; Harley, Raymond; Hassemer, Gus...
Molecular phylogenetic studies have become a major area of interest in plant systematics, and their impacts on historical biogeographic hypotheses are not to be disregarded. In Brazil, most historical biogeographic studies have relied on animal phylogenies, whereas plant biogeographic studies have largely lacked a phylogenetic component, having a limited utility for historical biogeography. That country, however, is of great importance for most biogeographic studies of lowland tropical South America, and it includes areas from a number of biogeographic regions of the continent. Important biogeographic reports have been published as part of phylogenetic studies, taxonomic monographs, and regional accounts for small areas or phytogeographic domains, but the available information is subsequently scattered and sometimes hard to find. In this paper we review some relevant angiosperm biogeographic studies in Brazil. Initially we briefly discuss the importance of other continents as source areas for the South American flora. Then we present a subdivision of Brazil into phytogeographic domains, and we cite studies that have explored the detection of biogeographic units (areas of endemism) and how they are historically related among those domains. Examples of plant taxa that could be used to test some biogeographic hypotheses are provided throughout, as well as taxa that exemplify several patterns of endemism and disjunction in the Brazilian angiosperm flora. Key words angiosperms, biogeography, Brazil, disjunction, distribution patterns, endemism.Brazil is the fifth largest country in the world, with more than 8.5 million km 2 , and one of the most diverse in vascular plant species, with an estimated 55,000-60,000 species (Prance, 1994;Giulietti et al., 2005). The territory occupied by Brazil encompasses most of the world's remaining areas of tropical rainforests (primarily in the Amazon), as well as considerable areas of tropical savannas (the central Brazilian Cerrado) and seasonally dry tropical forests (SDTFs; mostly in the Caatinga). The country is also one of the few that includes two hotspots for the conservation of biodiversity sensu Myers et al. (2000), the Atlantic Forest and the Cerrado.Despite its unquestionable importance for the study of South American biogeography in general, there is a serious lack of biogeographic synthesis about Brazilian plants. Most studies so far have emphasized the detection of patterns of geographic distribution by mapping occurrence data, relegating the explanations on how these patterns were achieved to a somewhat speculative level. Because the vast majority of the available studies lack a phylogenetic perspective (e.g., Prance, 1979Prance, , 1988Giulietti & Pirani, 1988; Acevedo-Rodríguez, 1990; Alves et al., 2003;Gonçalves, 2004;Cavalcanti, 2007;Fiaschi & Pirani, 2008), the information generated has been regarded as having little relevance for historical biogeography, as the detection of areas of geographic distribution correspond only to the very first step of any h...
Recent debates on the number of plant species in the vast lowland rain forests of the Amazon have been based largely on model estimates, neglecting published checklists based on verified voucher data. Here we collate taxonomically verified checklists to present a list of seed plant species from lowland Amazon rain forests. Our list comprises 14,003 species, of which 6,727 are trees. These figures are similar to estimates derived from nonparametric ecological models, but they contrast strongly with predictions of much higher tree diversity derived from parametric models. Based on the known proportion of tree species in neotropical lowland rain forest communities as measured in complete plot censuses, and on overall estimates of seed plant diversity in Brazil and in the neotropics in general, it is more likely that tree diversity in the Amazon is closer to the lower estimates derived from nonparametric models. Much remains unknown about Amazonian plant diversity, but this taxonomically verified dataset provides a valid starting point for macroecological and evolutionary studies aimed at understanding the origin, evolution, and ecology of the exceptional biodiversity of Amazonian forests.Amazonia | floristics | rain forests | seed plants | species diversity
Primarily known only by the edible fruits of Citrus, Rutaceae comprise a large (c. 160 genera and 1900 species), morphologically diverse, cosmopolitan family. Of its extraordinary array of secondary chemical compounds, many have medicinal, antimicrobial, insecticidal, or herbicidal properties. To assist with the much-needed suprageneric reclassification and with studies of evolution of chemical compounds and biogeographic history of the family, here we included sequence data (from two noncoding regions of the chloroplast genome-rps16 intron and trnL-trnF region) from 65 species in 59 genera (more than one third of those in the family) that represented all subfamilies and tribes and more genera of Toddalioideae and of neotropical groups than previous studies. Results confirmed that Cneorum, Ptaeroxylon, Spathelia, and Dictyoloma form a clade sister to the remaining Rutaceae, none of the subfamilies with more than one genus (except Aurantioideae) is monophyletic, and characters of the ovary and fruit are not reliable for circumscription of subfamilies. Furthermore, clades are better correlated with geographic distributions of the genera than with ovary and fruit characters. Circumscriptions of subfamilies and tribes (and some subtribes of Rutoideae) must be reevaluated. Results are discussed in light of geographic distributions, caryology, chemotaxonomy, and other molecular studies.
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