A plant family of the order Bromeliales, subclass Zingiberidae, class Liliopsida (monocotyledons).
A plant genus of the family BROMELIACEAE. Members contain karatasin and balansain (ENDOPEPTIDASES) and BROMELAINS.
A plant genus of the family BROMELIACEAE. Members contain 3-methoxy-5-hydroxyflavonols.
Woody, usually tall, perennial higher plants (Angiosperms, Gymnosperms, and some Pterophyta) having usually a main stem and numerous branches.
I'm sorry for any confusion, but "Brazil" is not a medical term or concept, it is a country located in South America, known officially as the Federative Republic of Brazil. If you have any questions related to health, medicine, or science, I'd be happy to help answer those!

A simulation study on the importance of size-related changes in leaf morphology and physiology for carbon gain in an epiphytic bromeliad. (1/41)

This study addresses the question of how size-related changes in leaf morphology and physiology influence light absorption and carbon gain of the epiphytic bromeliad Vriesea sanguinolenta. A geometrically based computer model, Y-plant, was used for the three-dimensional reconstruction of entire plants and for calculation of whole plant light interception and carbon gain. Plants of different sizes were reconstructed, and morphological and physiological attributes of young and old leaves, and small and large plants were combined to examine the individual effects of each factor on light absorption and carbon gain of the plant. The influence of phyllotaxis on light absorption was also explored. Departure of measured divergence angles between successive leaves from the ideal 137.5 degrees slightly decreased light absorption. The only morphological parameter that consistently changed with plant size was leaf shape: larger plants produced more slender foliage, which substantially reduced self-shading. Nevertheless, self-shading increased with plant size. While the maximum rate of net CO(2) uptake of leaves increased linearly with plant size by a factor of two from the smallest to the largest individual, the potential plant carbon gain (based on total foliage area) showed a curvilinear relationship, but with similar numerical variation. We conclude that leaf physiology has a greater impact on plant carbon gain than leaf and plant morphology in this epiphytic bromeliad.  (+info)

Multiple origins of crassulacean acid metabolism and the epiphytic habit in the Neotropical family Bromeliaceae. (2/41)

The large Neotropical family Bromeliaceae presents an outstanding example of adaptive radiation in plants, containing a wide range of terrestrial and epiphytic life-forms occupying many distinct habitats. Diversification in bromeliads has been linked to several key innovations, including water- and nutrient-impounding phytotelmata, absorptive epidermal trichomes, and the water-conserving mode of photosynthesis known as crassulacean acid metabolism (CAM). To clarify the origins of CAM and the epiphytic habit, we conducted a phylogenetic analysis of nucleotide sequences for 51 bromeliad taxa by using the plastid loci matK and the rps16 intron, combined with a survey of photosynthetic pathway determined by carbon-isotope ratios for 1,873 species representing 65% of the family. Optimization of character-states onto the strict consensus tree indicated that the last common ancestor of Bromeliaceae was a terrestrial C(3) mesophyte, probably adapted to moist, exposed, nutrient-poor habitats. Both CAM photosynthesis and the epiphytic habit evolved a minimum of three times in the family, most likely in response to geological and climatic changes in the late Tertiary. The great majority of epiphytic forms are now found in two lineages: in subfamily Tillandsioideae, in which C(3) photosynthesis was the ancestral state and CAM developed later in the most extreme epiphytes, and in subfamily Bromelioideae, in which CAM photosynthesis predated the appearance of epiphytism. Subsequent radiation of the bromelioid line into less xeric habitats has led to reversion to C(3) photosynthesis in some taxa, showing that both gain and loss of CAM have occurred in the complex evolutionary history of this family.  (+info)

Anti-inflammatory activity in the aqueous crude extract of the leaves of Nidularium procerum: A bromeliaceae from the Brazilian coastal rain forest. (3/41)

Nidularium procerum LINDMAN, a common bromeliaceae from the Brazilian flora, remains poorly studied regarding its chemical and pharmacological properties. We have recently published that N. procerum has potent analgesic and anti-inflammatory activities. In the present work, we have investigated potential mechanisms involved in the anti-inflammatory effects of N. procerum aqueous extract on lipopolysaccharide (LPS)-, platelet activating factor (PAF)- or formyl-methionyl-leucyl-phenylalanine (fMLP)-induced pleurisy models of inflammation. We found that the aqueous extract of N. procerum leaves (leaf aqueous extract; LAE) inhibits the neutrophil migration, production of inflammatory cytokines interleukin-1 and -6 (IL-1 and IL-6) and the generation of prostaglandin E2 (PGE2) in LPS-induced pleural inflammation in mice. Such inhibitory effect of N. procerum on PGE2 generation was tightly correlated to the inhibition of formation of new cytoplasmic lipid bodies within recruited leukocytes. N. procerum also blocked the in vivo neutrophil influx induced by injection of PAF or fMLP into the mouse pleural cavity and directly inhibited PAF-induced neutrophil chemotaxis in vitro. The data obtained in this study indicate that N. procerum LAE exerts its anti-inflammatory effects by interfering with the capacity of the host to respond to injury at different levels. Among the different functions affected by N. procerum LAE, lipid body formation, PGE2 and cytokine production and neutrophil chemotaxis are readily evidenced in relevant surrogate models. The N. procerum bioactive profile makes it an attractive candidate for future development as a drug or phytomedicine.  (+info)

Candida bromeliacearum sp. nov. and Candida ubatubensis sp. nov., two yeast species isolated from the water tanks of Canistropsis seidelii (Bromeliaceae). (4/41)

Strains belonging to two novel yeast species, Candida bromeliacearum and Candida ubatubensis, were isolated from the bromeliad tank of Canistropsis seidelii (Bromeliaceae) in a sandy coastal plain (restinga) ecosystem site in an Atlantic rainforest of south-eastern Brazil. These species were genetically distinct from all other currently accepted ascomycetous yeasts, based on sequence divergence in the D1/D2 domains of the large-subunit rDNA and in the small-subunit rDNA. The species occupy basal positions in the Metschnikowiaceae clade. The type strains are Candida bromeliacearum UNESP 00-103(T) (=CBS 10002(T)=NRRL Y-27811(T)) and Candida ubatubensis UNESP 01-247R(T) (=CBS 10003(T)=NRRL Y-27812(T)).  (+info)

Changes in carbohydrate and nutrient contents throughout a reproductive cycle indicate that phosphorus is a limiting nutrient in the epiphytic bromeliad, Werauhia sanguinolenta. (5/41)

BACKGROUND AND AIMS: This study examined the physiological basis of the cost of reproduction in the epiphytic bromeliad Werauhia sanguinolenta, growing in situ in a tropical lowland forest in Panama. METHODS: Entire mature plants were sampled repeatedly over the course of 2 years, which represents the common interval between reproductive events. Due to the uncertainty concerning the appropriate currency of resource allocation to reproduction, the temporal changes of the contents of total non-structural carbohydrates (TNC) and of all major nutrient elements in different plant parts were studied (stems, green leaves, non-green leaf bases, roots and reproductive structures when present). KEY RESULTS: Although TNC varied with time in all compartments, this variation was more related to seasonal fluctuations than to reproductive status. The contents of the nutrient elements, N, P, K, Mg and S, on the other hand, showed significant differences between reproductive and non-reproductive individuals, while Ca did not change with reproductive status. Differences in nutrient contents were most pronounced in stems. Seeds were particularly enriched in P, much less so in N and the other nutrient elements. Model calculations of nutrient fluxes indicate that a plant needs about 2 years to accumulate the amount of P invested in a fruit crop, while the estimated uptake rates for N were much faster. CONCLUSIONS: Since most mature individuals of this species fruit every other year, it is hypothesized that P is the prime limiting factor for reproduction. These findings therefore add to an increasing body of evidence that P rather than N is limiting growth and reproduction in vascular epiphytes.  (+info)

Neither host-specific nor random: vascular epiphytes on three tree species in a Panamanian lowland forest. (6/41)

BACKGROUND AND AIMS: A possible role of host tree identity in the structuring of vascular epiphyte communities has attracted scientific attention for decades. Specifically, it has been suggested that each host tree species has a specific subset of the local species pool according to its own set of properties, e.g. physicochemical characteristics of the bark, tree architecture, or leaf phenology patterns. METHODS: A novel, quantitative approach to this question is presented, taking advantage of a complete census of the vascular epiphyte community in 0.4 ha of undisturbed lowland forest in Panama. For three locally common host-tree species (Socratea exorrhiza, Marila laxiflora, Perebea xanthochyma) null models were created of the expected epiphyte assemblages assuming that epiphyte colonization reflected random distribution of epiphytes in the forest. KEY RESULTS: In all three tree species, abundances of the majority of epiphyte species (69-81 %) were indistinguishable from random, while the remaining species were about equally over- or under-represented compared with their occurrence in the entire forest plot. Permutations based on the number of colonized trees (reflecting observed spatial patchiness) yielded similar results. Finally, a third analysis (canonical correspondence analysis) also confirmed host-specific differences in epiphyte assemblages. In spite of pronounced preferences of some epiphytes for particular host trees, no epiphyte species was restricted to a single host. CONCLUSIONS: The epiphytes on a given tree species are not simply a random sample of the local species pool, but there are no indications of host specificity either.  (+info)

Predators accelerate nutrient cycling in a bromeliad ecosystem. (7/41)

Conventional ecological theory predicts that predators affect nutrient cycling by decreasing the abundance or activity of prey. By using a predator-detritivore-detritus food chain in bromeliads, we show that predators can increase nutrient cycling by a previously undescribed, but broadly applicable, mechanism: reducing nutrient export by prey emigration. Contrary to expectations, predation on detritivores increases detrital nitrogen uptake by bromeliads. Predation reduces detritivore emergence and hence export of nitrogen from the system. Detritivores therefore benefit their host plant, but only when predators are present. More generally, our results show that predator loss or extinction can dramatically and unexpectedly affect ecosystem functioning.  (+info)

Spatial distribution by Canistropsis microps (E. Morren ex Mez) Leme (Bromeliaceae: Bromelioideae) in the Atlantic rain forest in Ilha Grande, Southeastern Brazil. (8/41)

Canistropsis microps (Bromeliaceae: Bromelioideae) is an endemic species of Atlantic rain forest areas in Rio de Janeiro State, which are very abundant in not very disturbed forests in Ilha Grande, on the southern coast of the State. In this study, we analyzed the vertical and horizontal distribution patterns of the species in an area of rain forest with little evidence of disturbance at Vila Dois Rios, Ilha Grande, relating the patterns to sunlight in the microhabitat. We also identified the types of substrate used by the species and the rate of asexual reproduction. Canistropsis microps had high densities (estimated at 84,425 rosettes/ha), and has an aggregated distribution (Id = 2.86). About 80% of the rosettes were generated by clonal growth, whereas less than 20% were produced from seedlings. Most of the rosettes were found on straight tree trunks (DBH > 50 cm). There was a significant inverse correlation between the incidence of sunlight in the habitat and the abundance of individuals. Rosettes were found up to a maximum height of 9.5 m, but most occured between 1.5 and 5.5 m, where light varied from 25 to 50 micromol x s(-1) x m(-2). We conclude that vertical and horizontal distribution patterns in C. microps may be partially explained by the occurrence of appropriate substrate, an intensity of sunlight favorable to the development of the species and to a high rate of vegetative reproduction.  (+info)

Bromeliaceae is a family of monocotyledonous plants that includes over 3,000 species, the majority of which are native to the Americas. This family includes a diverse range of plants such as pineapples, Spanish moss, and air plants. Many bromeliads are known for their ability to store water in their leaves, creating a central reservoir that can support a variety of microorganisms and small animals. Some species have evolved to form mutualistic relationships with ants, which live in the hollowed-out leaf bases and help to defend the plant against herbivores.

Bromeliads are popular as ornamental plants due to their attractive foliage and flowers. They vary widely in size, from small, ground-hugging species to large trees that can reach several meters in height. The family is characterized by its unique inflorescences, which often take the form of brightly colored bracts surrounding clusters of small flowers.

Bromeliads have adapted to a wide range of habitats, from dry deserts to humid rainforests. They are known for their ability to absorb nutrients through their leaves, rather than relying solely on roots. This adaptation allows them to survive in nutrient-poor environments and makes them well-suited to life as epiphytes, or plants that grow on other plants without parasitizing them.

'Bromelia' is a term that refers to a genus of plants in the family Bromeliaceae, which includes over 3000 species. These plants are native to the Americas and are known for their rosette-shaped leaves that often form a water reservoir at the center of the plant. Some species of Bromelia are grown as ornamental plants, while others have commercial uses such as in the production of fiber or food (in the form of pineapple, which is the most well-known species of Bromelia).

It's worth noting that 'Bromelia' is not a medical term and does not have a specific definition within the field of medicine. However, certain compounds derived from Bromeliad plants have been studied for their potential medicinal properties, such as anti-inflammatory or antioxidant effects.

'Tillandsia' is not a medical term. It belongs to the field of botany, specifically to the family Bromeliaceae. Tillandsias are often referred to as "air plants" because they absorb water and nutrients through their leaves instead of roots. They are native to the forests, deserts, and mountains of Central and South America, with some species found in the southern United States.

Tillandsia species can vary greatly in size, shape, and color, making them popular choices for indoor and outdoor decoration. While they have no direct medical relevance, taking care of plants like Tillandsias has been linked to various mental and physical health benefits, such as stress reduction, improved mood, and increased focus and productivity.

I'm sorry for any confusion, but "trees" is not a medical term. It is a common term used in various fields, including biology, ecology, and dendrology, to refer to a woody perennial plant with a single stem or trunk that supports branches and leaves in most species.

If you have any questions related to medical terminology or health-related topics, please provide more context so I can offer an accurate and helpful response.

I apologize, but "Brazil" is not a medical term or condition. It is the largest country in both South America and Latin America by land area and population. If you have any questions related to medical terminology or health concerns, please provide more information and I will do my best to help.

The family Bromeliaceae is currently placed in the order Poales. The family Bromeliaceae is organized into eight subfamilies: ... 1889 Wikimedia Commons has media related to Bromeliaceae. Wikispecies has information related to Bromeliaceae. The New ... The Bromeliaceae (the bromeliads) are a family of monocot flowering plants of about 80 genera and 3700 known species, native ... "Bromeliaceae Juss". Plants of the World Online. Royal Botanic Gardens, Kew. Retrieved 2022-12-06. Gouda, E.J.; Butcher, D.; ...
This is a list of diseases of foliage plants belonging to the family Bromeliaceae. List of pineapple diseases Common Names of ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Holst, Bruce K. (1 February 1994). "Checklist of Venezuelan Bromeliaceae with Notes on Species Distribution by State and Levels ... "An Annotated Checklist of the Bromeliaceae of Costa Rica". Selbyana. 16 (2): 230-234. ISSN 0361-185X. JSTOR 41759911. ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Pitcairnia poortmanii is a species of flowering plant in the Bromeliaceae family. It is native to Ecuador. "Pitcairnia ...
Kew World Checklist of Selected Plant Families Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). ... Cáceres González, D.A., Schulte, K., Schmidt, M. & Zizka, G. (2011). A synopsis of the Bromeliaceae of Panama, including new ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ...
Kew World Checklist of Selected Plant Families Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Holst, Bruce K. (1 February 1994). "Checklist of Venezuelan Bromeliaceae with Notes on Species Distribution by State and Levels ...
Kew World Checklist of Selected Plant Families Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ...
mulfordii - Ecuador and Colombia Kew World Checklist of Selected Plant Families Luther, H.E. (1999). "Bromeliaceae". In ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... "Checklist of Bolivian Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 20 (2): 201-223. ISSN ...
Kew World Checklist of Selected Plant Families Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Holst, Bruce K. (1 February 1994). "Checklist of Venezuelan Bromeliaceae with Notes on Species Distribution by State and Levels ... Aguirre-Santoro, Julian; Betancur, Julio (2008). "Sinopsis del Género Aechmea (Bromeliaceae) para Colombia" [Synopsis of ... "Checklist of Bolivian Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 20 (2): 201-223. ISSN ...
... is a species of flowering plant in the family Bromeliaceae, native to Colombia and Ecuador. It was first ... "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = Catálogo de las plantas ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Pitcairnia brachysperma is a flowering plant in the Bromeliaceae family. It is native to Ecuador. "Pitcairnia brachysperma ...
Bromeliaceae. In Standley, P.C. & Steyermark, J.A. (Eds), Flora of Guatemala , Part I. Fieldiana: Botany 24(1): 380-476. ... "Checklist of Mexican Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 25 (1): 33-86. ISSN ...
Bromeliaceae. In: Manual of Plants of Costa Rica, BE Hammel, MH Grayum, C. Herrera & N. Zamora (eds.). Monogr. Syst. Bot. ... Diversity and levels of endemism of the Bromeliaceae of Costa Rica - an updated checklist. PhytoKeys 29: 17-61. Davidse, G., M ... Luther, Harry E. (1995). "An Annotated Checklist of the Bromeliaceae of Costa Rica". Selbyana. 16 (2): 230-234. ISSN 0361-185X ... "Checklist of Mexican Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 25 (1): 33-86. ISSN ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... "Checklist of Bolivian Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 20 (2): 201-223. ISSN ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Holst, Bruce K. (1 February 1994). "Checklist of Venezuelan Bromeliaceae with Notes on Species Distribution by State and Levels ... "Checklist of Bolivian Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 20 (2): 201-223. ISSN ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... "Checklist of Bolivian Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 20 (2): 201-223. ISSN ...
... is a species of plant in the family Bromeliaceae. It is endemic to Ecuador. Its natural habitat is the ... Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ...
... , synonym Pepinia cuatrecasasiana, is a species of flowering plant in the family Bromeliaceae, native ... "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = Catálogo de las plantas ...
Luther, Harry E. (1995). "An Annotated Checklist of the Bromeliaceae of Costa Rica". Selbyana. 16 (2): 230-234. ISSN 0361-185X ... "Checklist of Mexican Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 25 (1): 33-86. ISSN ... Bromeliaceae. Flora de Veracruz 136: 1-307. Instituto Nacional de Investigaciones sobre Recursos Bióticos, Xalapa, Veracruz. ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Luther, Harry E. (1995). "An Annotated Checklist of the Bromeliaceae of Costa Rica". Selbyana. 16 (2): 230-234. ISSN 0361-185X ... Holst, Bruce K. (1 February 1994). "Checklist of Venezuelan Bromeliaceae with Notes on Species Distribution by State and Levels ...
Aechmea 'Caprice' Aechmea 'Salvador' Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Morales, J.F. (2009). Novedades y notas misceláneas en las Bromeliaceae de Mesoamérica. Journal of the Botanical Research ... Aguirre-Santoro, Julian; Betancur, Julio (2008). "Sinopsis del Género Aechmea (Bromeliaceae) para Colombia" [Synopsis of ... "Checklist of Bolivian Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 20 (2): 201-223. ISSN ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Luther, Harry E. (1995). "An Annotated Checklist of the Bromeliaceae of Costa Rica". Selbyana. 16 (2): 230-234. ISSN 0361-185X ... Tillandsia chontalensis, synonym Vriesea chontalensis, is a species of flowering plant in the family Bromeliaceae, native from ... "Checklist of Bolivian Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 20 (2): 201-223. ISSN ...
Tillandsia 'Cataco' Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular ...
Espejo-Serna, A. & López-Ferrari, A.R. (2005). Bromeliaceae. Flora de Veracruz 136: 1-307. Instituto Nacional de ... "Checklist of Mexican Bromeliaceae with Notes on Species Distribution and Levels of Endemism". Selbyana. 25 (1): 33-86. ISSN ...
The family Bromeliaceae is currently placed in the order Poales. The family Bromeliaceae is organized into eight subfamilies: ... 1889 Wikimedia Commons has media related to Bromeliaceae. Wikispecies has information related to Bromeliaceae. The New ... The Bromeliaceae (the bromeliads) are a family of monocot flowering plants of about 80 genera and 3700 known species, native ... "Bromeliaceae Juss". Plants of the World Online. Royal Botanic Gardens, Kew. Retrieved 2022-12-06. Gouda, E.J.; Butcher, D.; ...
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... Rare plants for sale. Buy unusual flowers, plants for garden and home. Over 5000 plants. Photos ... Family: Bromeliaceae Subfamily: Bromelioideae. Origin: Brazil and Paraguay. USDA Zone: 9-11?. King of fruits! One of the most ... Family: Bromeliaceae Subfamily: Bromelioideae. Origin: South America. USDA Zone: 10-11?. Billbergia nutans, commonly known as ... Family: Bromeliaceae Subfamily: Bromelioideae. Origin: Mexico, Argentina and Brazil. Billbergia was established as a genus in ...
Bromeliaceae): NHBS - Lyman B Smith, Robert Jack Downs, New York Botanical Garden Press ... Flora Neotropica, Volume 14, Part 3: Bromelioideae (Bromeliaceae) Flora / Fauna Identification Key Monograph Out of Print ... This revised treatment of the subfamily Bromelioideae is the third and last volume in the Bromeliaceae series. The authors ...
Bromeliaceae. Ayuda para diagnóstico médico on-line. Lista ordenada de posibles enfermedades a partir de los síntomas o el ... Bromeliaceae. The cultivation of Bromeliaceae - YouTube. The cultivation of Bromeliaceae. rifgarden. ... Bromeliaceae (Planta Brutt Video 1) - YouTube. Bromeliaceae (Planta Brutt Video 1). PlantaBrutt Your specialist for Tillandsias ... Alcantarea imperialis species (Bromeliaceae .... Alcantarea imperialis rubra species (Bromeliaceae) Bromélia imperial, Bromélia ...
Family: Bromeliaceae Juss.. *Country of Origin: Mexico to Venezuela *USDA Zone: 9-11 Accession Data:. *Accession # 199200172 * ... Family: Bromeliaceae *SubFamily: Tillandsioideae *Tribe: *SubTribe: Flowering Data:. This accession has been observed in bloom ... Current Accessions in the Bromeliaceae. Subfamily Brochinioideae *Brocchinia reducta. Subfamily Bromelioideae *Acanthostachys ...
Bromeliaceae Talk. Use this forum to discuss matters relating to xeric Bromeliads such as Hechtia, Dyckia, Puya, Tillandsia and ...
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Bromeliaceae Schenckianae. Stuttgart [u.a.] / Von L. Wittmack. 1891 ... Bromeliaceae Schenckianae. Stuttgart [u.a.] / Von L. Wittmack. 1891. Universitätsbibliothek Johann Christian Senckenberg https ...
Bromeliaceae (1) Bryophyta (59) Buccinoidea (15) Bucerotes (1) Buxanae (1) Caenogastropoda (21) Calcarea (1) Calyptraeidae (2) ... Bromeliaceae [Bromeliales, Pitcairnioideae]. , i. s.: Encholirium luxor SHZ05, C-SQ08. , Dyckia SHZ05. , Deuterocohnia SHZ05. ... Bromeliaceae Email ThisBlogThis!Share to TwitterShare to FacebookShare to Pinterest ... The Bromeliaceae, bromeliads, are a family of herbaceous plants found primarily in the neotropics (a single species, Pitcairnia ...
Common name(s): N/A Synonyme(s): N/A Family: Bromeliaceae Origin: the members of the genus Hechtia are native from Central to ... Deuterocohnia lotteae Common name(s): N/A Synonyme(s): Abromeitiella lotteae Family: Bromeliaceae Origin: Bolivia More infos: N ... Cryptanthus bivittatus Common name(s): Pineapple Synonyme(s): N/A Family: Bromeliaceae Origin: cultivated in tropical and ... Baby Pineapple Botanical name: Ananas comosus Synonyme(s): N/A Family: Bromeliaceae More infos: N/A ...
Bromeliaceae. The bromeliads are epiphytic herbs or terrestrial xerophytes almost exclusively native to the Americas, with the ... The Tillandsia genus within Bromeliaceae includes the popular "air plants" - tropical species that are capable of growing ... Also dubbed the "pineapple family", Bromeliaceae ​includes about 45 genera and 2,000 species, characterized by conspicuous ...
Bromeliaceae - "Bromeliad". Light: Bright natural light, the brighter the better. Avoid intense direct rays especially from a ...
The Bromeliaceae Plant offers one of the most beautiful flowers of all houseplants. It will make the perfect addition to your ... bromeliaceae-medium-stone.jpg?v=1641572019","variant_ids":[39320793317443]},"available":true,"name":"Bromeliaceae - Nidularium ... bromeliaceae-medium-moss.jpg?v=1641572019","variant_ids":[39485472178243]},"available":true,"name":"Bromeliaceae - Nidularium ... bromeliaceae-medium-yolk.jpg?v=1641572019","variant_ids":[39485472342083]},"available":true,"name":"Bromeliaceae - Nidularium ...
Family: Bromeliaceae. Origin: Likely a cross, but this plants parents originate from Brazil. Size Label: 1 gallon. Height: 1′ ...
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Bromeliaceae (Bromeliad Family). Synonym(s): Diaphoranthema recurvata, Renealmia recurvata. USDA Symbol: tire. USDA Native ... It is a member of the bromeliad or pineapple family (family Bromeliaceae). Bromeliads are epiphytic (rarely terrestrial) scurfy ...
Family: Bromeliaceae Juss.. *Country of Origin: Mexico *Habitat: epiphyte in desert environments Accession Data:. *Accession # ... Family: Bromeliaceae *SubFamily: Tillandsioideae *Tribe: *SubTribe: References (internal):. *EEB Greenhouse Holdings native to: ... Current Accessions in the Bromeliaceae. Subfamily Brochinioideae *Brocchinia reducta. Subfamily Bromelioideae *Acanthostachys ...
title = "Bromeliaceae endemic to Peru",. abstract = "The Bromeliaceae are recognized in Peru with 19 genera and approximately ... keywords = "Bromeliaceae, Bromeliads, Endemic plants, Endemism, Peru, Bromeliaceae, Bromeliads, Endemic plants, Endemism, Peru ... Bromeliaceae endemic to Peru. / León, Blanca; Sagástegui, Abundio; Sánchez, Isidoro et al. In: Revista Peruana de Biologia, Vol ... León B, Sagástegui A, Sánchez I, Zapata M. Bromeliaceae endemic to Peru. Revista Peruana de Biologia. 2006 Dec 1;13(2):708s- ...
Familie: Bromeliaceae. Abb.: Ananas comosus ( IPGRI). Vorkommen: N rdliches tropisches S damerika, pantropisch. Kultiviert, ...
Distribuição espacial de Canistropsis microps (E. Morren ex Mez) Leme (Bromeliaceae: Bromelioideae) na Mata Atlântica da Ilha ... Grande, Sudeste do Brasil ResumoCanistropsis microps (Bromeliaceae: Bromelioideae) é uma espécie endêmica das áreas de Mata ... Bromeliaceae: Bromelioideae) is an endemic species of Atlantic rain forest areas in Rio de Janeiro State, which are very ... Canistropsis microps (Bromeliaceae: Bromelioideae) is an endemic species of Atlantic rain forest areas in Rio de Janeiro State ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Holst, Bruce K. (1 February 1994). "Checklist of Venezuelan Bromeliaceae with Notes on Species Distribution by State and Levels ... "An Annotated Checklist of the Bromeliaceae of Costa Rica". Selbyana. 16 (2): 230-234. ISSN 0361-185X. JSTOR 41759911. ...
Luther, H.E. (1999). "Bromeliaceae". In Jørgensen, P.M.; León-Yánez, S. (eds.). Catalogue of the vascular plants of Ecuador = ... Pitcairnia poortmanii is a species of flowering plant in the Bromeliaceae family. It is native to Ecuador. "Pitcairnia ...
Bromeliaceae. Subfamily Tillandsioideae *Tillandsia recurvata - Trop. & Subtrop. America Cactaceae. Subfamily Cactoideae Tribe ...
Bromeliaceae. Pineapple. Ananas comosus. Bromelain, calcium oxalate. Cactaceae. Old man cactus. Cephalocereus senilis. Calcium ...
Bromeliaceae • Subfamilia: Tillandsioideae • Genus: Tillandsia • Species: Tillandsia heteromorpha Mez ...
Mez, C. (1894) Bromeliaceae. In: Martius, C.F.P. von, Eichler, A.W. & Urban, I. (Eds.) Flora Brasiliensis, vol. 3 (3). F. ... Mez, C. (1896) Bromeliaceae. In: Candolle, C. de (Ed.) Monographie Phanerogamarum vol. 9. Sumptibus Masson & Cie., Paris, pp. 1 ... A new species of Tillandsia (Tillandsioidae, Bromeliaceae) from the high Andean forests near Bogotá (Colombia). *JULIÁN AGUIRRE ... Gouda, E.J. (1987) Bromeliaceae (subfamily Tillandsioideae). In: Görts-van Rijn, A.R.A. (ed.) Flora of the Guianas Series A: ...
  • Tillandsia cyanea from Bromeliaceae. (lookfordiagnosis.com)
  • The Tillandsia genus within Bromeliaceae includes the popular "air plants" - tropical species that are capable of growing without substrate. (uaplantscienceclub.com)
  • CA BROMELIACEAE Stevens 11165 Tillandsia ionantha Planch. (nybg.org)
  • These inferior ovaries characterize the Bromelioideae, a subfamily of the Bromeliaceae. (wikipedia.org)
  • This revised treatment of the subfamily Bromelioideae is the third and last volume in the Bromeliaceae series. (nhbs.com)
  • Canistropsis microps (Bromeliaceae: Bromelioideae) is an endemic species of Atlantic rain forest areas in Rio de Janeiro State, which are very abundant in not very disturbed forests in Ilha Grande, on the southern coast of the State. (scite.ai)
  • Aguirre-Santoro, J. & Betancur, J. (2019) Taxonomic novelties in the subfamily Bromelioideae (Bromeliaceae) for the Colombian Amazon. (mapress.com)
  • Aguirre-Santoro, J., Michelangeli, F.A. & Stevenson, D.W. (2016) Molecular phylogenetics of the Ronnbergia Alliance (Bromeliaceae, Bromelioideae) and insights into their morphological evolution. (mapress.com)
  • 2005. Phylogenetic relationships in subfamily Tillandsioideae (Bromeliaceae) based on DNA sequence data from seven plastid regions. (fieldofscience.com)
  • Barfuss, M.H.J., Samuel, R., Till, W. & Stuessy, T.F. (2005) Phylogenetic relationships in subfamily Tillandsioideae (Bromeliaceae) based on DNA sequence data from seven plastid regions. (mapress.com)
  • The long period between the origin and diversification of bromeliads, during which no extant species evolved, suggests that there was much speciation and extinction during that time, which would explain the genetic distance of the Bromeliaceae from other families within the Poales. (wikipedia.org)
  • The Bromeliaceae (the bromeliads) are a family of monocot flowering plants of about 80 genera and 3700 known species, native mainly to the tropical Americas, with several species found in the American subtropics and one in tropical west Africa, Pitcairnia feliciana. (wikipedia.org)
  • The Bromeliaceae, bromeliads, are a family of herbaceous plants found primarily in the neotropics (a single species, Pitcairnia feliciana , is native to west Africa). (fieldofscience.com)
  • Costa, A.F. da, Gomes-da-Silva, J. & Wanderley, M. das G.L. (2015) Vriesea (Bromeliaceae, Tillandsioideae): a cladistic analysis of eastern Brazilian species based on morphological characters. (mapress.com)
  • Also dubbed the "pineapple family", Bromeliaceae ​includes about 45 genera and 2,000 species, characterized by conspicuous floral bracts, strap-like scales on the plant surfaces, and the presence of silica bodies within the cell epidermis. (uaplantscienceclub.com)
  • Pitcairnia poortmanii is a species of flowering plant in the Bromeliaceae family. (wikipedia.org)
  • Bromeliaceae is a diversified family of plants with terrestrial or epiphytic habitats, encompassing about 2,900 described species ( Holst & Luther 2004 HOLST, B.K. & LUTHER, H.E. 2004. (scielo.br)
  • The saxicolous genus Orthophytum (∼60 species, Bromeliaceae) is endemic to eastern Brazil and diversified in xeric habitats of the Atlantic Rainforest, Caatinga and campos rupestres. (edu.au)
  • A collection of species of Bromeliaceae from humid tropical rainforests and arid regions. (kew.org)
  • Cryptanthus bivittatus Common name(s): Pineapple Synonyme(s): N/A Family: Bromeliaceae Origin: cultivated in tropical and subtropical regions. (plantsam.com)
  • Common name(s): N/A Synonyme(s): N/A Family: Bromeliaceae Origin: the members of the genus Hechtia are native from Central to South America. (plantsam.com)
  • It is a member of the bromeliad or pineapple family (family Bromeliaceae). (wildflower.org)
  • Gilmartin, A.J. (1968) Taxonomic notes on some Bromeliaceae of Ecuador. (mapress.com)
  • Anatomical and physiological responses of Aechmea blanchetiana (Bromeliaceae) induced by silicon and sodium chloride stress during in vitro culture. (bvsalud.org)
  • Acanthostachys is a genus of the botanical family Bromeliaceae, subfamily Bromelioideae. (unionpedia.org)
  • Alcantarea (named for Dom Pedro d'Alcântara, second Emperor of Brazil) is related to the genus Vriesea of the botanical family Bromeliaceae, subfamily Tillandsioideae. (unionpedia.org)
  • Ananas is a plant genus of the bromeliad family (Bromeliaceae), native to South America and Central America, which includes the species Ananas comosus, the pineapple. (unionpedia.org)
  • Androlepis is a genus of epiphytes in the botanical family Bromeliaceae, subfamily Bromelioideae, native to Central America and southern Mexico. (unionpedia.org)
  • Billbergia is a genus of flowering plants in the family Bromeliaceae, subfamily Bromelioideae. (unionpedia.org)
  • Brewcaria is a genus of the botanical family Bromeliaceae, subfamily Pitcairnioideae. (unionpedia.org)
  • Brocchinia is a genus of the botanical family Bromeliaceae, subfamily Pitcairnioideae. (unionpedia.org)
  • Bromelia is the type genus of the botanical family Bromeliaceae, subfamily Bromelioideae. (unionpedia.org)
  • Bromeliaceae" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus, MeSH (Medical Subject Headings) . (harvard.edu)
  • 20. Diversity and levels of endemism of the Bromeliaceae of Costa Rica - an updated checklist. (nih.gov)
  • This graph shows the total number of publications written about "Bromeliaceae" by people in Harvard Catalyst Profiles by year, and whether "Bromeliaceae" was a major or minor topic of these publication. (harvard.edu)