Encyclopedia of Bromeliads

Bromeliaceae Literature: Anatomy

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

Titles are ordered by Subject

Aechmea (8)

Aoyama & Sajo 2003 (2003) Leaf structure of Aechmea Ruiz & Pav. subgenus Lamprococcus (Beer) Baker and related species (Bromeliaceae). Rev. Bras. Bot 26 : 461-473.
Ballego C. & Paiva 2018 (2018) Mucilage secretion in the inflorescences of Aechmea blanchetiana: Evidence of new functions of scales in Bromeliaceae. Flora 246/247 : 1-9.
Coffani-Nunes 2015 (2015) Anatomy of the rhizomes of Aechmea, Nidularium and Vriesea (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.
Lafont et al. 2023 (2023) Light intensity mediates phenotypic plasticity and leaf trait regionalisation in a tank bromeliad. Annals of Botany 131: mcad126 (online).
Palma-Silva et al. 2004 (2004) Chromosome numbers, meiotic behavior, and pollen viability of species of Vriesea and Aechmea genera (Bromeliaceae) native to Rio Grande do Sul, Brazil. American Journal of Botany 91(6): 804-807.
Proenca & Sajo 2004 (2004) Leaf anatomy of Aechmea Ruiz & Pav. (Bromeliaceae) of São Paulo State, Brazil. Acta Bot. Bras 18 : 319-331.
Rosa et al. 2020 (2020) Floral development and anatomy of two species of Aechmea (Bromeliaceae, Bromelioideae). Botanical Journal of the Linnean Society 20: 1–18.
Voltolini & Santos 2011 (2011) Leaf morphoanatomy variation in Aechmea lindenii (E. Morren) Baker var. lindenii (Bromeliaceae) under distinct environmental conditions. Acta Bot. Bras 25 : 2-10.

Alcantarea (1)

Versieux & Wanderley 2010a (2010) Alcantarea (Bromeliaceae) leaf anatomical characterization and its systematic implications. Nordic Journal of Botany 28: 385–397.

Ananas (3)

Britoet al. 2016 (2016) Morfoanatomía foliar de dos ecotipos de Ananas comosus (L.) Merr. del Amazonas . Acta Bot. Venez 39(2): 158-179.
Duval 2003 (2003) Relationships in Ananas and other related genera using chloroplast DNA restriction site variation. Genome 46: 990-1004..
Liduena et al. 2022 (2022) Ananas ananassoides (Baker) L.B.Sm. a bromeliad from the savanna: seed morpho-anatomy and histochemistry. Braz. J. Biol 84: 2024 (online).

Atlantic forest (1)

Rodrigues Pereira 2011 (2011) Comparative leaf anatomy of four species of Bromelioideae (Bromeliaceae) occurring in the Atlantic Forest, Brazil. Botany 89(4): 243-253.

Billbergia (1)

Rodrigues Pereira et al. 2013 (2013) Leaf morpho-anatomical variations in Billbergia elegans and Neoregelia mucugensis (Bromeliaceae) exposed to low and high solar radiation. Botany 91(6): 327-334.

Brazil (1)

Rodrigues Pereira 2011 (2011) Comparative leaf anatomy of four species of Bromelioideae (Bromeliaceae) occurring in the Atlantic Forest, Brazil. Botany 89(4): 243-253.

Brocchinia (2)

Owen & Thomson 1991 (1991) Structure and function of a specialized cell wall in the trichomes of the carnivorous bromeliad Brocchinia reducta. Canadian Journal of Botany 69(8): 1700-1706.
Owen et al. 1988 (1988) Apoplastic and ultrastructural characterizations of the trichomes from the carnivorous bromeliad Brocchinia reducta. Canadian Journal of Botany 66(5): 941-948.

Bromelia (34)

Arrais 1989 (1989) Aspectos anatômicos de espécies de Bromeliaceae da Serra do Cipó - Minas Gerais, com especial referência à vascularizaçâo floral. São Paulo Brazil, pp.
Beard 2012 (2012) Photosynthesis for Bromeliad Gardeners (A three part article). Far North Coast Bromeliad Study Group N.S.W. Australia, pp.
Benzing & Friedma 1981 (1981) Patterns of foliar pigmentation and their adaptive significance (Bromeliaceae). In: Selbyana. Selbyana 5(3-4): 224-240.
Benzing 1976 (1976) Bromeliad trichomes: structure and function. Selbyana 1: 330-348.
Böhme 1988 (1988) Bromelienstudien. III. Vergleichende Untersuchungen zu Bau, Lage und systematischer Verwertbarkeit der Septalnektarien von Bromeliaceen. Tropische und Subtropische Pflanzenwelt 62: 152-274.
Braga 1977 (1977) Anatomia foliar de Bromeliaceae da Campina. Universidade do Amazonas. Conselho Nacional de Desenvolvimiento Científico e Tecnológico, Instituto Nacional de Pesquisas da Amazônia. Manaus Brazil, 74 pp.
Brown & Gilmartin 1984 (1984) Stigma structure and variation in Bromeliaceae. Brittonia 36(4): 364-374.
Brown & Gilmartin 1986 (1986) Chromosomes of the Bromeliaceae. Selbyana 9: 88-91.
Cach-Pérez et al. 2016 (2016) Environmental influence on the inter- and intraspecific variation in the density and morphology of stomata and trichomes of epiphytic bromeliads of the Yucatan Peninsula. Botanical Journal of the Linnean Society 181(3): 441-458.
Cedervall 1884 (1884) Anatomisk-fysiologiska undersökningar öfver bladet hos Bromeliaceerna. Bihang til Kongliga Svenska Vetenskaps-Akademiens handlingar no. 19.
Cotias-de Oliveria et al. 2000 (2000) Chromosome numbers in Bromeliaceae. Genetics and Molecular Biology 23(1): 173-177.
Ehler 1977 (1977) Neue Untersuchungen zur Entwicklung, Struktur und Funktion der Bromelien-Trichome. Bromelienstudien II. Tropische und Subtr. Pflanzenwelt 20: 1-40.
Gitai 2006 (2006) Contribuição de Características Citogenéticas e Moleculares à Sitemática de Bromeliceae. , 115 pp.
Gitai et al. 2014 (2014) Chromosome numbers and DNA content in Bromeliaceae: additional data and critical review. Botanical Journal of the Linnean Society 176: 349–368..
Kuhn et al. 2020 (2020) Diversity and evolutionary trends of the ovary and ovule in Bromeliaceae. Flora .
Marcos et al. 2015 (2015) Stigma Development 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.
Mariath 2015 (2015) Embryological and anatomical features in Bromeliad Systematics. 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.
Martelo et al. 2022 (2022) Seed’s morpho-anatomy and post-seminal development of Bromeliaceae from tropical dry forest. Rodriguésia 73: 1-16 (e02122020).
Monteiro et al. 2011 (2011) Leaf structure of Bromelia and its significance for the evolution of Bromelioideae (Bromeliaceae). Plant Syst Evol 293: 53–64.
Morelli 2015 (2015) Leaves of Bromeliaceae from the Brazilian Chaco: morphological and anatomical features of six 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.
Napp-Zinn et al. 1978 (1978) Vergleichend-anatomische Untersuchungen an petaloiden Hochblättern. I. Bromeliaceen. Steiner Verlag, Wiesbaden Germany, 87 pp.
Oliveira et al. 2020 Androecium and gynoecium anatomy of Bromeliaceae species. Flora .
Pierce et al. 2001 (2001) Hydrophobic trichome layers and epicuticular wax powders in Bromeliaceae. American journal of Botany 88(8): 1371-;1389.
Proenca & Sajo 2007 (2007) Leaf anatomy of bromeliads from the cerrado of São Paulo State, Brazil. Acta Bot. Bras 21 : 657-673.
Proenca & Sajo (2008) Anatomy of the floral scape of Bromeliaceae. Revista Brasileira de Botânica 31(3): .399-408.
Proenca & Sajo 2007 (2007) Anatomia foliar de bromélias ocorrentes em áreas de cerrado do Estado de São Paulo, Brasil. Acta bot. bras 21(3): 657-673.
Richter 1891 (1891) Die Bromeliaceen vergleichend anatomisch betrachtet : ein Beitrag zur Physiologie der Gewebe. Friedrich-Wilhelms-Universität Berlin. Druck von F. Driemel & Sohn : Commissions-Verlag von F. Winckler, Lübben Germany, 23 pp.
Sajo 2004 (2004) Structure and development of the ovule in Bromeliaceae. Kew Bulletin 59: 251-262.
Sajo et al. 2004 (2004) Structure and development of the ovule in Bromeliaceae. Kew Bulletin 59: 261-267.
Schill et al. 1988 (1988) Untersuchungen an Bromeliennarben. Beitrage zur Biologie der Pflanzen 63: 221-252..
Smith 2015 (2015) CAM photosynthesis as an adaptive feature in the ecophysiology and evolution of 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.
Solederer & Meyer 1929 (1929) Bromeliaceae. In: Systematische Anatomie der Monokotyledonen, part 4 Farinosae. Verlag Gebrüder Borntrager, Berlin Germany, pp. 80–129.
Tomlinson 1969 (1969) Bromeliaceae. In: Metcalfe, C.R. (ed) - Anatomy of the Monocotyledons. At the Clarendon Press, Oxford UK, pp. 193–294.
Wendt et al. 2008 (2008) An apparent lack of prezygotic reproductive isolation among 42 sympatric species of Bromeliaceae in southeastern Brazil. Plant Systematics and Evolution 275: 31–41.

Bromeliaceae (32)

Arrais 1989 (1989) Aspectos anatômicos de espécies de Bromeliaceae da Serra do Cipó - Minas Gerais, com especial referência à vascularizaçâo floral. São Paulo Brazil, pp.
Beard 2012 (2012) Photosynthesis for Bromeliad Gardeners (A three part article). Far North Coast Bromeliad Study Group N.S.W. Australia, pp.
Benzing & Friedma 1981 (1981) Patterns of foliar pigmentation and their adaptive significance (Bromeliaceae). In: Selbyana. Selbyana 5(3-4): 224-240.
Benzing 1976 (1976) Bromeliad trichomes: structure and function. Selbyana 1: 330-348.
Böhme 1988 (1988) Bromelienstudien. III. Vergleichende Untersuchungen zu Bau, Lage und systematischer Verwertbarkeit der Septalnektarien von Bromeliaceen. Tropische und Subtropische Pflanzenwelt 62: 152-274.
Braga 1977 (1977) Anatomia foliar de Bromeliaceae da Campina. Universidade do Amazonas. Conselho Nacional de Desenvolvimiento Científico e Tecnológico, Instituto Nacional de Pesquisas da Amazônia. Manaus Brazil, 74 pp.
Brown & Gilmartin 1984 (1984) Stigma structure and variation in Bromeliaceae. Brittonia 36(4): 364-374.
Brown & Gilmartin 1986 (1986) Chromosomes of the Bromeliaceae. Selbyana 9: 88-91.
Cach-Pérez et al. 2016 (2016) Environmental influence on the inter- and intraspecific variation in the density and morphology of stomata and trichomes of epiphytic bromeliads of the Yucatan Peninsula. Botanical Journal of the Linnean Society 181(3): 441-458.
Cedervall 1884 (1884) Anatomisk-fysiologiska undersökningar öfver bladet hos Bromeliaceerna. Bihang til Kongliga Svenska Vetenskaps-Akademiens handlingar no. 19.
Cotias-de Oliveria et al. 2000 (2000) Chromosome numbers in Bromeliaceae. Genetics and Molecular Biology 23(1): 173-177.
Ehler 1977 (1977) Neue Untersuchungen zur Entwicklung, Struktur und Funktion der Bromelien-Trichome. Bromelienstudien II. Tropische und Subtr. Pflanzenwelt 20: 1-40.
Gitai 2006 (2006) Contribuição de Características Citogenéticas e Moleculares à Sitemática de Bromeliceae. , 115 pp.
Gitai et al. 2014 (2014) Chromosome numbers and DNA content in Bromeliaceae: additional data and critical review. Botanical Journal of the Linnean Society 176: 349–368..
Kuhn et al. 2020 (2020) Diversity and evolutionary trends of the ovary and ovule in Bromeliaceae. Flora .
Marcos et al. 2015 (2015) Stigma Development 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.
Mariath 2015 (2015) Embryological and anatomical features in Bromeliad Systematics. 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.
Morelli 2015 (2015) Leaves of Bromeliaceae from the Brazilian Chaco: morphological and anatomical features of six 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.
Napp-Zinn et al. 1978 (1978) Vergleichend-anatomische Untersuchungen an petaloiden Hochblättern. I. Bromeliaceen. Steiner Verlag, Wiesbaden Germany, 87 pp.
Oliveira et al. 2020 Androecium and gynoecium anatomy of Bromeliaceae species. Flora .
Pierce et al. 2001 (2001) Hydrophobic trichome layers and epicuticular wax powders in Bromeliaceae. American journal of Botany 88(8): 1371-;1389.
Proenca & Sajo 2007 (2007) Leaf anatomy of bromeliads from the cerrado of São Paulo State, Brazil. Acta Bot. Bras 21 : 657-673.
Proenca & Sajo (2008) Anatomy of the floral scape of Bromeliaceae. Revista Brasileira de Botânica 31(3): .399-408.
Proenca & Sajo 2007 (2007) Anatomia foliar de bromélias ocorrentes em áreas de cerrado do Estado de São Paulo, Brasil. Acta bot. bras 21(3): 657-673.
Richter 1891 (1891) Die Bromeliaceen vergleichend anatomisch betrachtet : ein Beitrag zur Physiologie der Gewebe. Friedrich-Wilhelms-Universität Berlin. Druck von F. Driemel & Sohn : Commissions-Verlag von F. Winckler, Lübben Germany, 23 pp.
Sajo 2004 (2004) Structure and development of the ovule in Bromeliaceae. Kew Bulletin 59: 251-262.
Sajo et al. 2004 (2004) Structure and development of the ovule in Bromeliaceae. Kew Bulletin 59: 261-267.
Schill et al. 1988 (1988) Untersuchungen an Bromeliennarben. Beitrage zur Biologie der Pflanzen 63: 221-252..
Smith 2015 (2015) CAM photosynthesis as an adaptive feature in the ecophysiology and evolution of 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.
Solederer & Meyer 1929 (1929) Bromeliaceae. In: Systematische Anatomie der Monokotyledonen, part 4 Farinosae. Verlag Gebrüder Borntrager, Berlin Germany, pp. 80–129.
Tomlinson 1969 (1969) Bromeliaceae. In: Metcalfe, C.R. (ed) - Anatomy of the Monocotyledons. At the Clarendon Press, Oxford UK, pp. 193–294.
Wendt et al. 2008 (2008) An apparent lack of prezygotic reproductive isolation among 42 sympatric species of Bromeliaceae in southeastern Brazil. Plant Systematics and Evolution 275: 31–41.

Bromelioidae (1)

Oliveira et al. 2018 (2018) Morphoanatomical characters in the Nidularioid Complex (Bromeliaceae: Bromelioidae) from a phylogenetic perspective. Flora 239: 111–121 (online 2017).

Bromelioideae (2)

Resende et al. Seed development and its relationship to fruit structure in species of Bromelioideae (Bromeliaceae) with fleshy fruits. Botanical Journal of the Linnean Society .
Rodrigues Pereira 2011 (2011) Comparative leaf anatomy of four species of Bromelioideae (Bromeliaceae) occurring in the Atlantic Forest, Brazil. Botany 89(4): 243-253.

Cam (2)

Costa et al. 2024 (2024) Tissue investments related to water absorption and retention in Bromeliaceae: exploring variations in CAM metabolism expressing between dry and rainy seasons. Rodriguésia 75: e01722023.
Smith 2015 (2015) CAM photosynthesis as an adaptive feature in the ecophysiology and evolution of 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.

Chromosomes (5)

Brown & Gilmartin 1986 (1986) Chromosomes of the Bromeliaceae. Selbyana 9: 88-91.
Cotias-de Oliveria et al. 2000 (2000) Chromosome numbers in Bromeliaceae. Genetics and Molecular Biology 23(1): 173-177.
Gitai et al. 2014 (2014) Chromosome numbers and DNA content in Bromeliaceae: additional data and critical review. Botanical Journal of the Linnean Society 176: 349–368..
Louzada et al. 2010 (2010) Chromosome number of Orthophytum species (Bromeliaceae). Kew Bulletin 65: 1 – 6.
Ramirez & Brown 2001 (2001) The Origin of the Low Chromosome Number in Cryptanthus (Bromeliaceae). Systematic Botany 26(4): pp. 722–726.

Connelia (1)

Robinson 1969 (1969) A monograph on foliar anatomy of the genera Connellia, Cottendorfia and Navia. Smithsonian contributions to botany no. 2.

Cottendorfia (1)

Robinson 1969 (1969) A monograph on foliar anatomy of the genera Connellia, Cottendorfia and Navia. Smithsonian contributions to botany no. 2.

Cryptanthus (1)

Ramirez & Brown 2001 (2001) The Origin of the Low Chromosome Number in Cryptanthus (Bromeliaceae). Systematic Botany 26(4): pp. 722–726.

Deuterocohnia (1)

Schutz 2015 (2015) Chloroplast haplotypes indicate ancient and recent hybridization in the genus Deuterocohnia (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.

Dyckia (6)

Guarçoni et al. 2015 (2015) Leaf anatomy of species of the Dyckia (Bromeliaceae): D. saxatilis complex. 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.
Lobo et al. 2013 (2013) Leaf epidermis of the rheophyte Dyckia brevifolia Baker (Bromeliaceae). Sci. World J 2013 Article 307593.
Pita 1997 (1997) Estudos anatômicos dos órgãos vegetativos de Dyckia Schult. f. e Encholirium Mart. ex Schult. f. (Bromeliaceae) da Cerra do Cipó - MG. Universidade de São Paulo, Brazil, pp.
Silva & Oliveira 2024 (2024) Occurrence of parietal and invasive tapetum in Dyckia strehliana (Bromeliaceae): first report for the Family. Rodriguesia 75: e00832023.
Tavares et al. 2016 (2016) Stamen morphoanatomy of Dyckia Schult.f. (Bromeliaceae, Pitcairnioideae) species: new data for taxonomic use. Acta Botanica Brasilica 1-12.
Voltolini et al. 2009 (2009) Leaf morphoanatomy of the rheophyte Dyckia distachya Hassler (Bromeliaceae). Rev. Bras. Biocincias 7 : 335-343.

Embryo (1)

Carvalho et al. 2024 (2024) Unveiling the embryo structure in Bromeliaceae Juss. (Poales): morphological diversity, anatomy, and character evolution . Annals of Botany .

Encholirium (1)

Pita 1997 (1997) Estudos anatômicos dos órgãos vegetativos de Dyckia Schult. f. e Encholirium Mart. ex Schult. f. (Bromeliaceae) da Cerra do Cipó - MG. Universidade de São Paulo, Brazil, pp.

Greigia (1)

Romero 2007 (2007) Leaf anatomy of the Mexican species of Greigia (Bromeliaceae). Journal of the Bromeliad Society 57(3): 115-118.

Guzmania (2)

Chaves et al. 2015 (2015) Leaf anatomy of Guzmania Ruiz & Pav. (Bromeliaceae) occurring in Ceará, 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.
Versieux & Medeiros 2018 (2018) Leaf anatomical characterization of Guzmania Ruiz & Pav. and Mezobromelia L.B.Sm. (Tillandsioideae, Bromeliaceae). Journal of the Bromeliad Society 67(1): 8-26.

Lamprococcus (1)

Aoyama 2002 (2002) Estrutura foliar de Aechmea subgênero Lamprococcus e espécies relacionadas (Bromeliaceae). Univ. Est. Paulista Julio de Mesquita Filho, Rio Claro, Brazil, pp. 461–473.

Leaf (27)

Aoyama & Sajo 2003 (2003) Leaf structure of Aechmea Ruiz & Pav. subgenus Lamprococcus (Beer) Baker and related species (Bromeliaceae). Rev. Bras. Bot 26 : 461-473.
Aoyama 2002 (2002) Estrutura foliar de Aechmea subgênero Lamprococcus e espécies relacionadas (Bromeliaceae). Univ. Est. Paulista Julio de Mesquita Filho, Rio Claro, Brazil, pp. 461–473.
Benzing et al. 1978 (1978) The Foliar Epidermis in Tillandsioideae (Bromeliaceae) and its role in Habitat Selection. American Journal of Botany 65(3): 359-365.
Braga 1977 (1977) Anatomia foliar de Bromeliaceae da Campina. Universidade do Amazonas. Conselho Nacional de Desenvolvimiento Científico e Tecnológico, Instituto Nacional de Pesquisas da Amazônia. Manaus Brazil, 74 pp.
Britoet al. 2016 (2016) Morfoanatomía foliar de dos ecotipos de Ananas comosus (L.) Merr. del Amazonas . Acta Bot. Venez 39(2): 158-179.
Chaves et al. 2015 (2015) Leaf anatomy of Guzmania Ruiz & Pav. (Bromeliaceae) occurring in Ceará, 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.
Faria et al. 2021 (2021) Leaf anatomy of Vriesea (Tillandsioideae–Bromeliaceae). Brittonia 73(2): 27-52.
Guarçoni et al. 2015 (2015) Leaf anatomy of species of the Dyckia (Bromeliaceae): D. saxatilis complex. 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.
Lobo et al. 2013 (2013) Leaf epidermis of the rheophyte Dyckia brevifolia Baker (Bromeliaceae). Sci. World J 2013 Article 307593.
Machado et al. 2015 (2015) Trying to understand Vriesea taxonomy with leaf anatomy. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. , pp.
Mantovani et al. 2012 (2012) Leaf anatomy of Quesnelia (Bromeliaceae): implications for the systematics of core bromelioids. Plant Systematics and Evolution 298: 787-800.
Monteiro et al. 2011 (2011) Leaf structure of Bromelia and its significance for the evolution of Bromelioideae (Bromeliaceae). Plant Syst Evol 293: 53–64.
Morelli 2015 (2015) Leaves of Bromeliaceae from the Brazilian Chaco: morphological and anatomical features of six 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.
Oliveira et al. 2021 (2021) Leaf structure of Tillandsia species (Tillandsioideae: Bromeliaceae) by light microscopy and scanning electron microscopy. Microscopy, Reasearch & Tenchique (Wiley) 84(3): 1-17 (online).
Proenca & Sajo 2004 (2004) Leaf anatomy of Aechmea Ruiz & Pav. (Bromeliaceae) of São Paulo State, Brazil. Acta Bot. Bras 18 : 319-331.
Proenca & Sajo 2007 (2007) Leaf anatomy of bromeliads from the cerrado of São Paulo State, Brazil. Acta Bot. Bras 21 : 657-673.
Proenca & Sajo 2007 (2007) Anatomia foliar de bromélias ocorrentes em áreas de cerrado do Estado de São Paulo, Brasil. Acta bot. bras 21(3): 657-673.
Rodrigues Pereira 2011 (2011) Comparative leaf anatomy of four species of Bromelioideae (Bromeliaceae) occurring in the Atlantic Forest, Brazil. Botany 89(4): 243-253.
Rodrigues Pereira et al. 2013 (2013) Leaf morpho-anatomical variations in Billbergia elegans and Neoregelia mucugensis (Bromeliaceae) exposed to low and high solar radiation. Botany 91(6): 327-334.
Romero 2007 (2007) Leaf anatomy of the Mexican species of Greigia (Bromeliaceae). Journal of the Bromeliad Society 57(3): 115-118.
Santos-Silva et all. 2013 (2013) Invasion of the South American dry diagonal: What can the leaf anatomy of Pitcairnioideae (Bromeliaceae) tell us about it?. Flora - Morphology, Distribution, Functional Ecology of Plants 208(8–9): 508–521.
Souza & Neves 1995 (1995) Leaf anatomy of four Tillandsia species. Nat. Museum Univ. Rio de Janeiro Brazil, 71 pp.
Vargas et al. 2015 (2015) Plasticity of leaf anatomy in the nurse-plant bromeliad Neoregelia cruenta. 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 & Medeiros 2018 (2018) Leaf anatomical characterization of Guzmania Ruiz & Pav. and Mezobromelia L.B.Sm. (Tillandsioideae, Bromeliaceae). Journal of the Bromeliad Society 67(1): 8-26.
Versieux & Wanderley 2010a (2010) Alcantarea (Bromeliaceae) leaf anatomical characterization and its systematic implications. Nordic Journal of Botany 28: 385–397.
Voltolini & Santos 2011 (2011) Leaf morphoanatomy variation in Aechmea lindenii (E. Morren) Baker var. lindenii (Bromeliaceae) under distinct environmental conditions. Acta Bot. Bras 25 : 2-10.
Voltolini et al. 2009 (2009) Leaf morphoanatomy of the rheophyte Dyckia distachya Hassler (Bromeliaceae). Rev. Bras. Biocincias 7 : 335-343.

Light (1)

Lafont et al. 2023 (2023) Light intensity mediates phenotypic plasticity and leaf trait regionalisation in a tank bromeliad. Annals of Botany 131: mcad126 (online).

Mezobromelia (1)

Versieux & Medeiros 2018 (2018) Leaf anatomical characterization of Guzmania Ruiz & Pav. and Mezobromelia L.B.Sm. (Tillandsioideae, Bromeliaceae). Journal of the Bromeliad Society 67(1): 8-26.

Navia (1)

Robinson 1969 (1969) A monograph on foliar anatomy of the genera Connellia, Cottendorfia and Navia. Smithsonian contributions to botany no. 2.

Nectaries (1)

Böhme 1988 (1988) Bromelienstudien. III. Vergleichende Untersuchungen zu Bau, Lage und systematischer Verwertbarkeit der Septalnektarien von Bromeliaceen. Tropische und Subtropische Pflanzenwelt 62: 152-274.

Nectary (1)

Mosti et al. 2013 (2013) Nectary ultrastructure and secretory modes in three species of Tillandsia (Bromeliaceae) that have different pollinators. Botany 91(11): 786-798.

Neoregelia (3)

Rodrigues Pereira et al. 2013 (2013) Leaf morpho-anatomical variations in Billbergia elegans and Neoregelia mucugensis (Bromeliaceae) exposed to low and high solar radiation. Botany 91(6): 327-334.
Silva et al. 2018 (2018) Anatomy of vegetative organs, inflorescence axis and pedicel in the Neoregelia bahiana complex (Bromeliaceae): taxonomic and ecological importance. Nordic Journal of Botany 36(7): e01800-.
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Nidularioid (1)

Nogueira et al. 2015 (2015) Ovary and ovule anatomy in the nidularioid complex and its taxonomic utility (Bromelioideae: 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 177: 66–77.

Nidularium (1)

Coffani-Nunes 2015 (2015) Anatomy of the rhizomes of Aechmea, Nidularium and Vriesea (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.

Orthophytum (1)

Louzada et al. 2010 (2010) Chromosome number of Orthophytum species (Bromeliaceae). Kew Bulletin 65: 1 – 6.

Ovary (3)

Kuhn et al. 2016 (2016) Morphoanatomy of the ovary and ovule in Bromeliaceae subfamily Tillandsioideae and its systematic relevance. Botanical Journal of the Linnean Society 2016: 1-19.
Kuhn et al. 2020 (2020) Diversity and evolutionary trends of the ovary and ovule in Bromeliaceae. Flora .
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Ovule (3)

Mendes et al. 2014 (2014) Ovule and female gametophyte development in the Bromeliaceae: an embryological study of Pitcairnia encholirioides. Botany 92(12): 883-894.
Sajo 2004 (2004) Structure and development of the ovule in Bromeliaceae. Kew Bulletin 59: 251-262.
Sajo et al. 2004 (2004) Structure and development of the ovule in Bromeliaceae. Kew Bulletin 59: 261-267.

Pigmentation (1)

Benzing & Friedma 1981 (1981) Patterns of foliar pigmentation and their adaptive significance (Bromeliaceae). In: Selbyana. Selbyana 5(3-4): 224-240.

Pitcairnia (1)

Mendes et al. 2014 (2014) Ovule and female gametophyte development in the Bromeliaceae: an embryological study of Pitcairnia encholirioides. Botany 92(12): 883-894.

Pitcairnioideae (2)

Santos-Silva et all. 2013 (2013) Invasion of the South American dry diagonal: What can the leaf anatomy of Pitcairnioideae (Bromeliaceae) tell us about it?. Flora - Morphology, Distribution, Functional Ecology of Plants 208(8–9): 508–521.
Varadarajan 1987 (1987) Foliar scales of the subfamily Pitcairnioideae (Bromeliaceae). Systematic Botany 12(4): 562-571.

Pollen (2)

Albert et al. 2010 (2010) Formation and function of a new pollen aperture pattern in angiosperms: The proximal sulcus of Tillandsia leiboldiana (Bromeliaceae). American Journal of Botany 97(2): 365-368.
Brighigna et al. 1981 (1981) Ultrastructural Investigations on the two-nucleate Pollen Grain of Tillandsia caput-medusae Morr. (Bromeliaceae). American Journal of Botany 68(8): 1033-1041.

Quesnelia (1)

Mantovani et al. 2012 (2012) Leaf anatomy of Quesnelia (Bromeliaceae): implications for the systematics of core bromelioids. Plant Systematics and Evolution 298: 787-800.

Rhizomes (1)

Coffani-Nunes 2015 (2015) Anatomy of the rhizomes of Aechmea, Nidularium and Vriesea (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.

Scapes (3)

Proenca & Sajo (2008) Anatomy of the floral scape of Bromeliaceae. Revista Brasileira de Botânica 31(3): .399-408.
Scatena & Segecin 2005 (2005) Anatomy of Tillandsia L. (Bromeliaceae) scapes from the "Campos Gerais" of Paraná, Brazil. Rev. Bras. Bot 27 : 515-525.
Segecin 2004 (2004) Anatomia de escapos de Tillandsia L. (Bromeliaceae) dos Campos Gerais do Paraná, Brasil. Part of a Thesis, Universidade Estadual Paulista, Rio Claro, São Paulo, Brazil, pp.

Secretion (1)

Ballego et al. 2023 (2023) An overview of secretion in floral bracts of Tillandsioideae (Bromeliaceae), with emphasis on the secretory scales. Annals of Botany PLANTS 1-59 (oline).

Seeds (1)

Carvalho et al. 2024 (2024) The Seed Coat Structure in Bromeliaceae Juss. (Poales): Morphoanatomical Diversity and Insights Into Character Evolution. The Botanical Review : 1-55 (online).

Stamen (1)

Tavares et al. 2016 (2016) Stamen morphoanatomy of Dyckia Schult.f. (Bromeliaceae, Pitcairnioideae) species: new data for taxonomic use. Acta Botanica Brasilica 1-12.

Stigma (2)

Brown & Gilmartin 1984 (1984) Stigma structure and variation in Bromeliaceae. Brittonia 36(4): 364-374.
Marcos et al. 2015 (2015) Stigma Development 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.

Succulence (1)

Costa et al. 2024 (2024) Tissue investments related to water absorption and retention in Bromeliaceae: exploring variations in CAM metabolism expressing between dry and rainy seasons. Rodriguésia 75: e01722023.

Tillandsia (16)

Albert et al. 2010 (2010) Formation and function of a new pollen aperture pattern in angiosperms: The proximal sulcus of Tillandsia leiboldiana (Bromeliaceae). American Journal of Botany 97(2): 365-368.
Ballego et al. 2020 (2020) More than Scales: Evidence for the Production and Exudation of Mucilage by the Peltate Trichomes of Tillandsia cyanea (Bromeliaceae: Tillandsioideae). Plants 9(763): 1-15.
Benz & Martin 2006 (2006) Foliar trichomes, boundary layers, and gas exchange in 12 species of epiphytic Tillandsia (Bromeliaceae). J. Plant Physiol 163 : 648-656.
Brighigna et al. 1981 (1981) Ultrastructural Investigations on the two-nucleate Pollen Grain of Tillandsia caput-medusae Morr. (Bromeliaceae). American Journal of Botany 68(8): 1033-1041.
Brighigna et al. 1982 (1982) Observations on the Microbodies in the genus Tillandsia (Bromeliaceae). American Journal of Botany 69(7): 1179-1184.
Gardner 1984d (1984) Tillandsia cossonii. Journal of the Bromeliad Society 34(1): 8-10.
Martelo et al. 2022 (2022) Seed’s morpho-anatomy and post-seminal development of Bromeliaceae from tropical dry forest. Rodriguésia 73: 1-16 (e02122020).
Mosti et al. 2005 (2005) The Tillandsia trichome (Bromeliaceae) and its use in species identification. Webbia 60(2): 577-598.
Mosti et al. 2013 (2013) Nectary ultrastructure and secretory modes in three species of Tillandsia (Bromeliaceae) that have different pollinators. Botany 91(11): 786-798.
Oliveira et al. 2021 (2021) Leaf structure of Tillandsia species (Tillandsioideae: Bromeliaceae) by light microscopy and scanning electron microscopy. Microscopy, Reasearch & Tenchique (Wiley) 84(3): 1-17 (online).
Scatena & Segecin 2005 (2005) Anatomy of Tillandsia L. (Bromeliaceae) scapes from the "Campos Gerais" of Paraná, Brazil. Rev. Bras. Bot 27 : 515-525.
Segecin 2004 (2004) Anatomia de escapos de Tillandsia L. (Bromeliaceae) dos Campos Gerais do Paraná, Brasil. Part of a Thesis, Universidade Estadual Paulista, Rio Claro, São Paulo, Brazil, pp.
Souza & Neves 1995 (1995) Leaf anatomy of four Tillandsia species. Nat. Museum Univ. Rio de Janeiro Brazil, 71 pp.
Till 1984 (1984) Sippendifferenzierung innerhalb Tillandsia subgenus Diaphoranthema in Sudamerika mit Besonderer berucksichtigung des Anden-Ostrandes und der Angrenzenden Gebiete. , 219 pp.
Vite-P. ea. 2011 (2011) Morphoanatomical Characterization And Antimicrobial Activity Of Tillandsia Imperialis (Bromeliaceae). Polibotanica 31: 21-29.
Weiss & Gauthé 1965 (1965) Etude caryologique et cyto-taxinomique de quelques Broméliacées (H. E. Weiss) & Contribution à l'étude caryologique des Tillandsiées (J. Gauthé). Mémoires du Muséum d’Histoire Naturelle Nouvelle séries, sér. B, Botanique, t. 16, fasc. 1.

Tillandsioideae (2)

Benzing et al. 1978 (1978) The Foliar Epidermis in Tillandsioideae (Bromeliaceae) and its role in Habitat Selection. American Journal of Botany 65(3): 359-365.
Kuhn et al. 2016 (2016) Morphoanatomy of the ovary and ovule in Bromeliaceae subfamily Tillandsioideae and its systematic relevance. Botanical Journal of the Linnean Society 2016: 1-19.

Trichomes (12)

Ballego et al. 2020 (2020) More than Scales: Evidence for the Production and Exudation of Mucilage by the Peltate Trichomes of Tillandsia cyanea (Bromeliaceae: Tillandsioideae). Plants 9(763): 1-15.
Ballego-Campos et al. 2023 (2023) Complex exudates in inflorescences of Vriesea species reveal evidence of lipophilic secretions by scales of bromeliads. Flora 300: 152228 (online).
Benz & Martin 2006 (2006) Foliar trichomes, boundary layers, and gas exchange in 12 species of epiphytic Tillandsia (Bromeliaceae). J. Plant Physiol 163 : 648-656.
Benzing 1976 (1976) Bromeliad trichomes: structure and function. Selbyana 1: 330-348.
Benzing 1985 (1985) Absorptive Trichomes in Brocchinia reducta (Bromeliaceae) and Their Evolutionary and Systematic Significance. Systematic Botany 10(1): 81-91.
Cach-Pérez et al. 2016 (2016) Environmental influence on the inter- and intraspecific variation in the density and morphology of stomata and trichomes of epiphytic bromeliads of the Yucatan Peninsula. Botanical Journal of the Linnean Society 181(3): 441-458.
Ehler 1977 (1977) Neue Untersuchungen zur Entwicklung, Struktur und Funktion der Bromelien-Trichome. Bromelienstudien II. Tropische und Subtr. Pflanzenwelt 20: 1-40.
Kowalski et al. 2016 (2016) Are the wing's cells alive? Study case in Vriesea trichomes. Rodriguesia 67(2): 427-435.
Mosti et al. 2005 (2005) The Tillandsia trichome (Bromeliaceae) and its use in species identification. Webbia 60(2): 577-598.
Owen & Thomson 1991 (1991) Structure and function of a specialized cell wall in the trichomes of the carnivorous bromeliad Brocchinia reducta. Canadian Journal of Botany 69(8): 1700-1706.
Owen et al. 1988 (1988) Apoplastic and ultrastructural characterizations of the trichomes from the carnivorous bromeliad Brocchinia reducta. Canadian Journal of Botany 66(5): 941-948.
Pierce et al. 2001 (2001) Hydrophobic trichome layers and epicuticular wax powders in Bromeliaceae. American journal of Botany 88(8): 1371-;1389.

Vegetative organs (1)

Silva et al. 2018 (2018) Anatomy of vegetative organs, inflorescence axis and pedicel in the Neoregelia bahiana complex (Bromeliaceae): taxonomic and ecological importance. Nordic Journal of Botany 36(7): e01800-.

Vriesea (6)

Ballego-Campos et al. 2023 (2023) Complex exudates in inflorescences of Vriesea species reveal evidence of lipophilic secretions by scales of bromeliads. Flora 300: 152228 (online).
Faria et al. 2021 (2021) Leaf anatomy of Vriesea (Tillandsioideae–Bromeliaceae). Brittonia 73(2): 27-52.
Kowalski et al. 2016 (2016) Are the wing's cells alive? Study case in Vriesea trichomes. Rodriguesia 67(2): 427-435.
Machado et al. 2015 (2015) Trying to understand Vriesea taxonomy with leaf anatomy. In: Benko-Iseppon, A.M.; Alves, M. & Louzada, R. (2015) An overview and abstracts of the First World Congress on Bromeliaceae Evolution. , pp.
Palma-Silva et al. 2004 (2004) Chromosome numbers, meiotic behavior, and pollen viability of species of Vriesea and Aechmea genera (Bromeliaceae) native to Rio Grande do Sul, Brazil. American Journal of Botany 91(6): 804-807.
Prado et al. 2014 (2014) Seed morphology of Vriesea friburgensis var. paludosa L.B. Sm. (Bromeliaceae). Hoehnea 41(4): 553-562.

Total: 102