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Journal articles on the topic 'Epidendreae'

Author: Grafiati
Published: 18 May 2024

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1

Sood, Sarvesh Kumar. "Gametophytes, integuments initiation and embryogeny inMicrostylis cylindrostachya (Orchidaceae, Epidendreae)." Proceedings / Indian Academy of Sciences 95, no. 6 (December 1985): 379–87. http://dx.doi.org/10.1007/bf03053676.

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2

YANG, BOYUN, SHIHE XIAO, YAWEN JIANG, HUOLIN LUO, DONGJIN XIONG, JUNWEN ZHAI, and BO LI. "Danxiaorchis yangii sp. nov. (Orchidaceae: Epidendroideae), the second species of Danxiaorchis." Phytotaxa 306, no. 4 (May 16, 2017): 287. http://dx.doi.org/10.11646/phytotaxa.306.4.5.

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Danxiaorchis yangii (Calypsoinae, Epidendreae, Epidendroideae), a holomycotrophic new species from Jinggangshan National Nature Reserve, western Jiangxi, eastern of China, is here illustrated and described based on both morphological and phylogenetic evidences. The new species can be easily distinguished from D. singchiana by its much smaller flowers and larger Y-shaped callus adaxially bearing a additional obovoid appendage, and by its four pollinia narrowly elliptic in shape and equal in size.
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3

Valencia-Nieto, Benjamín, Victoria Sosa, and Judith Márquez-Guzmán. "Anther development in tribe Epidendreae: orchids with contrasting pollination syndromes." PeerJ 6 (February 27, 2018): e4383. http://dx.doi.org/10.7717/peerj.4383.

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BackgroundEpidendreae is one of the most diverse tribes among the orchids with remarkable variation in life form, floral morphology and pollination syndromes. Its circumscription was recently revised and subtribes Agrostophyllinae and Calypsoinae were transferred into this tribe. One of the principal floral characters utilized in classification of orchids is the incumbency or bending of the column. This study records and compares late stages of anther, column and lip development, and discusses anther characters in fifteen representative taxa of five of the six subtribes in Epidendreae with respect to classification and pollination biology.MethodsA series of late floral stages were sampled and fixed for examination under scanning electron microscope.ResultsAnther incumbency or bending in this group varies from 90° to almost 180°. Incumbency in the late stages of development is reached in Bletiinae, Ponerinae, Pleurothallidinae and Laeliinae whereas incumbency is reached early in its development inCorallorhizaandGoveniaof Calypsoinae.DiscussionOur observations indicate that the position ofChysisin subtribe Bletiinae needs revision based on differences in a number floral, and in particular of anther characters; and thatCoeliaonly shares the early anther incumbency with Calypsoinae members, but not the rest of floral and anther characters. Anatomical characters such as crystals around the actinocytic stomata on the anther cap and sugar crystals in Laeliinae; lack of rostellum in Bletiinae; coalescent anther with the column, lack of trichomes and papillae on lip keels, and underdeveloped rostellum inChysis; a mechanism by which the anther cap comes off (it is joined with the grooved lip by a claw) inIsochilusare all related to pollination syndromes and reproductive biology.
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4

Sosa, Victoria. "A Molecular and Morphological Phylogenetic Study of Subtribe Bletiinae (Epidendreae, Orchidaceae)." Systematic Botany 32, no. 1 (January 1, 2007): 34–42. http://dx.doi.org/10.1600/036364407780360175.

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5

Mancinelli, Werner Siebje, and ERIC DE CAMARGO SMIDT. "Homalopetalum joinvillense (Epidendreae; Epidendroideae; Orchidaceae): a new species from Southern Brazil." Phytotaxa 202, no. 4 (March 17, 2015): 279. http://dx.doi.org/10.11646/phytotaxa.202.4.6.

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Homalopetalum joinvillense (Orchidaceae) is a new species found in Joinville (Brazil). This species presents morphological similarity with Homalopetalum alticolum, but it differs from that and another species of this genus by a combination of an oblong-obovate lip with a slightly denticulate lip margin, a callus divided in two parts, globose in the internal part and conical in the external part, and an erose clinandrium. This article presents the complete description and the illustration of the new species, as well as an identification key for the genus.
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BASTOS, CLÁUDIA A., THIAGO E. C. MENEGUZZO, and CÁSSIO VAN DEN BERG. "A taxonomic revision of the Brazilian species of Encyclia (Orchidaceae: Epidendroideae: Epidendreae)." Phytotaxa 342, no. 1 (March 2, 2018): 1. http://dx.doi.org/10.11646/phytotaxa.342.1.1.

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A taxonomic revision of the Brazilian species of Encyclia is presented, based on analysis of roughly 1,400 herbarium specimens, including types. Thirty-nine species and one variety are listed for Brazil; we indicate 101 synonyms, of which eight are newly proposed. Lectotypes are chosen for five names (E. chironii, E. dutrae, E. paraënsis, E. tripartita and Epidendrum capartianum), including accepted names and synonyms. Two names are indicated as invalid (E. randii var. rondoniensis and E. vazzoleri), one name as a nomen nudum (E. guesneliana) and another as superfluous (Epidendrum pabstii). The occurrence of E. auyantepuiensis and E. thienii is confirmed for Brazil, and new occurrences are documented of E. fimbriata in Minas Gerais (in addition to Bahia) and E. linearifolioides in Maranhão and possibly Paraná (in addition to Matto Grosso and Tocatins States and Bolivia and Paraguay). All species are described and illustrated, and distribution maps are included. For both varieties of E. patens, nomenclatural and taxonomic notes are provided.
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Doucette, Alfonso, Jose Portilla, and Kenneth Cameron. "Ten new taxa in the orchid subtribe Pleurothallidinae (Epidendroideae, Epidendreae) from Ecuador." Phytotaxa 257, no. 3 (April 20, 2016): 230. http://dx.doi.org/10.11646/phytotaxa.257.3.2.

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New species of Masdevallia, Pleurothallis, Stelis, Trisetella and Zootrophion are described and illustrated, including three new forms of Masdevallia and one new form of Pleurothallis. New synonymy is provided for Acianthera dodsonii, Stelis pachyglossa, S. retusa, S. transversalis and Zootrophion serpentinum.
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8

Zhao, Zhuang, Meng-Yao Zeng, Yu-Wei Wu, Jin-Wei Li, Zhuang Zhou, Zhong-Jian Liu, and Ming-He Li. "Characterization and Comparative Analysis of the Complete Plastomes of Five Epidendrum (Epidendreae, Orchidaceae) Species." International Journal of Molecular Sciences 24, no. 19 (September 22, 2023): 14437. http://dx.doi.org/10.3390/ijms241914437.

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Epidendrum, one of the three largest genera of Orchidaceae, exhibits significant horticultural and ornamental value and serves as an important research model in conservation, ecology, and evolutionary biology. Given the ambiguous identification of germplasm and complex evolutionary relationships within the genus, the complete plastome of this genus (including five species) were firstly sequenced and assembled to explore their characterizations. The plastomes exhibited a typical quadripartite structure. The lengths of the plastomes ranged from 147,902 bp to 150,986 bp, with a GC content of 37.16% to 37.33%. Gene annotation revealed the presence of 78–82 protein-coding genes, 38 tRNAs, and 8 rRNAs. A total of 25–38 long repeats and 130–149 SSRs were detected. Analysis of relative synonymous codon usage (RSCU) indicated that leucine (Leu) was the most and cysteine (Cys) was the least. The consistent and robust phylogenetic relationships of Epidendrum and its closely related taxa were established using a total of 43 plastid genomes from the tribe Epidendreae. The genus Epidendrum was supported as a monophyletic group and as a sister to Cattleya. Meanwhile, four mutational hotspots (trnCGCA–petN, trnDGUC–trnYGUA, trnSGCU–trnGUCC, and rpl32–trnLUAG) were identified for further phylogenetic studies. Our analysis demonstrates the promising utility of plastomes in inferring the phylogenetic relationships of Epidendrum.
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Niissalo, M. A., P. K. F. Leong, F. E. L. Tay, L. M. Choo, H. Kurzweil, and G. S. Khew. "A new species of Claderia (Orchidaceae)." Gardens’ Bulletin Singapore 75, no. 1 (June 12, 2023): 21–41. http://dx.doi.org/10.26492/gbs75(1).2023-02.

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A little-studied orchid genus, Claderia Hook.f., has until now contained just one or two species, Claderia viridiflora Hook.f. and its possible synonym, C. papuana Schltr. We describe a new species from Singapore, which differs from these Claderia in having small, cream-yellow flowers that are nodding and presented in a long, unbranched terminal inflorescence, mostly with two flowers open simultaneously. We name the new species Claderia leontocampus Niissalo. Plants of the new species have been collected or recorded in Sumatra, Peninsular Malaysia and possibly Peninsular Thailand. We carried out population genetics analyses to show distinction between the new species and Claderia viridiflora. The two species occur in the same habitat in Singapore. We used phylogenetic analyses to find out the phylogenetic position of Claderia within Orchidaceae; the genus is here considered to belong to subfamily Epidendroideae Kostel., tribe Epidendreae Lindl., subtribe Claderiinae Szlach. We publish the plastome and ITS sequences of Claderia viridiflora. Two names are lectotypified.
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10

Bonilla-Sánchez, Adriana Paola, and Hilda Rocío Mosquera-Mosquera. "Viabilidad y germinación in vitro de taxones de las tribus Cymbidieae y Epidendreae (subfamilia Epidendroideae, Orchidaceae)." Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales 43, no. 168 (September 25, 2019): 494–501. http://dx.doi.org/10.18257/raccefyn.888.

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Las orquídeas Epidendroideae presentan el polen organizado en polinios con diferente grado de compactación; cada polinio puede contener hasta 4 millones de granos de polen. En este estudio se evaluó la viabilidad y la germinación in vitro del polen aglutinado en polinios. Se evaluó la calidad polínica de siete taxones en dos tribus utilizando métodos palinológicos ex vitro (tinción con acetocarmín glicerol al 2 %) y directos (germinación in vitro) en tres medios, M1, M2 y M3. La viabilidad con acetocarmín fue superior al 85 % en los siete taxones estudiados. El mayor porcentaje de germinación in vitro se obtuvo en Catasetum tabulare, con un 16 %; en el resto de taxones los valores oscilaron entre el 2 % y el 5 % a las 72 horas de observación. El medio M3 fue el más exitoso, con 18 y 20 % de germinación en los taxones estudiados. Aunque la viabilidad del polen es alta, presenta tasas muy bajas de germinación, probablemente por el alto grado de compactación y la ausencia de aperturas, lo que la hace lenta y poco efectiva en medios artificiales. Los resultados ratificaron que no todo el polen viable germina, y que existe un alto grado de especificidad y dependencia frente a las sustancias estimuladoras de la germinación del polen provenientes del estigma de las orquídeas, lo que hace necesario seguir profundizando en el análisis de la biología del polen de la subfamilia Epidendroideae para comprender un poco más sus procesos de multiplicación natural.
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11

AVERYANOV, LEONID V., VAN CANH NGUYEN, BA VUONG TRUONG, KHANG SINH NGUYEN, CUONG HUU NGUYEN, TATIANA V. MAISAK, NGA THI DOAN, et al. "New orchids in the flora of Vietnam VI (Orchidaceae, tribes Arethuseae, Cymbidieae, Diurideae, Epidendreae, Vandeae, and Vanilleae)." Phytotaxa 597, no. 2 (May 12, 2023): 87–110. http://dx.doi.org/10.11646/phytotaxa.597.2.1.

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This paper presents new data on the orchid diversity of Vietnam obtained from field explorations made mainly in 2015–2022, as well as from the study of some historical collections housed at the Herbaria of Russia and Vietnam. It includes descriptions of two species new to science (Coelogyne phitamii and Cymbidium sangii), reports of one genus (Stigmatodactylus), and eleven species new to the flora of Vietnam (Coelogyne fuliginosa, C. suaveolens, Cremastra malipoensis, Cymbidium cochleare, C. goeringii, C. macrorhizon, Holcoglossum nagalandense, Miguelia shenzhenica, Otochilus lancilabius, Pelatantheria bicuspidata, Stigmatodactylus sikokianus). Three new nomenclature combinations (Biermannia averyanovii (Vuong, Kumar, V.H.Bui & V.S.Dang.) Aver., Miguelia shenzhenica (Z.J.Liu & S.C.Chen) Aver., Panisea sondangii (Vuong, Aver. & V.H.Bui) Aver.) and lectotypes for three species (Coelogyne suaveolens, Otochilus lancilabius, Pelatantheria bicuspidata) are proposed. Data on accepted names, main synonyms, etymology (for newly described species), morphological description, studied specimens, ecology, phenology, and distribution, conservation status assessment according to IUCN Red List Categories and Criteria, brief taxonomic notes, and illustrations are provided for each species listed.
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12

Lee, Shiou Yih, Kaikai Meng, Haowei Wang, Renchao Zhou, Wenbo Liao, Fang Chen, Shouzhou Zhang, and Qiang Fan. "Severe Plastid Genome Size Reduction in a Mycoheterotrophic Orchid, Danxiaorchis singchiana, Reveals Heavy Gene Loss and Gene Relocations." Plants 9, no. 4 (April 17, 2020): 521. http://dx.doi.org/10.3390/plants9040521.

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Danxiaorchis singchiana (Orchidaceae) is a leafless mycoheterotrophic orchid in the subfamily Epidendroideae. We sequenced the complete plastome of D. singchiana. The plastome has a reduced size of 87,931 bp, which includes a pair of inverted repeat (IR) regions of 13,762 bp each that are separated by a large single copy (LSC) region of 42,575 bp and a small single copy (SSC) region of 17,831 bp. When compared to its sister taxa, Cremastra appendiculata and Corallorhiza striata var. involuta, D. singchiana showed an inverted gene block in the LSC and SSC regions. A total of 61 genes were predicted, including 21 tRNA, 4 rRNA, and 36 protein-coding genes. While most of the housekeeping genes were still intact and seem to be protein-coding, only four photosynthesis-related genes appeared presumably intact. The majority of the presumably intact protein-coding genes seem to have undergone purifying selection (dN/dS < 1), and only the psaC gene was positively selected (dN/dS > 1) when compared to that in Cr. appendiculata. Phylogenetic analysis of 26 complete plastome sequences from 24 species of the tribe Epidendreae had revealed that D. singchiana diverged after Cr. appendiculata and is sister to the genus Corallorhiza with strong bootstrap support (100%).
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van den Berg, C., D. H. Goldman, J. V. Freudenstein, A. M. Pridgeon, K. M. Cameron, and M. W. Chase. "An overview of the phylogenetic relationships within Epidendroideae inferred from multiple DNA regions and recircumscription of Epidendreae and Arethuseae (Orchidaceae)." American Journal of Botany 92, no. 4 (April 1, 2005): 613–24. http://dx.doi.org/10.3732/ajb.92.4.613.

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14

Van den Berg, Cássio. "Reaching a compromise between conflicting nuclear and plastid phylogenetic trees: a new classification for the genus Cattleya (Epidendreae; Epidendroideae; Orchidaceae)." Phytotaxa 186, no. 2 (November 21, 2014): 75. http://dx.doi.org/10.11646/phytotaxa.186.2.2.

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A new classification for the 114 species Cattleya is proposed, based on and compatible with previously published nuclear, plastid and combined phylogenetic trees. Cattleya is divided into four subgenera, three sections and five series. A key to the infrageneric categories and a table listing all species and their placement is presented.
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DOUCETTE, ALFONSO, JOEL TIMYAN, INGRID HENRYS, and KENNETH M. CAMERON. "A tiny new species of Specklinia from Haiti’s Parc National Naturel Macaya and new combinations in Acianthera (Pleurothallidinae, Epidendreae, Epidendroideae, Orchidaceae)." Phytotaxa 275, no. 3 (September 21, 2016): 263. http://dx.doi.org/10.11646/phytotaxa.275.3.4.

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A new species of Specklinia with a repent growth habit and minute purple flowers is described and illustrated. The new species is distinguished from Specklinia wrightii based on its morphological and molecular distinctness from that species. The phylogenetic placement of the new species is provided based on an nrITS tree. The species described here represents the first new orchid to be described from material originating from the Parc National Naturel Macaya in six years. New combinations are made in Acianthera for species of Kraenzlinella and Pleurothallis subgen. Antilla embedded within the genus. In particular Kraenzlinella rinkei is provided as a new synonym for Specklinia montezumae and Specklinia simpliciflora is transferred to Acianthera sect. Antilla based on morphology and geographic distribution.
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DÍAZ-MORALES, MELISSA, and ADAM P. KARREMANS. "Epidendra Nova Talamancana." Phytotaxa 272, no. 4 (September 2, 2016): 248. http://dx.doi.org/10.11646/phytotaxa.272.4.2.

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Two new species of Epidendrum from the Costa Rican montane rainforest, E. hartmanniorum and E. vallis-silentii, are described, illustrated and compared with similar species. Epidendrum stolidium and E. unicallosum are reported as new records of this genus for the country.
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Agrawala, D., and Harsh Chowdhery. "Eulophia epidendraea (J.Konig Ex Retz.) C.E.C.FISCH. – An addition to the orchid flora of Himalayan region." Indian Journal of Forestry 31, no. 4 (December 1, 2008): 629–32. http://dx.doi.org/10.54207/bsmps1000-2008-e0v5f0.

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Eulophia epidendraea (J. Konig ex Retz.) C.E.C. Fisch. (Orchidaceae), so far known in India from peninsular regions is being reported for the first time from the Himalayan region. The same is described and illustrated here.
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Narkhede, Aarti, Minal Mahajan, Elangbam Singh, Abhay Harsulkar, and Suresh Jagtap. "ANTIOXIDANT ACTIVITY OF FOURTEEN EULOPHIA SPECIES TRADITIONALLY KNOWN AS AMARKAND." International Journal of Pharmacy and Pharmaceutical Sciences 8, no. 9 (September 1, 2016): 313. http://dx.doi.org/10.22159/ijpps.2016v8i9.12801.

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<p><strong>Objective: </strong>Amarkand is a group of medicinal plants, of which tubers are regularly consumed by the tribal people in India as food and medicine. It has a strong background of regional ethnopharmacological and food uses. Thus it can be effectively utilized as a source of natural antioxidants. The present study, of fourteen <em>Eulophia</em> species which are predominantly considered as “Amarkand”, were focused for their antioxidant potential and polyphenolic content which facilitates the contribution of the traditional knowledge of plants from India.</p><p><strong>Methods: </strong>Radical scavenging activity, ferric reducing antioxidant power and anti-lipid peroxidation assay were used to evaluate the antioxidant potential. In addition, total phenols, flavonoid and proanthocynidins were estimated.</p><p><strong>Results: </strong>Results showed that all the studied amarkand species have promising antioxidant potential. <em>Eulophia epidendrea </em>(J. Koenig ex. Retz.) C. E. C. Fisch. (EE) and <em>Eulophia mannii</em> (Rchb. f.) Hook. f. (EM) had highest free radical scavenging potential among all. <em>Eulophia epidendrea </em>have highest ferric reducing potential which may be due to high flavonoid and proanthocyanidin content present<em>.</em></p><p><strong>Conclusion: </strong>The data clearly demonstrated that EE and EM may serve as a good natural antioxidant source against oxidative stress and related diseases.</p>
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Vale, Ángel, Danny Rojas, Julio C. Álvarez, and Luis Navarro. "Distribution, habitat disturbance and pollination of the endangered orchidBroughtonia cubensis(Epidendrae: Laeliinae)." Botanical Journal of the Linnean Society 172, no. 3 (April 25, 2013): 345–57. http://dx.doi.org/10.1111/boj.12042.

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Szlachetko, Dariusz L., Joanna Mytnik-Ejsmont, Magdalena Dudek, and Marcin Górniak. "Three new species of the genusTakulumena (Orchidaceae, Epidendrinae)from Ecuador and Peru." Willdenowia 41, no. 2 (December 20, 2011): 295–99. http://dx.doi.org/10.3372/wi.41.41211.

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Uma, Eswaranpillai, Raman Rajendran, and Thangavelu Muthukumar. "Morphology, anatomy and mycotrophy of pseudobulb and subterranean organs in Eulophia epidendraea and Malaxis acuminata (Epidendroideae, Orchidaceae)." Flora - Morphology, Distribution, Functional Ecology of Plants 217 (November 2015): 14–23. http://dx.doi.org/10.1016/j.flora.2015.09.010.

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Sringeswara, A. N., and Sahana Vishwanath. "Eulophia epidendraea (J. Koenig ex Retz.) C.E.C. Fisch. and Thelasis pygmaea (Griff.) Lindl. (Orchidaceae) - new additions to the flora of Karnataka, India." Journal of Threatened Taxa 7, no. 6 (May 26, 2015): 7305–8. http://dx.doi.org/10.11609/jott.o4175.7305-8.

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Sánchez Saldaña, Luis Martín, Javier García-Cruz, Rolando Jiménez Machorro, and Rodolfo Solano Gómez. "FAMILIA ORCHIDACEAE: TRIBU EPIDENDREAE." Flora del Bajío y de Regiones Adyacentes, November 5, 2003. http://dx.doi.org/10.21829/fb.191.2003.119.

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Sin duda, ésta es la tribu más numerosa de la familia en América tropical; incluye a los géneros propios del continente que presentan velamen y semillas distintivos. Se trata de un grupo muy diverso, el cual puede ser considerado como natural y está constituido por aproximadamente 78 géneros y posiblemente más de 5000 especies. Debido a sus flores bellas y vistosas, algunos de sus componentes son de gran interés hortícola, por lo que han sido objeto de una fuerte presión por parte de los recolectores; tal es el caso de especies de los géneros Laelia, Barkeria, Euchile y Prosthechea. En la región de la Flora la tribu está representada por 20 géneros, de los cuales Alamania, Arpophyllum, Brassavola, Domingoa, Myrmecophila, Nidema, Ponera, Restrepiella, Specklinia y Trichosalpinx son monoespecíficos. El mayor número de especies se encuentra repartido en los géneros Epidendrum, Prosthechea y Stelis.
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Pridgeon, Alec M., and Mark W. Chase. "Phylogenetics of the Subtribe Pleurothallidinae (Epidendreae: Orchidaceae) based on combined evidence from DNA sequences." Lankesteriana 3, no. 2 (February 1, 2016). http://dx.doi.org/10.15517/lank.v3i2.23013.

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<div class="page" title="Page 1"><div class="layoutArea"><div class="column"><p><span>Subtribe Pleurothallidinae (Epidendreae: Orchida- ceae) comprises an estimated 4000 Neotropical species in about 30 genera (Luer 1986), accounting for 15-20% of the species in the entire family. </span></p></div></div></div>
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Estrada-Sánchez, Iveth, Adolfo Espejo-Serna, Javier García-Cruz, and Ana Rosa López-Ferrari. "Richness, distribution, and endemism of neotropical subtribe Ponerinae (Orchidaceae, Epidendreae)." Brazilian Journal of Botany, April 13, 2024. http://dx.doi.org/10.1007/s40415-024-01005-y.

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Muruaga, Nora B., and María F. Parrado. "Epidendrum bermejoense (Orchidaceae), especie nueva del noroeste de la Argentina y sur de Bolivia." Lilloa, June 5, 2019, 54–63. http://dx.doi.org/10.30550/j.lil/2019.56.1/4.

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Se describe e ilustra Epidendrum bermejoense (Orchidaceae, Epidendreae, Laelii- nae) del noroeste de la Argentina y del sur de Bolivia. El taxón nuevo es una hierba de crecimiento monopodial, inflorescencia arqueada y pauciflora, flores con el lóbulo medio bien dividido en un par de lóbulos divergentes falcados a lanceolados y más anchos que los lóbulos laterales. Se asemeja a un grupo de especies caracterizadas por poseer tallos cilíndricos con nudos conspicuos, pétalos frecuentemente más angostos que los sépalos, con el lóbulo medio bilobado y polinias generalmente comprimidas y en forma de ala de pájaro. Se incluye una clave para diferenciarlo de: E. lindbergii Rchb. f., E. andres-johnsonii Hágsater & E. Santiago, E. densiflorum Hook. y E. hassleri Cogn., todas pertenecientes al grupo Pseudoepidendrum subgrupo Densiflorum. Con este trabajo se aporta una entidad más al conocimiento de la flora del noroeste de la Argentina y sur de Bolivia.
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Serna-Sánchez, Maria Alejandra, Oscar A. Pérez-Escobar, Diego Bogarín, María Fernanda Torres-Jimenez, Astrid Catalina Alvarez-Yela, Juliana E. Arcila-Galvis, Climbie F. Hall, et al. "Plastid phylogenomics resolves ambiguous relationships within the orchid family and provides a solid timeframe for biogeography and macroevolution." Scientific Reports 11, no. 1 (March 25, 2021). http://dx.doi.org/10.1038/s41598-021-83664-5.

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AbstractRecent phylogenomic analyses based on the maternally inherited plastid organelle have enlightened evolutionary relationships between the subfamilies of Orchidaceae and most of the tribes. However, uncertainty remains within several subtribes and genera for which phylogenetic relationships have not ever been tested in a phylogenomic context. To address these knowledge-gaps, we here provide the most extensively sampled analysis of the orchid family to date, based on 78 plastid coding genes representing 264 species, 117 genera, 18 tribes and 28 subtribes. Divergence times are also provided as inferred from strict and relaxed molecular clocks and birth–death tree models. Our taxon sampling includes 51 newly sequenced plastid genomes produced by a genome skimming approach. We focus our sampling efforts on previously unplaced clades within tribes Cymbidieae and Epidendreae. Our results confirmed phylogenetic relationships in Orchidaceae as recovered in previous studies, most of which were recovered with maximum support (209 of the 262 tree branches). We provide for the first time a clear phylogenetic placement for Codonorchideae within subfamily Orchidoideae, and Podochilieae and Collabieae within subfamily Epidendroideae. We also identify relationships that have been persistently problematic across multiple studies, regardless of the different details of sampling and genomic datasets used for phylogenetic reconstructions. Our study provides an expanded, robust temporal phylogenomic framework of the Orchidaceae that paves the way for biogeographical and macroevolutionary studies.
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28

Cameron, Kenneth. "A look at "The orchid book" in celebration of Charles Darwin's 200th birthday." Lankesteriana 11, no. 3 (November 20, 2011). http://dx.doi.org/10.15517/lank.v11i3.18276.

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En febrero 12 de 2009, el mundo celebró el 200avo cumpleaños de Charles Darwin. Sus contribuciones al estudio de la evolución y los orígenes del hombre son bien conocidos, pero su investigación botánica no ha sido apreciada en su justa medida. Darwin publicó nueve libros diferentes que se enfocaron sobre plantas domesticadas, plantas insectívoras plantas trepadoras, y otros temas botánicos, pero el más notable es su estudio sobre las orquídeas, ya que fue el primer libro publicado después del Origen de las Especies (1859). El libro de Darwin, Sobre las estrategias por las cuales las orquídeas británicas y las introducidas son fertilizadas por insectos (Darwin, 1862), fue una visión a la sistemática de las orquídeas de zonas templadas y tropicales y de sus polinizadores. Los nueve capítulos tratan especies de Orchideae, Arethuseae, Neottieae, Vanilleae, Malaxideae, Epidendreae, Vandeae, Cymbidieae (especialmente Catasetum) y Cypripedioideae. Las flores de las orquídeas fueron descritas y estudiadas por Darwin con gran detalle, cuidadosos registros del comportamiento de los polinizadores fueron mantenidos, y una gran dosis de especulación fue agregada. Nuestra comprensión de la filogenia, polinización, fisiología, y toda la historia natural de estos grupos han avanzado tremendamente en los últimos 150 años. Pocas personas han notado que “el libro de las orquídeas”, se subtitula... “y sobre el Buen Efecto del Entrecruzamiento”. Fenómeno que fue de gran interés para Darwin y las orquídeas brindaron ejemplos concretos para substanciar su teoría. Aún en nuestros tiempos, el libro de “Orquídeas” de Darwin, continúa inspirando a los biólogos evolucionistas y ejemplifica el poder de la selección natural.
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29

Pupulin, Franco. "EPIDENDRA, the taxonomic databases by Jardín Botánico Lankester." Lankesteriana 7, no. 1-2 (June 17, 2015). http://dx.doi.org/10.15517/lank.v7i1-2.19408.

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t may seem somehow out of line to present a new system of botanical databases in the context of a meeting on orchid conservation, for two main rea- sons. Even though botanists have been rather slow in upgrading to the use of electronic databases (with some early controversy regarding the desirability of the application of electronic data processing methods to taxonomic problems as a whole, see i.e. Shetler 1974), the dissemination of plant information via the web has grown steadily in recent years.
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30

Suja, Dr R. Mary. "TERRESTRIAL WILD ENDEMIC ORCHID EULOPHIA EPIDENDREA (KOENIG) OF PENINSULAR INDIA, KANYAKUMARI DISTRICT." World Journal of Pharmaceutical Research, August 1, 2017, 427–29. http://dx.doi.org/10.20959/wjpr20178-8944.

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31

Pupulin, Franco. "Toward a global orchid taxonomic network." Lankesteriana, August 11, 2013. http://dx.doi.org/10.15517/lank.v0i0.11542.

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Se revisan la génesis y las etapas iniciales del desarrollo del proyecto Epidendra, recapitulando las razones científicas, éticas y políticas que contribuyeron a definir su forma y contenidos actuales. Se discuten la estructura taxonómica de la red global de orquídeas, su marco sistemático e implicaciones nomenclatoriales. Se presentan los hechos y números actuales de la base de datos y se esbozan las líneas de su desarrollo futuro.
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32

Crous, P. W., E. R. Osieck, R. G. Shivas, Y. P. Tan, S. L. Bishop-Hurley, F. Esteve-Raventós, E. Larsson, et al. "Fungal Planet description sheets: 1478–1549." Persoonia - Molecular Phylogeny and Evolution of Fungi, 2023. http://dx.doi.org/10.3767/persoonia.2023.50.05.

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Novel species of fungi described in this study include those from various countries as follows: Australia, Aschersonia mackerrasiae on whitefly, Cladosporium corticola on bark of Melaleuca quinquenervia, Penicillium nudgee from soil under Melaleuca quinquenervia, Pseudocercospora blackwoodiae on leaf spot of Persoonia falcata, and Pseudocercospora dalyelliae on leaf spot of Senna alata. Bolivia, Aspicilia lutzoniana on fully submersed siliceous schist in high-mountain streams, and Niesslia parviseta on the lower part and apothecial discs of Erioderma barbellatum on a twig. Brazil, Cyathus bonsai on decaying wood, Geastrum albofibrosum from moist soil with leaf litter, Laetiporus pratigiensis on a trunk of a living unknown hardwood tree species, and Scytalidium synnematicum on dead twigs of unidentified plant. Bulgaria, Amanita abscondita on sandy soil in a plantation of Quercus suber. Canada, Penicillium acericola on dead bark of Acer saccharum, and Penicillium corticola on dead bark of Acer saccharum. China, Colletotrichum qingyuanense on fruit lesion of Capsicum annuum. Denmark, Helminthosphaeria leptospora on corticioid Neohypochnicium cremicolor. Ecuador (Galapagos), Phaeosphaeria scalesiae on Scalesia sp. Finland, Inocybe jacobssonii on calcareous soils in dry forests and park habitats. France, Cortinarius rufomyrrheus on sandy soil under Pinus pinaster, and Periconia neominutissima on leaves of Poaceae. India, Coprinopsis fragilis on decaying bark of logs, Filoboletus keralensis on unidentified woody substrate, Penicillium sankaranii from soil, Physisporinus tamilnaduensis on the trunk of Azadirachta indica, and Poronia nagaraholensis on elephant dung. Iran, Neosetophoma fici on infected leaves of Ficus elastica. Israel, Cnidariophoma eilatica (incl. Cnidario­phoma gen. nov.) from Stylophora pistillata. Italy, Lyophyllum obscurum on acidic soil. Namibia, Aureobasidium faidherbiae on dead leaf of Faidherbia albida, and Aureobasidium welwitschiae on dead leaves of Welwitschia mirabilis. Netherlands, Gaeumannomycella caricigena on dead culms of Carex elongata, Houtenomyces caricicola (incl. Houtenomyces gen. nov.) on culms of Carex disticha, Neodacampia ulmea (incl. Neodacampia gen. nov.) on branch of Ulmus laevis, Niesslia phragmiticola on dead standing culms of Phragmites australis, Pseudopyricularia caricicola on culms of Carex disticha, and Rhodoveronaea nieuwwulvenica on dead bamboo sticks. Norway, Arrhenia similis half-buried and moss-covered pieces of rotting wood in grass-grown path. Pakistan, Mallocybe ahmadii on soil. Poland, Beskidomyces laricis (incl. Beskidomyces gen. nov.) from resin of Larix decidua ssp. polonica, Lapidomyces epipinicola from sooty mould community on Pinus nigra, and Leptographium granulatum from a gallery of Dendroctonus micans on Picea abies. Portugal, Geoglossum azoricum on mossy areas of laurel forest areas planted with Cryptomeria japonica, and Lunasporangiospora lusitanica from a biofilm covering a biodeteriorated limestone wall. Qatar, Alternaria halotolerans from hypersaline sea water, and Alternaria qatarensis from water sample collected from hypersaline lagoon. South Africa, Alfaria thamnochorti on culm of Thamnochortus fraternus, Knufia aloeicola on Aloe gariepensis, Muriseptatomyces restionacearum (incl. Muriseptatomyces gen. nov.) on culms of Restionaceae, Neocladosporium arctotis on nest of cases of bag worm moths (Lepidoptera, Psychidae) on Arctotis auriculata, Neodevriesia scadoxi on leaves of Scadoxus puniceus, Paraloratospora schoenoplecti on stems of Schoenoplectus lacustris, Tulasnella epidendrea from the roots of Epidendrum × obrienianum, and Xenoidriella cinnamomi (incl. Xenoidriella gen. nov.) on leaf of Cinnamomum camphora. South Korea, Lemonniera fraxinea on decaying leaves of Fraxinus sp. from pond. Spain, Atheniella lauri on the bark of fallen trees of Laurus nobilis, Halocryptovalsa endophytica from surface-sterilised, asymptomatic roots of Salicornia patula, Inocybe amygdaliolens on soil in mixed forest, Inocybe pityusarum on calcareous soil in mixed forest, Inocybe roseobulbipes on acidic soils, Neonectria borealis from roots of Vitis berlandieri × Vitis rupestris, Sympoventuria eucalyptorum on leaves of Eucalyptus sp., and Tuber conchae from soil. Sweden, Inocybe bidumensis on calcareous soil. Thailand, Cordyceps sandindaengensis on Lepidoptera pupa, buried in soil, Ophiocordyceps kuchinaraiensis on Coleoptera larva, buried in soil, and Samsoniella winandae on Lepidoptera pupa, buried in soil. Taiwan region (China), Neo­phaeosphaeria livistonae on dead leaf of Livistona rotundifolia. Türkiye, Melanogaster anatolicus on clay loamy soils. UK, Basingstokeomyces allii (incl. Basingstokeomyces gen. nov.) on leaves of Allium schoenoprasum. Ukraine, Xenosphaeropsis corni on recently dead stem of Cornus alba. USA, Nothotrichosporon aquaticum (incl. Nothotrichosporon gen. nov.) from water, and Periconia philadelphiana from swab of coil surface. Morphological and culture characteristics for these new taxa are supported by DNA barcodes.
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