Encyclopedia of Bromeliads

Bromeliaceae Literature: Phylogeny

Index: - A - B - C - D - E - F - G - H - L - M - N - O - P - R - S - T - U - V -

Titles are ordered by Genus or Subject, or look under 'Miscellaneous'.

Aechmea (12)

Bered et al. 2015 (2015) Genetic structure in Aechmea calyculata explained by different type of vegetations in southern Atlantic Forest. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Faria et al. 2004 (2004) Cladistic Relationships (Bromeliaceae, Bromelioideae) and Allied Genera. Annals of the Missouri Botanical Garden 91: 303-319.
Faria, Wendt & Brown 2004 (2004) Cladistic relationships of Aechmea (Bromeliaceae, Bromelioideae) and allied genera. Annals of the Missouri Botanical Garden 91(2): 303-319.
Faria, Wendt & Brown 2004 (2004) Insights on the phylogenetic relationships of Aechmea and related genera in subfamily Bromelioideae. Journal of the Bromeliad Society 54(4): 147-152.
Godoy et al. 2023 (2023) Genetic diversity and population structure of Aechmea distichantha (Bromeliaceae), a widely geographically distributed species in South America. Plant Systematics and Evolution 309(1): 1-15 (online).
Goetze 2010 (2010) Filogeografia e diversidade genética de Aechmea caudata (Lindm.) e A. winkleri (Reitz) (Bromeliaceae: implicações taxonômicas. Porte Alegro, Universidade Federal do Rio Grande do Sul. Instituto de Biociências, pp. 1–89.
Goetze et al. 2016 (2016) East-to-west genetic structure in populations of Aechmea calyculata (Bromeliaceae) from the southern Atlantic rainforest of Brazil. Botanical Journal of the Linnean Society 181(3): 477-490.
Goetze et al. 2016 (2016) Diversification of Bromelioideae (Bromeliaceae) in the Brazilian Atlantic rainforest: A case study in Aechmea subgenus Ortgiesia. Molecular Phylogenetics and Evolution 98: 346-357.
Goetze et al. 2017 (2017) Incomplete lineage sorting and hybridization in the evolutionary history of closely related, endemic yellow-flowered Aechmea species of subgenus Ortgiesia (Bromeliaceae). American Journal of Botany 104(7): 1–15.
Maciel et al. 2018 (2018) Polyphyly and morphological convergence in Atlantic Forest species of Aechmea subgenus Chevaliera (Bromeliaceae). Botanical Journal of the Linnean Society 20: 1–15.
Murawski & Hamrick 1990 (1990) Local Genetic and Clonal Structure in the Tropical Terrestrial Bromeliad, Aechmea Magdalenae. American Journal of Botany 77(9): 1201-1208.
Sass & Specht 2010 (2010) Phylogenetic estimation of the core Bromelioids with an emphasis on the genus Aechmea (Bromeliaceae). Molecular Phylogenetics and Evolution 55(2): 559-71.

Alcantarea (4)

Barbara et al. 2009 (2009) Genetic relationships and variation in reproductive strategies in four closely related bromeliads adapted to neotropical ‘inselbergs’: Alcantarea glaziouana, A. regina, A. geniculata and A. imperialis (Bromeliaceae). Annals of Botany 103(1): 65-77.
Lexer et al. 2016 (2016) Gene flow and diversification in a species complex of Alcantarea inselberg bromeliads. Botanical Journal of the Linnean Society 181: 505–520. With 6 figures.
Versieux 2009 (2009) Sistemática, filogenia e morfologia de Alcantarea (Bromeliaceae). São Paulo, Instituto de Biociencias da Universidade de São Paulo, pp. 1–38.
Versieux et al. 2012b (2012) Molecular phylogenetics of the Brazilian giant bromeliads (Alcantarea, Bromeliaceae): implications for morphological evolution and biogeography. Molecular Phylogenetics and Evolution 64 (2012) 177–189.

Ananas (2)

Matuszak et al. 2015 (2015) Ananas (Bromelioideae, Bromeliaceae) ? Phylogenetic relationships based on nuclear, plastid and AFLP data. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Matuszak-Renger et al. 2018 (2018) Phylogenetic relationships among Ananas and related taxa (Bromelioideae, Bromeliaceae) based on nuclear, plastid and AFLP data. Plant Systematics and Evolution 304(7): 841–851.

Atlantic forest (5)

Bered et al. 2015 (2015) Genetic structure in Aechmea calyculata explained by different type of vegetations in southern Atlantic Forest. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Maciel et al. 2018 (2018) Polyphyly and morphological convergence in Atlantic Forest species of Aechmea subgenus Chevaliera (Bromeliaceae). Botanical Journal of the Linnean Society 20: 1–15.
Neves et al 2020 (2020) Pollinators drive floral evolution in an Atlantic Forest genus. Annals of Botany - Plants 12(5): 1-12.
Neves et al. 2019 (2019) Drivers of bromeliad leaf and floral bract variation across a latitudinal gradient in the Atlantic Forest. Journal of Biogeography 2019: 1–14.
Zanella et al. 2015 (2015) Natural hybridization between two sympatric species of bromeliads from the Atlantic Forest: evolutionary implications. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.

Brazil (7)

Aoki-Gonçalves et al. 2014 (2014) Microsatellite loci for Orthophytum ophiuroides (Bromelioideae, Bromeliaceae) species adapted to neotropical rock outcrops. Applications in Plant Sciences 2(3): 1300073-.
Bered et al. 2015 (2015) Genetic structure in Aechmea calyculata explained by different type of vegetations in southern Atlantic Forest. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Maciel et al. 2018 (2018) Polyphyly and morphological convergence in Atlantic Forest species of Aechmea subgenus Chevaliera (Bromeliaceae). Botanical Journal of the Linnean Society 20: 1–15.
Neves et al 2020 (2020) Pollinators drive floral evolution in an Atlantic Forest genus. Annals of Botany - Plants 12(5): 1-12.
Neves et al. 2019 (2019) Drivers of bromeliad leaf and floral bract variation across a latitudinal gradient in the Atlantic Forest. Journal of Biogeography 2019: 1–14.
Sotero et al. 2015 (2015) Genetic variability among populations of the Dyckia pernambucana complex from the Borborema Plateau, Pernambuco, Brazil. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Zanella et al. 2015 (2015) Natural hybridization between two sympatric species of bromeliads from the Atlantic Forest: evolutionary implications. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.

Brocchinia (1)

Givnish et al. 1998 (1998) Molecular evolution and adaptive radiation in Brocchinia atop tepuis of the Guayana Shield. In: Molecular evolution and adaptive radiation. Cambridge University Press, UK, pp. 259–311.

Bromelia (25)

Benko-Iseppon et al. 2015 (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66.
Benko-Iseppon et al. 2015 (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. , pp.
Bratzel et al. 2020 (2020) The low-copy nuclear gene Agt1 as a novel DNA barcoding marker for Bromeliaceae. BMC Plant Biology 20: 111.
Brown & Gilmartin 1987 (1987) Bromeliales, related monocots and resolution of relationships among Bromeliaceae subfamilies. Systematic botany 12: 493-500.
Escobedo et al. 2013 (2013) A phylogeny of Bromeliaceae (Poales, Monocotyledoneae) derived from an evaluation of nine supertree methods. Journal of Systematics and Evolution 51(6): 743–757.
Fernandes M. 2009 (2009) Estudos anatômicos e filogenéticos em Bromelia L. (Bromeliaceae, Bromelioideae). Instituto de Pesquisas Jardim Botânico do Rio de Janeiro, 84 pp.
Gitai et al. 2005 (2005) Chromosomal features and evolution of Bromeliaceae. Plant Systematics and Evolution 253: 65-80.
Givnish et al. 2011 (2011) Phylogeny, Adaptive Radiation, And Historical Biogeography In Bromeliaceae: Insights From An Eight-locus Plastid Phylogeny. American Journal of Botany 98(5): 872–895.
Givnish et al. 2014 (2014) Adaptive radiation, correlated and contingent evolution, and net species diversification in Bromeliaceae. Molecular Phylogenetics and Evolution 71: 55-78.
Godoy et al. 2015 (2015) Genetic diversity of Bromelia hieronymi Mez (Bromeliaceae) from humid chaco, Mato Grosso do Sul, Brazil. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Heller et al. 2017 (2017) Barcoding of Bromeliaceae (Poales). Genome 60(11): 943-945.
Horres et al 2007 (2007) Systematics of Bromelioideae (Bromeliaceae)-evidence from molecular and anatomical studies. Aliso 23: 27-43.
Horres et al. 2000 (2000) Molecular Phylogenetics of Bromeliaceae: Evidence from trnL(UAA) Intron Sequences of the Chloroplast Genome. Plant biology 2: 306–315.
Leal et al. 2018 (2018) Insights into the evolutionary dynamics of Neotropical biomes from the phylogeography and paleodistribution modeling of Bromelia balansae. American Journal of Botany 105(10): 1725–1734.
Leins et al. 1988 (1988) Aspects of floral development Comparative ontogeny of bromeliaceous stigmas. Berlin, Stuttgart: J. Cramer, pp. 191–204.
Palma-Silva et al. 2015 (2015) How important is hybridization for speciation in Bromeliaceae?. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. Botanical Journal of the Linnean Society 2016(181): 305–322..
Paule et al. 2015 (2015) Genome size evolution in Bromeliaceae. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Ruas 2015 (2015) Cross-amplification of 10 microsatellites loci in bromeliad species from Pantanal and Chaco, Mato Grosso do Sul, Brazil. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Sajo et al. 2004 (2004) Floral anatomy of Bromeliaceae, with particular reference to the evolution of epigyny and septal nectaries in commelinid monocots. Plant Systematics and Evolution 247: 215-231.
Schulte et al. 2005 (2005) Molecular phylogeny of Bromelioideae and its implications on biogeography and the evolution of CAM in the family (Poales, Bromeliaceae). Senckenbergiana biologica 85: 113-125.
Terry & Brown 1996 (1996) A study of evolutionary relationships in Bromeliaceae based on comparison of DNA sequences from the chloroplast gene ndhF. Journal of the Bromeliad Society 46(3): 107-112, 123.
Terry 1997 (1997) Examination of subfamilial phylogeny in Bromeliaceae using comparative sequencing of the plastid locus NDHF1. American Journal of Botany 84(5): 664-670.
Terry et al. 1997 (1997) Exlamination of subfamilial phylogeny in Bromeliaceae using comparative sequencing of the plastid locus NDHF1. American journal of Botany 84(5): 664-670.
Yardeni et al. (2021) Taxon-specific or universal? Using target capture to study the evolutionary history of a rapid radiation. bioRxiv 2021.05.20.444989 Web.
Zotz 2012 (2012) Ephytic bromeliads and climate change. Die Bromelie 2012(3): 105-109.

Bromeliaceae (22)

Benko-Iseppon et al. 2015 (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66.
Benko-Iseppon et al. 2015 (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. , pp.
Bratzel et al. 2020 (2020) The low-copy nuclear gene Agt1 as a novel DNA barcoding marker for Bromeliaceae. BMC Plant Biology 20: 111.
Escobedo et al. 2013 (2013) A phylogeny of Bromeliaceae (Poales, Monocotyledoneae) derived from an evaluation of nine supertree methods. Journal of Systematics and Evolution 51(6): 743–757.
Fernandes M. 2009 (2009) Estudos anatômicos e filogenéticos em Bromelia L. (Bromeliaceae, Bromelioideae). Instituto de Pesquisas Jardim Botânico do Rio de Janeiro, 84 pp.
Gitai et al. 2005 (2005) Chromosomal features and evolution of Bromeliaceae. Plant Systematics and Evolution 253: 65-80.
Givnish et al. 2011 (2011) Phylogeny, Adaptive Radiation, And Historical Biogeography In Bromeliaceae: Insights From An Eight-locus Plastid Phylogeny. American Journal of Botany 98(5): 872–895.
Givnish et al. 2014 (2014) Adaptive radiation, correlated and contingent evolution, and net species diversification in Bromeliaceae. Molecular Phylogenetics and Evolution 71: 55-78.
Heller et al. 2017 (2017) Barcoding of Bromeliaceae (Poales). Genome 60(11): 943-945.
Horres et al 2007 (2007) Systematics of Bromelioideae (Bromeliaceae)-evidence from molecular and anatomical studies. Aliso 23: 27-43.
Horres et al. 2000 (2000) Molecular Phylogenetics of Bromeliaceae: Evidence from trnL(UAA) Intron Sequences of the Chloroplast Genome. Plant biology 2: 306–315.
Leins et al. 1988 (1988) Aspects of floral development Comparative ontogeny of bromeliaceous stigmas. Berlin, Stuttgart: J. Cramer, pp. 191–204.
Palma-Silva et al. 2015 (2015) How important is hybridization for speciation in Bromeliaceae?. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. Botanical Journal of the Linnean Society 2016(181): 305–322..
Paule et al. 2015 (2015) Genome size evolution in Bromeliaceae. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Ruas 2015 (2015) Cross-amplification of 10 microsatellites loci in bromeliad species from Pantanal and Chaco, Mato Grosso do Sul, Brazil. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Sajo et al. 2004 (2004) Floral anatomy of Bromeliaceae, with particular reference to the evolution of epigyny and septal nectaries in commelinid monocots. Plant Systematics and Evolution 247: 215-231.
Schulte et al. 2005 (2005) Molecular phylogeny of Bromelioideae and its implications on biogeography and the evolution of CAM in the family (Poales, Bromeliaceae). Senckenbergiana biologica 85: 113-125.
Terry & Brown 1996 (1996) A study of evolutionary relationships in Bromeliaceae based on comparison of DNA sequences from the chloroplast gene ndhF. Journal of the Bromeliad Society 46(3): 107-112, 123.
Terry 1997 (1997) Examination of subfamilial phylogeny in Bromeliaceae using comparative sequencing of the plastid locus NDHF1. American Journal of Botany 84(5): 664-670.
Terry et al. 1997 (1997) Exlamination of subfamilial phylogeny in Bromeliaceae using comparative sequencing of the plastid locus NDHF1. American journal of Botany 84(5): 664-670.
Yardeni et al. (2021) Taxon-specific or universal? Using target capture to study the evolutionary history of a rapid radiation. bioRxiv 2021.05.20.444989 Web.
Zotz 2012 (2012) Ephytic bromeliads and climate change. Die Bromelie 2012(3): 105-109.

Bromeliales (1)

Brown & Gilmartin 1987 (1987) Bromeliales, related monocots and resolution of relationships among Bromeliaceae subfamilies. Systematic botany 12: 493-500.

Bromelioideae (10)

Bratzel et al. 2022 (2022) Target-enrichment sequencing reveals for the first time a well-resolved phylogeny of the core Bromelioideae (family Bromeliaceae). TAXON 71 (online 12831).
Evans et al. 2015 (2015) Phylogenetic Relationships in Bromeliaceae Subfamily Bromelioideae based on Chloroplast DNA Sequence Data. Systematic Botany 40(1): 116–128.
Fernandes M. 2009 (2009) Estudos anatômicos e filogenéticos em Bromelia L. (Bromeliaceae, Bromelioideae). Instituto de Pesquisas Jardim Botânico do Rio de Janeiro, 84 pp.
Heller 2018 (2018) Systematics, phylogeny, evolution and biogeography of eu-Bromelioideae and genome size evolution in Bromeliaceae. , pp.
Heller et al. 2015 (2015) Molecular contribution to the taxonomical reorganization of the eu-Bromelioideae. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Monteiro et al. 2015 (2015) Morphological Phylogenetic Analysis of Two Early-Diverging Genera of Bromelioideae (Bromeliaceae) . Rodriguésia 66(2): 505-521.
Paule et al. 2020 Early diverging and core Bromelioideae (Bromeliaceae) reveal contrasting patterns of genome size evolution and polyploidy. Frontiers in Plant Science 11(1295): 1-13.
Schulte & Zizka 2008 (2008) Multi locus plastid phylogeny of Bromelioideae (Bromeliaceae) and the taxonomic utility of petal appendages and pollen characters. Candollea 63(2): 209-225.
Schulte et al. 2009 (2009) Phylogeny of Bromelioideae (Bromeliaceae) inferred from nuclear and plastid DNA loci reveals the evolution of the tank habit within the subfamily. Molecular Phylogenetics and Evolution 51(2): 327-339.
Silvestro et al 2014 (2014) Disentangling the effects of key innovations on the diversification of Bromelioideae (Bromeliaceae). Evolution 68: 163–175.

Bromelioids (1)

Sass & Specht 2010 (2010) Phylogenetic estimation of the core Bromelioids with an emphasis on the genus Aechmea (Bromeliaceae). Molecular Phylogenetics and Evolution 55(2): 559-71.

Colonization (3)

Boneh et al. 2003 (2003) Microsatellites in the bromeliads Tillandsia fasciculata and Guzmania monostachya. Molecular Ecology Notes 3(2): 302-303.
Jabaily & Sytsma 2012 (2012) Historical biogeography and life-history evolution of Andean Puya (Bromeliaceae). Botanical Journal of the Linnean Society 171(1): 201-224.
Sotero et al. 2015 (2015) Genetic variability among populations of the Dyckia pernambucana complex from the Borborema Plateau, Pernambuco, Brazil. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.

Cryptanthus (6)

Alves 2013 (2013) Filogenia molecular, evolução e biogeografia do gênero Cryptanthus Otto & Dietr. (Bromeliaceae). Universidade Federal de Pernambuco, Centro de Ciencias Biológicas, pp. 1–93.
CRUZ et al. 2015 (2015) Molecular infrageneric relationships and genome size evolution in Cryptanthus. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Cruz et al. 2016 (2016) Molecular phylogeny, character evolution and historical biogeography of Cryptanthus Otto & A. Dietr. (Bromeliaceae). Molecular Phylogenetics and Evolution 107: 152–165.
Cruz et al. 2020 (2020) Genome size evolution and chromosome numbers of species of the cryptanthoid complex (Bromelioideae, Bromeliaceae) in a phylogenetic framework. Botanical Journal of the Linnean Society 192(4): 887-899.
Gitai et al. 2015 (2015) Cytogenetic diversity, banding patterns and B Chromosomes in Cryptanthus. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Krapp et al. 2013 (2013) A set of variable plastid SSR loci for the genus Cryptanthus (Bromeliaceae). Rearch in Plant Biology 3(2): 18-21.

Deuterocohnia (1)

Zenk et al. 2018 (2018) Development of 15 nuclear microsatellite markers in Deuterocohnia (Pitcairnioideae; Bromeliaceae) using 454 pyrosequencing. Applications in Plant Sciences 6(4): e1147-.

Diaphoranthema (2)

Donadio et al. 2022 (2022) Phylogenetic relationships and evolutionary trends in Tillandsia subgenus Diaphoranthema and xerophytic species of subgenus Phytarrhiza (Bromeliaceae: Tillandsioideae). Botanical Journal of the Linnean Society 20: 1–22.
Donadío 2013 (2013) Filogenia de Tillandsia subgen. Diaphoranthema y evolución de la autogamia y la poliembrionía. , 170 pp.

Diversification (1)

Aguiar-Melo et al. 2025 (2025) Narrow endemism of Dyckia (Bromeliaceae) species within a vegetative mosaic region in the Midwest Brazil: insights from the phylogeographic patterns. Botanical Journal of the Linnean Society : boae089.

Dyckia (11)

Braun & Esteves 2004 (2004) Zur Klarung der Herkunft von Dyckia goehringii E. Gross & Rauh. Die Bromelie 2004(3): 64-65.
Krapp & Weising 2011 (2011) Young and successful: phylogeny and evolutionary history of the large genus Dyckia (Bromeliaceae) inferred from chloroplast and nuclear sequence data. In: Biosystematics Berlin 2011, programme and abstracts. Botanic Garden and Botanical Museum Berlin-Dahlem, Freie Universität Berlin, p. 21 pp.
Krapp 2012 (2012) Phylogenie und Evolution der Gattung Dyckia (Bromeliaceae). Abteilung Morphologie und Systematik der Pflanzen, Institut für Biologie, FB 10: Mathematik und Naturwissenschaften, Universität Kassel, pp. 1–206.
Krapp et al. 2014 (2014) Phylogeny and evolution of Dyckia (Bromeliaceae) inferred from chloroplast and nuclear sequences. Plant Systematics and Evolution 1-24.
Melo 2016 (2016) Filogeografia de espécies de Dyckia endêmicas de uma região do centro-oeste brasileiro. UNIVERSIDADE FEDERAL DO RIO GRANDE DO SUL, 32 pp.
Melo et al. 2015 (2015) Phylogeography of Dyckia species (Bromeliaceae) endemic to the Brazilian Cerrado biome: evolutionary implications. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Pinange et al. 2016 (2016) Molecular phylogenetics, historical biogeography and character evolution in Dyckia (Bromeliaceae, Pitcairnioideae). Botanical Journal of the Linnean Society 2016: 1-18.
Pinange et al. 2020 (2020) Population genetics shed light on species delimitation and life history of the Dyckia pernambucana complex (Bromeliaceae). Botanical Journal of the Linnean Society 192(4): 706-725.
Sotero et al. 2015 (2015) Genetic variability among populations of the Dyckia pernambucana complex from the Borborema Plateau, Pernambuco, Brazil. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Wohrmann et al. 2012 (2012) A set of plastid microsatellite loci for the genus Dyckia (Bromeliaceae) derived from 454 pyrosequencing. American Journal of Botany 99(4): e160-3..
Wöhrmann et al. 2013 (2013) Development of 15 nuclear microsatellite markers in the genus Dyckia (Pitcairnioideae; Bromeliaceae) using 454 pyrosequencing. Conservation Genetics Resources 5: 81-84.

Ecology (1)

Kiefer et al. 2024 (2024) High-quality reference plastomes in Tillandsia species living at the dry limits. Plant Systematics and Evolution 310(5): 38.

Encholirium (5)

Cavallari et al. 2006 (2006) Genetic variation in three endangered species of Encholirium (Bromeliaceae) from Cadeia do Espinhac¸ o, Brazil, detected using RAPD markers. Biodiversity and conservation 15: 4357–4373.
Hmeljevski et al. 2013 (2013) Development of SSR Markers for Encholirium horridum (bromeliaceae) and Transferability to other Pitcairnioideae. Applications in Plant Sciences 1(4): 1200445.
Moura et al. 2019 (2019) Between Spines and Molecules: A Total Evidence Phylogeny of the Brazilian Endemic Genus Encholirium (Pitcairnioideae, Bromeliaceae). Systematic Botany 44(1): 14-25.
Moura et al. 2019 (2019) Between Spines and Molecules: A Total Evidence Phylogeny of the Brazilian Endemic Genus Encholirium (Pitcairnioideae, Bromeliaceae). Systematic Botany 44(1): 14-25.
Oliveira et al. 2015 (2015) Microsatellite data reveal unexpected patterns on Encholirium spectabile population genetic structure. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.

Endemism (1)

Aguiar-Melo et al. 2025 (2025) Narrow endemism of Dyckia (Bromeliaceae) species within a vegetative mosaic region in the Midwest Brazil: insights from the phylogeographic patterns. Botanical Journal of the Linnean Society : boae089.

Evolution (1)

Kessous et al. 2024b (2024) New insights into the classification, diversification, and evolutionary dynamics of bromeliads. Botanical Journal of the Linnean Society online: boae074.

Fascicularia (1)

Paule et al. 2020 (2020) Phylogenomic insights into the Fascicularia-Ochagavia group (Bromelioideae, Bromeliaceae). Botanical Journal of the Linnean Society 192(4): 642-655.

Fosterella (11)

Rex et al. 2007 (2007) AFLP analysis of genetic relationships in the genus Fosterella L.B. Smith (Pitcairnioideae, Bromeliaceae). Genome 50: 90-105.
Rex et al. 2009 (2009) Phylogenetic analysis of Fosterella L.B. Sm. (Pitcairnioideae, Bromeliaceae) based on four chloroplast DNA regions. Molecular Phylogenetics and Evolution 51(3): 472-485.
Silva et al. 2015 (2015) Chromosomal features of Fosterella L. (Bromeliaceae, Pitcairnioideae) species. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Silva et al. 2016 (2016) Chromosomal features of Fosterella species (Bromeliaceae, Pitcairnioideae). Botanical Journal of the Linnean Society 181(3): 532-541.
Wagner 2013 (2013) Phylogeographie und Populationsgenetik der Arten der Gattung Fosterella (Bromeliaceae) in den südamerikanischen Anden. Abteilung Morphologie und Systematik der Pflanzen, Institut für Biologie, Fachbereich 10/ Mathematik und Naturwissenschaften, Universität Kasse, pp. 1–208.
Wagner et al. 2012 (2012) Spatio-temporal evolution of Fosterella (Bromeliaceae) in the Central Andean biodiversity hotspot. Journal of Biogeography 40: 869–880..
Wagner et al. 2015 (2015) Breaking down all barriers - reproduction biology and speciation processes in Fosterella (Pitcairnioideae s.str.). In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Wöhrmann et al. 2015 (2015) SSR discovery in cDNAs of Fosterella christophii (Pitcairnioideae) using the PacBio third-generation sequencing platform. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Wöhrmann et al. 2015 (2015) The mode of plastid inheritance within the genus Fosterella (Pitcairnioideae). In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Wöhrmann et al. 2016 (2016) Microsatellites from Fosterella christophii (Bromeliaceae) by de novo transcriptome sequencing on the Pacific Biosciences RS platform. Applications in Plant Sciences 4(1): 1500084-.
Wöhrmann et all. 2020 (2020) Strong genetic differentiation among populations of Fosterella rusbyi (Bromeliaceae) in Bolivia. Botanical Journal of the Linnean Society 192(4): 744-759.

Glomeropitcairnia (1)

Gilmartin et al. 1989 (1989) Status of Glomeropitcairnia within evolutionary history of Bromeliaceae. Systematic botany 14(3): 339-348.

Gravisia (1)

Heller et al. 2015 (2015) Elucidating Phylogenetic Relationships in the Aechmea Alliance: AFLP Analysis of Portea and the Gravisia Complex (Bromeliaceae, Bromelioideae). Systematic Botany 40(3): 716–725.

Guzmania (1)

Boneh et al. 2003 (2003) Microsatellites in the bromeliads Tillandsia fasciculata and Guzmania monostachya. Molecular Ecology Notes 3(2): 302-303.

Hechtia (4)

Ramirez et al. 2015 (2015) Phylogeny, evolution and biogeography of Hechtia Klotszch (Hechtioideae: Bromeliaceae). In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Ramirez et al. 2018 (2018) Phylogenetic relationships of Hechtia (Hechtioideae; Bromeliaceae). Phytotaxa 376 (6): 227–253.
Romero 2017 (2017) Sistemática y filogenia de los complejos Hechtia guatemalensis Mez y Hechtia tillandsioides (André) L.B. Sm. (Hechtioideae: Bromeliaceae). , 159 pp.
Siekkinen 2015b (2015) Phylogenetic Study of the Genus Hechtia Utilizing Next Generation Sequencing Genome Skimming. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.

Hechtioideae (2)

Ramirez et al. 2023a (2023) Expansions and contractions of the inverted repeat, as well as gene loss and potential pseudogenization shape plastome evolution in Hechtioideae (Bromeliaceae, Poales). Journal of Systematics and Evolution 2023:jse.13004 (online).
Rivera et al. 2022 (2022) Spatial phylogenetics in Hechtioideae (Bromeliaceae) reveals recent diversification and dispersal. Botanical Sciences 100(3): 692-709.

Lymania (1)

Sousa 2007 (2007) Monophyly and phylogenetie relationships in Lymania (Bromeliaceae: Bromelioideae) based on morphology and chloroplast DNA sequences. Syst. Bot 32(2): 264-270..

Markers (1)

Zhang et al. 2012 (2012) Molecular Characterization of Cultivated Bromeliad Accessions with Inter-Simple Sequence Repeat (ISSR) Markers. International Journal of Molecular Sciences 13: 6040-6052.

Microsatellite (1)

Wohrmann 2014 (2014) Etablierung von Mikrosatellitenmarkern für die Pitcairnioideae (Bromeliaceae) und ihre Anwendung für populationsgenetische Fragestellungen. , pp.

Miscellaneous (2)

Barfuss et al. 2016 (2016) Taxonomic revision of Bromeliaceae subfam. Tillandsioideae based on a multi-locus DNA sequence phylogeny and morphology. Phytotaxa 279 (1): 001–097.
Givnish et al. 2007 (2007) Phylogeny, adaptive radiation and historical biogeography of Bromeliaceae inferred from ndhF sequence data. El Aliso vol.23(1): 3-26.

Nidularioid (2)

Oliveira 2015 (2015) Phylogeny of Nidularioid Complex (Bromelioideae) based on plastid and nuclear DNA sequences and morphological data. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Silva et al. 2017b (2017) Nested in chaos: Insights on the relations of the ‘Nidularioid Complex’ and the evolutionary history of Neoregelia (Bromelioideae-Bromeliaceae). Brittonia online: 1-15.

Nidularioid complex (1)

Silva et al. 2017b (2017) Nested in chaos: Insights on the relations of the ‘Nidularioid Complex’ and the evolutionary history of Neoregelia (Bromelioideae-Bromeliaceae). Brittonia online: 1-15.

Ochagavia (1)

Paule et al. 2020 (2020) Phylogenomic insights into the Fascicularia-Ochagavia group (Bromelioideae, Bromeliaceae). Botanical Journal of the Linnean Society 192(4): 642-655.

Ortgiesia (1)

Goetze et al. 2016 (2016) Diversification of Bromelioideae (Bromeliaceae) in the Brazilian Atlantic rainforest: A case study in Aechmea subgenus Ortgiesia. Molecular Phylogenetics and Evolution 98: 346-357.

Orthophytum (2)

Aoki-Gonçalves et al. 2014 (2014) Microsatellite loci for Orthophytum ophiuroides (Bromelioideae, Bromeliaceae) species adapted to neotropical rock outcrops. Applications in Plant Sciences 2(3): 1300073-.
Louzada et al. 2014 (2014) Molecular phylogeny of the Brazilian endemic genus Orthophytum (Bromelioideae, Bromeliaceae) and its implications on morphological character evolution Original Research Article. Molecular Phylogenetics and Evolution, In Press, Uncorrected Proof, Available online 21 March 2014 77: 54-64.

Phytarrhiza (1)

Gilmartin & Brown 1986 (1986) Cladistic Tests of Hypotheses Concerning Evolution of Xerophytes and Mesophytes within Tillandsia Subg. Phytarrhiza (bromeliaceae). American Journal of Botany 73(3): 387-397.

Pitcairnia (8)

Domingues et al. 2011 (2011) Genetic variability of an endangered Bromeliaceae species (Pitcairnia albiflos) from the Brazilian Atlantic rainforest. Genetics and Molecular Research 10(4): 2482-2491.
Givnish et al. 2004 (2004) Ancient vicariance or recent Long-distance Dispersal? Inferences about phylogeny and South American–African disjunctions In Rapateaceaeand Bromeliaceae based on ndh f Sequence data. Int. J. Plant Sci 165(4 Suppl.): 35–54.
Manhães et al. 2015 (2015) A combined molecular and cytogenetic approach to study Pitcairnia azouryi (Bromeliaceae). In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Mota et al. 2020 (2020) From micro- to macroevolution: insights from a Neotropical bromeliad with high population genetic structure adapted to rock outcrops. Heredity online.
Saraiva et al. 2015 (2015) Insights into the Evolution of Pitcairnia (Pitcairnioideae-Bromeliaceae), based on Morphological Evidence. Systematic Botany 40(3): 726–736.
Sarthou et al. 2003 (2003) Polymorphic microsatellites for the study of fragmented populations of Pitcairnia geyskesii L. B. Smith (Bromeliaceae), a specific saxicolous species of inselbergs in French Guiana. Molecular Ecology Notes 3(2): 221-223.
Schubert 2017 (2017) Systematik und Evolution der Gattung Pitcairnia L'Heritier (Bromeliaceae). Universität Kassel, 246 pp.
Schubert et al. 2015 (2015) A molecular phylogeny of Pitcairnia (Pitcairnioideae, Bromeliaceae) - Insights from a multi-locus dataset. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.

Pitcairnioideae (6)

Crayn et al. 2000 (2000) Molecular systematic investigations in Pitcairnioideae, the evolution of Crassulacean Acid Metabolism. In: Wilson, K.L. & Morrison, D.A. (ed.) Monocots: Systematics and Evolution. Systematics and Evolution .
Moura et al. 2018 (2018) Reconstruction of ancestral genome size in Pitcairnioideae (Bromeliaceae): what can genome size tell us about the evolutionary history of its five genera?. Botanical Journal of the Linnean Society 186: 321–333.
Schütz et al 2016 (2016) Phylogenetics of Pitcairnioideae s.s . (Bromeliaceae): evidence from nuclear and plastid DNA sequence data . Botanical Journal of the Linnean Society 181(3): 323–342.
Schütz et al. 2016 (2016) Phylogenetics of Pitcairnioideae s.s. (Bromeliaceae): evidence from nuclear and plastid DNA sequence data. Botanical Journal of the Linnean Society 181(3): 323-342.
Varadarajan & Gilmartin 1988a (1988) Phylogenetic relationships of groups of genera within the subfamily Pitcairnioideae. Systematic botany 13(2): 283-293.
Varadarajan 1986 (1986) Taxonomy and evolution of the Pitcairnioideae. Washington State Univ. Pullman, Univ. Microfilms, Ann Arbor USA, pp.

Portea (1)

Heller et al. 2015 (2015) Elucidating Phylogenetic Relationships in the Aechmea Alliance: AFLP Analysis of Portea and the Gravisia Complex (Bromeliaceae, Bromelioideae). Systematic Botany 40(3): 716–725.

Puya (6)

Aguirre-Santoro et al. 2024 (2024) Phylogenomics of Puya (Bromeliaceae): Evolution in the Andean slopes and sky island ecosystems. Journal of Systematics and Evolution Online: 1-18.
Hornung & Sosa 2008 (2008) Morphological phylogenetics of Puya subgenus Puya (Bromeliaceae): PHYLOGENY OF PUYA SUBGENUS PUYA. Botanical Journal of the Linnean Society 156: 93–110.
Jabaily & Sytsma 2010 (2010) Phylogenetics of Puya (Bromeliaceae): Placement, Major Lineages, and Evolution of Chilean Species. American Journal of Botany 97(2): 337-356.
Jabaily & Sytsma 2012 (2012) Historical biogeography and life-history evolution of Andean Puya (Bromeliaceae). Botanical Journal of the Linnean Society 171(1): 201-224.
Schulte et al. 2010 (2010) Detection of recent hybridization between sympatric Chilean Puya species (Bromeliaceae) using AFLP markers and reconstruction of complex relationships. Molecular Phylogenetics and Evolution 57(3): 1105-1119.
Varadarajan 1990 (1990) Patterns of geographic distribution and their implications on the phylogeny of Puya. Journal of the Arnold Arboretum 71: 527-552.

Rocky outcrops (4)

Manhães et al. 2015 (2015) A combined molecular and cytogenetic approach to study Pitcairnia azouryi (Bromeliaceae). In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Melo et al. 2015 (2015) Phylogeography of Dyckia species (Bromeliaceae) endemic to the Brazilian Cerrado biome: evolutionary implications. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Oliveira et al. 2015 (2015) Microsatellite data reveal unexpected patterns on Encholirium spectabile population genetic structure. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Versieux et al. 2012b (2012) Molecular phylogenetics of the Brazilian giant bromeliads (Alcantarea, Bromeliaceae): implications for morphological evolution and biogeography. Molecular Phylogenetics and Evolution 64 (2012) 177–189.

Ronnbergia (2)

Aguirre-Santoro et al. 2015a (2015) Is Ronnbergia (Bromeliaceae, Bromelioideae) a geographically disjunct genus? Evidence from morphology and chloroplast DNA sequence data. Phytotaxa 219(3): 261–275.
Aguirre-Santoro et al. 2016b (2016) Molecular phylogenetics of the Ronnbergia Alliance (Bromeliaceae, Bromelioideae) and insights into their morphological evolution. Molecular Phylogenetics and Evolution 100: 1–20.

Stigmatodon (1)

Manhaes et al. 2020 (2020) Transferability of nuclear microsatellite markers to Stigmatodon species: a bromeliad genus endemic to vertical cliffs of inselbergs in Brazil. Braz. J. Bot 1-8.

Tillandsia (26)

Ancona et al. 2022 (2022) Multilocus Data Analysis Reveal the Diversity of Cryptic Species in the Tillandsia ionantha (Bromeliaceae: Tillansiodeae) Complex. Plants 11: 1-17 (online).
Aoki-Gonçalves et al. 2015 (2015) Genetic structure and diversity patterns of Tillandsia aeranthos (Lois.) L.B. Smith in Brazil. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Boneh et al. 2003 (2003) Microsatellites in the bromeliads Tillandsia fasciculata and Guzmania monostachya. Molecular Ecology Notes 3(2): 302-303.
Castello et al. 2015 (2015) Unraveling the Tillandsia capillaris complex: two species coexisting in sympatry?. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Castello et al. 2016 (2016) Disentangling the Tillandsia capillaris complex: phylogenetic relationships and taxon boundaries in Andean populations. Bot. J. Linn. Soc 181(3): 391-414.
Castello et al. 2020 (2020) Comparative phylogeography, morphological boundaries and climate envelopes of two sympatric widespread Bromeliaceae from the southern Andes. Botanical Journal of the Linnean Society 192(4): 726–743.
Castro et al. 2009 (2009) Molecular Studies about Two Rare Species of the Genus Tillandsia L. (T. califanii Rauh and T. tomasellii De Luca, Sabato et Balduzzi). Journal of the Bromeliad Society 59(5): 206-218.
Chavez et al. 2021 (2021) Chloroplast genome of Tillandsia marconae till & Vitek (Bromeliaceae), a hyperarid desert endangered species. MITOCHONDRIAL DNA PART B 6(9): 2562–2564.
Chávez et al. 2021 (2021) Chloroplast genome of Tillandsia landbeckii Phil. (Bromeliaceae) a species adapted to the hyper-arid conditions of the Atacama and Peruvian desert. MITOCHONDRIAL DNA PART B 6(12): 3375–3377.
Chew et al. 2010 (2010) Phylogenetic Relationships of the Pseudobulbous Tillandsia species (Bromeliaceae) Inferred from Cladistic Analyses of ITS 2, 5.8S ribosomal RNA gene, and ETS Sequences. Systematic Botany 35(1): 86-95..
Crego et al. 2023 (2023) Short structural variation fuelled CAM evolution within an explosive bromeliad radiation. bioRxiv preprint 1-51.
Donadıo et al. 2015 (2015) Phylogenetic relationships within Tillandsia subgenus Diaphoranthema (Bromeliaceae, Tillandsioideae) based on a comprehensive morphological dataset. Plant Systematics and Evolution 301: 387–410.
Donadio et al. 2022 (2022) Phylogenetic relationships and evolutionary trends in Tillandsia subgenus Diaphoranthema and xerophytic species of subgenus Phytarrhiza (Bromeliaceae: Tillandsioideae). Botanical Journal of the Linnean Society 20: 1–22.
Givnish 2017 (2017) One Hundred Million Years of Bromeliad Evolution. Journal of the Bromeliad Society 66(4): 200-225.
Granados 2017 (2017) Geographic structure in two highly diverse lineages of Tillandsia (Bromeliaceae). Botany 95(7): 641-651.
Kiefer et al. 2024 (2024) High-quality reference plastomes in Tillandsia species living at the dry limits. Plant Systematics and Evolution 310(5): 38.
Mendoza 2008 (2008) Sistemática del complejo Tillandsia macdougallii (Bromeliaceae). , pp.
Mobus et al. 2021 (2021) Setting the evolutionary timeline: Tillandsia landbeckii in the Chilean Atacama Desert. Plant Systematics and Evolution 307(39): 1-12 (online).
Pinzon 2013 (2013) Phylogeny and evolution of Tillandsia subg. Tillandsia: a preliminary project report. Journal of the Bromeliad Society 63(1): 75-82.
Pinzon et al. 2015 (2015) Phylogeny of Tillandsia subg. Tillandsia (Tillandsioideae) II: Evidence from nuclear DNA regions. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Pinzon et al. 2016 (2016) Phylogenetics and evolution of the Tillandsia utriculata complex (Bromeliaceae, Tillandsioideae) inferred from three plastid DNA markers and the ETS of the nuclear ribosomal DNA. Botanical Journal of the Linnean Society 181(3): 362-390.
Pinzon et al. 2017 (2017) The Tillandsia Multicaulis Clade (bromeliaceae: Tillandsioideae): A Case Of Convergent Floral Evolution. Bromeliaceae 52(2): 37-50.
Soltis et al. 1987 (1987) GENETIC VARIATION IN THE EPIPHYTES TILLANDSIA IONANTHA AND T. RECURVATA (BROMELIACEAE). American Journal of Botany 74(4): 531-537.
Till 1992 (1992) Systematics and evolution of the tropical and subtropical Tillandsia subgenus Diaphoranthema (Bromeliaceae). Selbyana 13: 88-94.
Vera-Paz et al. 2023 (2023) Plastome phylogenomics reveals an early Pliocene North- and Central America colonization by long-distance dispersal from South America of a highly diverse bromeliad lineage. Frontiers in Plant Science 14: 1205511 (online).
Winkler 1990 (1990) Zur Evolution der Gattung Tillandsia. Botanische Jahrbücher für Systematik, Pflanzengeshichte und Pflanzengeographie 112: 43-77.

Tillandsioideae (5)

Barfuss 2012 (2012) Molecular studies in Bromeliaceae: Implications of plastid and nuclear DNA markers for phylogeny, biogeography, and character evolution with emphasis on a new classification of Tillandsioideae. , 234 pp.
Barfuss et al. 2015 (2015) Phylogeny and morphology demand a revised classification of Bromeliaceae subfamily Tillandsioideae. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Kessous et al. 2019 (2019) Historical biogeography of a Brazilian lineage of Tillandsioideae (subtribe Vrieseinae, Bromeliaceae): the Paranaean Sea hypothesized as the main vicariant event. Botanical Journal of the Linnean Society boz038.
Terry et al 1997 (1997) Phylogenetic Relationships in Subfamily Tillandsioideae (Bromeliaceae) Using ndhF Sequence. Systematic Botany 22(2): 333-345.
Vera-Paz et al. 2022 (2022) New plastome structural rearrangements discovered in core Tillandsioideae (Bromeliaceae) support recently adopted taxonomy. Frontiers in Plant Science 13: 1-19 online.

Tillandsioids (1)

La Harpe et al. 2015 (2015) Genomics of speciation and species cohesion among Tillandsioids in Neotropical mountains. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.

Ursulaea (1)

Izquierdo & Pinero 1998 (1998) Allozyme divergence among four species of Podaechmea s. 1. and the status of Ursulaea (Bromeliaceae, Bromelioideae). Plant Systematics and Evolution 213: 207-215.

Vriesea (13)

Costa et al. 2015 (2015) Vriesea (Bromeliaceae, Tillandsioideae): a cladistic analysis of eastern Brazilian species based on morphological characters. Rodriguésia 66(2): 429-440.
Machado et al. 2020 (2020) Systematics of Vriesea (Bromeliaceae): phylogenetic relationships based on nuclear gene and partial plastome sequences. Botanical Journal of the Linnean Society 192(4): 656-674.
Margis 2015 (2015) Transcriptomic analyses of Vriesea carinata: diversity of cysteine proteinases and identification of microRNAs. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Neri et al. 2021 (2021) Comparative phylogeography of bromeliad species: effects of historical processes and mating system on genetic diversity and structure. Botanical Journal of the Linnean Society XX, 1–14. 3 figures..
Neves et al 2020 (2020) Pollinators drive floral evolution in an Atlantic Forest genus. Annals of Botany - Plants 12(5): 1-12.
Neves et al. 2019 (2019) Drivers of bromeliad leaf and floral bract variation across a latitudinal gradient in the Atlantic Forest. Journal of Biogeography 2019: 1–14.
PALMA-SILVA et al. 2007 (2007) A set of polymorphic microsatellite loci for Vriesea gigantea and Alcantarea imperialis (Bromeliaceae) and cross-amplification in other bromeliad species. Molecular Ecology Notes 7(4): 654-657.
Ribeiro et al. 2013 (2013) Genetic diversity of Vriesea cacuminis (Bromeliaceae): an endangered and endemic Brazilian species. Genetics and Molecular Research 12 (2): 1934-1943.
Salgueiro et al. 2015 (2015) Genetic structure of relictual populations of Vriesea botafogensis Mez (Bromeliaceae) inferredfrom two cpDNA loci. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.
Silva & Souza 2017 (2018) What actually is Vriesea? A total evidence approach in a polyphyletic genus of Tillandsioideae (Bromeliaceae, Poales). Cladistics 34(2): 181-199.
Systematic Botany (2012) A Morphological Cladistic Analysis of the Vriesea corcovadensis Group (Bromeliaceae: Tillandsiodeae), with Anatomical Descriptions: New Evidence of the Non-Monophyly of the Genus. Systematic Botany 37(3): 641-654.
Todeschini et al. 2018 (2018) Development, characterization, and transferability of SSR markers for Vriesea carinata (Bromeliaceae) based on RNA sequencing. Applications in Plant Sciences 6(10): e01184-.
Zanella et al. 2015 (2015) Patterns of genetic diversity and phylogeography, insights into speciation history with Atlantic Rainforest species. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. Rodriguésia 66(2): A1-A66. , pp.

Vrieseinae (1)

Kessous et al. 2019 (2019) Historical biogeography of a Brazilian lineage of Tillandsioideae (subtribe Vrieseinae, Bromeliaceae): the Paranaean Sea hypothesized as the main vicariant event. Botanical Journal of the Linnean Society boz038.

Total: 179