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Magnoliopsida
Clerodendrum L.
EOL Text
Barcode of Life Data Systems (BOLDS) Stats
Public Records: 0
Specimens with Barcodes: 2
Species With Barcodes: 1
Clerodendrum is a genus of flowering plants in the family Lamiaceae.[2] Its common names include glorybower, bagflower and bleeding-heart. It is currently classified in the subfamily Ajugoideae, being one of several genera transferred from Verbenaceae to Lamiaceae in the 1990s, based on phylogenetic analysis of morphological and molecular data.[3]
Estimates of the number of species in Clerodendrum vary widely, from about 150[4] to about 450.[2] This is partly because about 30 species have been transferred to Rotheca,[5][6] about 30 more to Volkameria, and 1 to Ovieda.[4] The type species for the genus is Clerodendrum infortunatum.[7] It is native to Sri Lanka and the Andaman Islands.[8]
The genus is native to tropical and warm temperate regions of the world, with most of the species occurring in tropical Africa and southern Asia, but with a few in the tropical Americas and northern Australasia, and a few extending north into the temperate zone in eastern Asia.[9]
They are shrubs, lianas, and small trees, usually growing to 1–12 m (3 ft 3 in–39 ft 4 in) tall, with opposite or whorled leaves. C. floribundum can grow to 30 m (98 ft) tall.[10]Clerodendrum fistulosum and Clerodendrum myrmecophila have hollow stems that are inhabited by ants.[9]Clerodendrum trichotomum is a common ornamental in warmer parts of the world.[9] Eight other species are also grown in the tropics for their abundant and attractive flowers.[11] One of these, Clerodendrum macrostegium, suckers abundantly from the roots, often producing a thicket within a few years.[11] A few other species are also found, somewhat rarely, in cultivation.[8]
Clerodendrum species are used as food plants by the larvae of some Lepidoptera species including Endoclita malabaricus and Endoclita sericeus. Both butterflies and hummingbirds are often attracted to blooming clerodendrum.
Contents
Selected species[edit]
Formerly placed here[edit]
- Pseudocaryopteris foetida (D.Don) P.D.Cantino (as C. foetidum D.Don)
- Rotheca incisa (Klotzsch) Steane & Mabb. (as C. incisum Klotzsch or C. macrosiphon Hook.f.)
- Rotheca myricoides (Hochst.) Steane & Mabb. (as C. myricoides (Hochst.) Vatke or C. ugandense Prain)
- Rotheca serrata (L.) Steane & Mabb. (as C. serratum (L.) Moon)
- Volkameria aculeata L. (as C. aculeatum (L.) Schltdl.)
- Volkameria glabra (E.Mey.) Mabb. & Y.W.Yuan (as C. glabrum E.Mey.)
- Volkameria inermis L. (as C. inerme (L.) Gaertn.)
- Volkameria ligustrina Jacq. (as C. ligustrinum (Jacq.) R.Br.)[12]
Description[edit]
The following description is based on the one by Yuan et alii (2010) and applies to only the monophyletic circumscription of Clerodendrum.[4]
Clerodendrum is a genus of small trees, shrubs, lianas, and subherbaceous perennials. Leaves decussate or whorled, never spiny as in some close relatives.
Inflorescence usually terminal. Sepals usually connate, often colored, usually accrescent. Corolla red to yellow, pink, or white. Corolla tube 5-lobed, the lobes usually unequal.
Stamens 4 (rarely 5), usually in 2 pairs of unequal length and projecting well beyond the mouth of the corolla.
Ovary incompletely 4-locular. Ovules 4. Style terminal on the ovary, bifid.
Fruit a drupe, usually with 4 grooves or lobes, 4-seeded (rarely 2-seeded by abortion).
Pollination[edit]
Clerodendrum and its relatives have an unusual pollination syndrome which avoids self-pollination. This mating system combines dichogamy and herkogamy.[4]
The flowers are protandrous. When the flower opens, the stamens stand erect, parallel to the central axis of the flower, while the style bends over, holding the stigma beyond the rim of the corolla. After the pollen is shed, the stamens curl up or bend over, and the style straightens out, bringing the stigma to the center of the flower. Except for Aegiphila, which is heterostylous, this breeding strategy is shared by all members of the clade consisting of Kalaharia, Clerodendrum, Volkameria, Aegiphila, Ovieda, Tetraclea, and Amasonia.[4]
History[edit]
Clerodendrum was named by Linnaeus in Species Plantarum in 1753.[13] The name is derived from two Greek words, kleros, meaning "chance or fate" or "clergy", and dendron, "a tree".[14] It refers to the considerable variation in reports of the usefulness of Clerodendrum in medicine,[9] and also to the fact the trees were used for religious purposes in Asia.
Regional revisions of Clerodendrum have been done for local floras, but the last monograph of the entire genus was by John Isaac Briquet in 1895.[15] He recognized about 90 species, defining the genus broadly to include species that others had placed in Rotheca, Volkameria, and Ovieda. His circumscription was followed by most authors for the next 100 years, even though it was widely believed to be problematic.[4]
In 1997, phylogenetic analysis of DNA data showed that Clerodendrum, as then understood, was polyphyletic.[16] This situation was remedied in 1998 with the revival of Rotheca.[5] This taxonomic change was based on previous work and on a molecular phylogenetic study that was not published until the following year.[17]
In 2004, a study of DNA sequences showed that the monospecific Australian genus Huxleya was embedded in a clade of Clerodendrum species that had formerly been placed in Volkameria.[18]Huxleya was then sunk into synonymy with Clerodendrum. The 2004 study sampled Aegiphila, Tetraclea, and Amasonia, three New World genera of Ajugoideae that had not previously been sampled for DNA. The results of this study cast doubt, once again, upon the monophyly of Clerodendrum.
In 2010, a study of four chloroplast DNA intergenic spacers showed that part of Clerodendrum was closer to the New world genera than to other Clerodendrum, and that one species of Clerodendrum was nested within the clade of New World genera.[4] The authors of this study resurrected the genus Volkameria and assigned to it about 30 species that had been in Clerodendrum. They also resurrected Ovieda as a monotypic genus consisting of Ovieda spinosa. Volkameria and Ovieda had been erected by Linnaeus in 1753. Modern cladistic analysis has largely vindicated his concepts of Clerodendrum and its relatives.
Traditional medicinal use[edit]
Clerodendrum glandulosum. Coleb leaf aqueous extract is traditionally used by people of North-East India to alleviate symptoms of diabetes, obesity and hypertension.[citation needed]
Among the Zomi tribes in the North East India Anphui(Clerodendrum) is also being used as a dish/curry.[19]
Systematics[edit]
Clerodendrum is strongly supported as monophyletic in molecular phylogenetic analyses. It consists of two clades, each of which receives strong bootstrap support. One clade contains mostly African species. The other is mostly Asian. The African and Asian groups can not confidently be divided into sections without more extensive sampling of taxa in phylogenetic studies. The Madagascan species, in particular, are poorly studied.[4]
It appears that the long, narrow corolla tube evolved only once in Clerodendrum, and appeared again, among its relatives, in Ovieda.[4]
Gallery[edit]
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Common Rose Pachliopta aristolochiae on Clerodendrum viscosum at Samsing in Darjeeling district of West Bengal, India.
References[edit]
- ^ a b "Genus: Clerodendrum L.". Germplasm Resources Information Network. United States Department of Agriculture. 2010-05-27. Retrieved 2011-02-17.
- ^ a b Raymond M. Harley, Sandy Atkins, Andrey L. Budantsev, Philip D. Cantino, Barry J. Conn, Renée J. Grayer, Madeline M. Harley, Rogier P.J. de Kok, Tatyana V. Krestovskaja, Ramón Morales, Alan J. Paton, and P. Olof Ryding. 2004. "Labiatae" pages 167-275. In: Klaus Kubitzki (editor) and Joachim W. Kadereit (volume editor). The Families and Genera of Vascular Plants volume VII. Springer-Verlag: Berlin; Heidelberg, Germany. ISBN 978-3-540-40593-1
- ^ Steven J. Wagstaff, Laura Hickerson, Russ Spangler, Patrick A. Reeves, and Richard G. Olmstead. 1998. "Phylogeny in Labiatae s.l., inferred from cpDNA sequences". Plant Systematics and Evolution 209(3-4):265-274.
- ^ a b c d e f g h i Yao-Wu Yuan, David J. Mabberley, Dorothy A. Steane, and Richard G. Olmstead. 2010. "Further disintegration and redefinition of Clerodendrum (Lamiaceae): Implications for the understanding of the evolution of an intriguing breeding strategy". Taxon 59(1):125-133.
- ^ a b Dorothy A. Steane and David J. Mabberley. 1998. "Rotheca (Lamiaceae) Revived". Novon 8(2):204-206.
- ^ Rosette B. Fernandes and Bernard Verdcourt. 2000. "Rotheca (Labiatae) revived - more new combinations". Kew Bulletin 55(1):147-154.
- ^ Clerodendrum In: Index Nominum Genericorum. In: Regnum Vegetabile (see External links below).
- ^ a b Anthony J. Huxley, Mark Griffiths, and Margot Levy (editors). 1992. The New Royal Horticultural Society Dictionary of Gardening. The Macmillan Press Limited, London; The Stockton Press, New York.
- ^ a b c d David J. Mabberley. 2008. Mabberley's Plant-Book third edition (2008). Cambridge University Press: UK. ISBN 978-0-521-82071-4
- ^ Floyd, A.G., Australian Rainforests in New South Wales Volume 2 - 1990 ISBN 0-949324-32-9 page 179
- ^ a b George W. Staples and Derral R. Herbst "A Tropical Garden Flora" Bishop Museum Press: Honolulu (2005)
- ^ a b "GRIN Species Records of Clerodendrum". Germplasm Resources Information Network. United States Department of Agriculture. Retrieved 2011-02-17.
- ^ Clerodendrum page 637. In: Carolus Linnaeus. 1753. Species Plantarum volume 2. Laurentii Salvii. (see External Links below).
- ^ Umberto Quattrocchi. 2000. CRC World Dictionary of Plant Names volume I, page 559. CRC Press: Boca Raton; New York; Washington,DC;, US. London, UK. ISBN 978-0-8493-2673-8 (set).
- ^ John Isaac Briquet. 1895. "Clerodendrum" pages 174-176. In: "Verbenaceae" pages 132-182. In: Die Natürlichen Pflanzenfamilien volume IV, part 3a. Verlag von Wilhelm Engelmann: Leipzig, Germany.
- ^ Dorothy A. Steane, Robert W. Scotland, and David J. Mabberley (1997). "Phylogenetic Relationships of Clerodendrum s.l. (Lamiaceae) Inferred from Chloroplast DNA". Systematic Botany 22 (2): 229–243. doi:10.2307/2419455.
- ^ Dorothy A. Steane, Robert W. Scotland, David J. Mabberley, and Richard G. Olmstead (1999). "Molecular systematics of Clerodendrum (Lamiaceae): ITS sequences and total evidence". American Journal of Botany 86 (1): 98–107. doi:10.2307/2656958. PMID 21680349.
- ^ Dorothy A. Steane, Rogier P.J. de Kok, and Richard G. Olmstead (2004). "Phylogenetic relationships between Clerodendrum (Lamiaceae) and other Ajugoid genera inferred from nuclear and chloroplast DNA sequence data". Molecular Phylogenetics and Evolution 32 (1): 39–45. doi:10.1016/j.ympev.2003.11.011. PMID 15186795.
- ^ Anphui Dish from Biaki's Kitchen- https://m.facebook.com/photo.php?fbid=699621273413089&id=440688782639674&set=a.440710989304120.111092.440688782639674
License | http://creativecommons.org/licenses/by-sa/3.0/ |
Rights holder/Author | Wikipedia |
Source | http://en.wikipedia.org/w/index.php?title=Clerodendrum&oldid=654661264 |
Clerodendrum
Trees, erect shrubs, or less frequently lianas or scandent shrubs, sometimes with axillary spines. Leaves simple, opposite or whorled, petiolate, with entire or dentate margins. Flowers showy, bisexual, zygomorphic, in axillary cymes or terminal panicles. Calyx campanulate or tubular, truncate, 5-lobate; corolla 5-merous, hypocrateriform; stamens 4, the filaments didynamous, adnate to the base of the corolla, exserted; ovary superior, 4-locular, each locule with a solitary ovule; style slender, crowned by a globose stigma. Fruit drupaceous, 4-lobate, with 4 pyrenes. A genus of approximately 400 species, the majority native to the tropics of the Old World.
Trees, shrubs, subshrubs or lianes, usually strongly foetid when crushed. Leaves opposite or in whorls of 3-4, simple. Flowers in lax cymes, panicles, corymbs or heads, rarely solitary. Calyx campanulate to tubular, truncate to 5-toothed. often accrescent in fruit, sometimes coloured and showy. Flower bud symmetrical, or if asymmetrical usually expanding on the upper side due to resupination; anterior corolla lobe only slightly (if at all) larger than the other 4. Corolla white, blue, violet or red; tube sometimes very long or only as long as the calyx. Stamens 4-5, didynamous, usually long-exserted; anthers dorsifixed. Ovary imperfectly 4-locular. Stigma 2-fid, exserted, the lobes equal. Fruit a drupe, often 4-grooved and ± (2-)4-lobed.
License | http://creativecommons.org/licenses/by-nc/3.0/ |
Rights holder/Author | Mark Hyde, Bart Wursten, Petra Ballings, Flora of Zimbabwe |
Source | http://www.zimbabweflora.co.zw/speciesdata/genus.php?genus_id=1212 |
Árboles, arbustos erectos o con menos frecuencia lianas o arbustos escandentes, a veces con espinas axilares. Hojas simples, opuestas o verticiladas, pecioladas, con márgenes enteros o dentados; estípulas ausentes. Flores bisexuales, zigomorfas, 5-meras, vistosas, en cimas axilares o panículas terminales. Cáliz campanulado o tubular, truncado, 5-lobado; corola hipocrateriforme; estambres 4, didínamos, adnatos en la base a la corola, exertos; ovario súpero, bicarpelar, 4-locular, cada lóculo con un óvulo solitario; estilo delgado, coronado por un estigma globoso. Fruto una drupa, 4-lobada, con 4 pirenios. Género con aproximadamente 400 especies, en su mayoría nativas de los trópicos del Viejo Mundo.
Foodplant / sap sucker
Saissetia coffeae sucks sap of live leaf of Clerodendrum
License | http://creativecommons.org/licenses/by-nc-sa/3.0/ |
Rights holder/Author | BioImages, BioImages - the Virtual Fieldguide (UK) |
Source | http://www.bioimages.org.uk/html/Clerodendrum.htm |
Barcode of Life Data Systems (BOLD) Stats
Specimen Records:144
Specimens with Sequences:217
Specimens with Barcodes:167
Species:39
Species With Barcodes:37
Public Records:47
Public Species:21
Public BINs:0