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Diapensiaceae

February 01, 2023

Diapensiaceae is a small family of flowering plants, which includes 15 species in 6 genera.[2] The genera include Berneuxia Decne. (1 species),[3] Diapensia L. (5 species),[4] Galax Sims (1 species),[3] Pyxidanthera Michx. (2 species),[5] Shortia Torr. & A.Gray (4 species),[6] and Schizocodon Siebold & Zucc. (2 species).[6] Members of this family have little economic importance; however, some members are cultivated by florists.[7]

Taxonomy

Past literature classified Diapensiaceae as an old family, without defining the meaning of old.[8] The name Diapensia was given to Diapensia lapponica by Linnaeus. Previously, it was the Greek name of sanicle.[9][10] The family, originally including only Diapensia lapponica, was named by Heinrich Friedrich Link in 1829.[11] Concerning the interrelationships in Diapensiaceae, debate still remains regarding the recognition of Schizocodon and whether it should be separate from Shortia. However, recent molecular studies support the split of the two genera.[6] Additionally, recognition of species within the genera has been debated. Within the genus Pyxidanthera, two species have previously been recognized. Recent morphology and molecular work found that the two species do not differ morphologically, gene flow exists between them, and the taxa are not monophyletic.[12][13]

Over time, various relationships among Diapensiaceae and other angiosperm families have been proposed. Previously, it was placed within the order Rosales,[14] as well as in the Cornales.[15] Diapensiaceae was also placed in an order of its own in the Cronquist system and by Takhtajan.[16] Recent studies have placed Diapensiaceae as part of the Ericales clade, belonging to the “styracoids” (Diapensiaceae, Styracaceae, Symplocaceae).[17] It is estimated that Diapensiaceae diverged from Sytracaceae about 93 million years ago.[18] The family is thought to have originated in the Northern Hemisphere.[19]

Distribution

Family Diapensiaceae members are mostly found in North America and Eastern Asia.[7]

Genera Distribution[20]
Berneuxia Tibet, southern China, and Burma
Diapensia Mostly mountains in southern Asia, Diapensia lapponica is circumboreal
Galax Eastern United States
Pyxidanthera Eastern United States
Shortia Eastern United States, China, and Taiwan
Schizocodon Japan

Characteristics

Members of Diapensiaceae are mostly herbs or shrublets. Flowers have radial symmetry, are hypogynous, and have most parts arranged in whorls of 5. The ovary is made of three fused carpels. They have both ectotrophic and endotrophic mycorrhiza associations.[3]

Diapensiaceae genera[5]
Genera Life form Leaf shape Inflorescence characters
Berneuxia Perennial herb linear and petiolate Distinct scape
Diapensia Cushion-like shrublet linear and lanceolate to oblanceolate and sessile Solitary
Galax Perennial herb reniform to orbicular and petiolate Raceme
Pyxidanthera Cushion-like shrublet linear and lanceolate to oblanceolate and sessile Solitary
Shortia/Schizocodon Perennial herb reniform to orbicular and petiolate Solitary or raceme

References

  1. ^ Angiosperm Phylogeny Group (2009). "An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG III". Botanical Journal of the Linnean Society. 161 (2): 105–121. doi:10.1111/j.1095-8339.2009.00996.x.
  2. ^ Stevens, P. F. "Angiosperm Phylogeny Website. Version 14, July 2017". Retrieved 29 January 2019.
  3. ^ a b c Rönblom, K.; Anderberg, A. A. (2002). "Phylogeny of Diapensiaceae based on molecular data and morphology". Systematic Botany. 27 (2): 383–395. doi:10.1043/0363-6445-27.2.383 (inactive 31 December 2022). JSTOR 3093878.{{cite journal}}: CS1 maint: DOI inactive as of December 2022 (link)
  4. ^ Hou, Yan; Nowak, Michael D.; Mirré, Virginia; Bjorå, Charlotte S.; Brochmann, Christian; Popp, Magnus (2015). "Thousands of RAD-seq Loci Fully Resolve the Phylogeny of the Highly Disjunct Arctic-Alpine Genus Diapensia (Diapensiaceae)". PLOS ONE. 10 (10): e0140175. Bibcode:2015PLoSO..1040175H. doi:10.1371/journal.pone.0140175. PMC 4598014. PMID 26448557.
  5. ^ a b Wells, B. W. (1929). "A new pyxie from North Carolina". Journal of the Elisha Mitchell Scientific Society. 44 (2): 238–239.
  6. ^ a b c Higashi, Hiroyuki; Ikeda, Hajime; Setoguchi, Hiroaki (2015). "Molecular phylogeny of Shortia sensu lato (Diapensiaceae) based on multiple nuclear sequences". Plant Systematics and Evolution. 301 (2): 523–529. doi:10.1007/s00606-014-1088-7. S2CID 18161027.
  7. ^ a b Scott, P. J. (2004). "Diapensiaceae". Flowering Plants Dicotyledons Part of the Families and Genera of Vascular Plants Book Series (Families Genera. 6): 117–121.
  8. ^ Baldwin Jr., J. T. (1939). "Chromosomes of the Diapensiaceae: a cytological approach to a phylogenetic problem". Journal of Heredity. 30 (4): 169–171. doi:10.1093/oxfordjournals.jhered.a104709.
  9. ^ Smith, A. W. (January 1997). A Gardener's Handbook of Plant Names: Their Meanings and Origins. Dover Publications. ISBN 0486297152.
  10. ^ Sweet, Robert (6 January 2018). The British Flower Garden, (series the Second) (3 ed.). Forgotten Books. ISBN 978-0428437602.
  11. ^ Link, Heinrich Friedrich; Willdenow, Karl Ludwig (1829–1833). Handbuch zur Erkennung der nutzbarsten und am häufigsten vorkommenden Gewächse. Vol. 2. Berlin: Spenerschen Buchhandlung. doi:10.5962/bhl.title.129754. hdl:2027/hvd.32044107267049.
  12. ^ Wall, W. A.; Douglas, N. A.; Xiang, Q. Y.; Hoffmann, W. A.; Wentworth, T. R.; Hoffmann, M. G. (2010). "Evidence for range stasis during the latter Pleistocene for the Atlantic Coastal Plain endemic genus, Pyxidanthera Michaux". Molecular Ecology. 19 (19): 4302–4314. doi:10.1111/j.1365-294x.2010.04793.x. PMID 20819166. S2CID 5983059.
  13. ^ Gaynor, Michelle L.; Fu, Chao-Nan; Gao, Lian-Ming; Lu, Li-Min; Soltis, Douglas E.; Soltis, Pamela S. (2020). "Biogeography and ecological niche evolution in Diapensiaceae inferred from phylogenetic analysis". Journal of Systematics and Evolution. 58 (5): 646–662. doi:10.1111/jse.12646. ISSN 1759-6831. S2CID 219919838.
  14. ^ Thorne, R. F. (1983). "Proposed new realignments in the angiosperms". Nordic Journal of Botany. 3 (1): 85–117. doi:10.1111/j.1756-1051.1983.tb01447.x.
  15. ^ Dahlgren, R. (1983). "General aspects of angiosperm evolution and macrosystematics". Nordic Journal of Botany. 3: 119–149. doi:10.1111/j.1756-1051.1983.tb01448.x.
  16. ^ Takhtajan, A. L. (1997). Diversity and classification of flowering plants. New York: Columbia University Press.
  17. ^ Schönenberger, J; Anderberg, A. A.; Sytsma, K. J. (2005). "Molecular phylogenetics and patterns of floral evolution in the Ericales". International Journal of Plant Sciences. 166 (2): 265–288. doi:10.1086/427198. S2CID 35461118.
  18. ^ Rose, J. P.; Kleist, T. J.; Löfstrand, S. D.; Drew, B. T.; Schönenberger, J.; Sytsma, K. J. (2018). "Phylogeny, historical biogeography, and diversification of angiosperm order Ericales suggest ancient Neotropical and East Asian connections". Molecular Phylogenetics and Evolution. 122: 59–79. doi:10.1016/j.ympev.2018.01.014. PMID 29410353.
  19. ^ Hou, Y.; Bjorå, C. S.; Ikeda, H.; Brochmann, C.; Popp, M. (2016). "rom the north into the Himalayan–Hengduan Mountains: fossil‐calibrated phylogenetic and biogeographical inference in the arctic‐alpine genus Diapensia (Diapensiaceae)". Journal of Biogeography. 43 (8): 1502–1513. doi:10.1111/jbi.12715. S2CID 88118650.
  20. ^ Palser, Barbara F. (1963). "Studies of Floral Morphology in the Ericales VI. The Diapensiaceae". Botanical Gazette. 124 (3): 200–219. doi:10.1086/336193. S2CID 84273962.
  •   Media related to Diapensiaceae at Wikimedia Commons

February 01, 2023
diapensiaceae, small, family, flowering, plants, which, includes, species, genera, genera, include, berneuxia, decne, species, diapensia, species, galax, sims, species, pyxidanthera, michx, species, shortia, torr, gray, species, schizocodon, siebold, zucc, spe. Diapensiaceae is a small family of flowering plants which includes 15 species in 6 genera 2 The genera include Berneuxia Decne 1 species 3 Diapensia L 5 species 4 Galax Sims 1 species 3 Pyxidanthera Michx 2 species 5 Shortia Torr amp A Gray 4 species 6 and Schizocodon Siebold amp Zucc 2 species 6 Members of this family have little economic importance however some members are cultivated by florists 7 DiapensiaceaeDiapensia lapponicaScientific classificationKingdom PlantaeClade TracheophytesClade AngiospermsClade EudicotsClade AsteridsOrder EricalesFamily DiapensiaceaeLindl 1 Contents 1 Taxonomy 2 Distribution 3 Characteristics 4 ReferencesTaxonomy EditPast literature classified Diapensiaceae as an old family without defining the meaning of old 8 The name Diapensia was given to Diapensia lapponica by Linnaeus Previously it was the Greek name of sanicle 9 10 The family originally including only Diapensia lapponica was named by Heinrich Friedrich Link in 1829 11 Concerning the interrelationships in Diapensiaceae debate still remains regarding the recognition of Schizocodon and whether it should be separate from Shortia However recent molecular studies support the split of the two genera 6 Additionally recognition of species within the genera has been debated Within the genus Pyxidanthera two species have previously been recognized Recent morphology and molecular work found that the two species do not differ morphologically gene flow exists between them and the taxa are not monophyletic 12 13 Over time various relationships among Diapensiaceae and other angiosperm families have been proposed Previously it was placed within the order Rosales 14 as well as in the Cornales 15 Diapensiaceae was also placed in an order of its own in the Cronquist system and by Takhtajan 16 Recent studies have placed Diapensiaceae as part of the Ericales clade belonging to the styracoids Diapensiaceae Styracaceae Symplocaceae 17 It is estimated that Diapensiaceae diverged from Sytracaceae about 93 million years ago 18 The family is thought to have originated in the Northern Hemisphere 19 Distribution EditFamily Diapensiaceae members are mostly found in North America and Eastern Asia 7 Genera Distribution 20 Berneuxia Tibet southern China and BurmaDiapensia Mostly mountains in southern Asia Diapensia lapponica is circumborealGalax Eastern United StatesPyxidanthera Eastern United StatesShortia Eastern United States China and TaiwanSchizocodon JapanCharacteristics EditMembers of Diapensiaceae are mostly herbs or shrublets Flowers have radial symmetry are hypogynous and have most parts arranged in whorls of 5 The ovary is made of three fused carpels They have both ectotrophic and endotrophic mycorrhiza associations 3 Diapensiaceae genera 5 Genera Life form Leaf shape Inflorescence charactersBerneuxia Perennial herb linear and petiolate Distinct scapeDiapensia Cushion like shrublet linear and lanceolate to oblanceolate and sessile SolitaryGalax Perennial herb reniform to orbicular and petiolate RacemePyxidanthera Cushion like shrublet linear and lanceolate to oblanceolate and sessile SolitaryShortia Schizocodon Perennial herb reniform to orbicular and petiolate Solitary or racemeReferences Edit Angiosperm Phylogeny Group 2009 An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants APG III Botanical Journal of the Linnean Society 161 2 105 121 doi 10 1111 j 1095 8339 2009 00996 x Stevens P F Angiosperm Phylogeny Website Version 14 July 2017 Retrieved 29 January 2019 a b c Ronblom K Anderberg A A 2002 Phylogeny of Diapensiaceae based on molecular data and morphology Systematic Botany 27 2 383 395 doi 10 1043 0363 6445 27 2 383 inactive 31 December 2022 JSTOR 3093878 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint DOI inactive as of December 2022 link Hou Yan Nowak Michael D Mirre Virginia Bjora Charlotte S Brochmann Christian Popp Magnus 2015 Thousands of RAD seq Loci Fully Resolve the Phylogeny of the Highly Disjunct Arctic Alpine Genus Diapensia Diapensiaceae PLOS ONE 10 10 e0140175 Bibcode 2015PLoSO 1040175H doi 10 1371 journal pone 0140175 PMC 4598014 PMID 26448557 a b Wells B W 1929 A new pyxie from North Carolina Journal of the Elisha Mitchell Scientific Society 44 2 238 239 a b c Higashi Hiroyuki Ikeda Hajime Setoguchi Hiroaki 2015 Molecular phylogeny of Shortia sensu lato Diapensiaceae based on multiple nuclear sequences Plant Systematics and Evolution 301 2 523 529 doi 10 1007 s00606 014 1088 7 S2CID 18161027 a b Scott P J 2004 Diapensiaceae Flowering Plants Dicotyledons Part of the Families and Genera of Vascular Plants Book Series Families Genera 6 117 121 Baldwin Jr J T 1939 Chromosomes of the Diapensiaceae a cytological approach to a phylogenetic problem Journal of Heredity 30 4 169 171 doi 10 1093 oxfordjournals jhered a104709 Smith A W January 1997 A Gardener s Handbook of Plant Names Their Meanings and Origins Dover Publications ISBN 0486297152 Sweet Robert 6 January 2018 The British Flower Garden series the Second 3 ed Forgotten Books ISBN 978 0428437602 Link Heinrich Friedrich Willdenow Karl Ludwig 1829 1833 Handbuch zur Erkennung der nutzbarsten und am haufigsten vorkommenden Gewachse Vol 2 Berlin Spenerschen Buchhandlung doi 10 5962 bhl title 129754 hdl 2027 hvd 32044107267049 Wall W A Douglas N A Xiang Q Y Hoffmann W A Wentworth T R Hoffmann M G 2010 Evidence for range stasis during the latter Pleistocene for the Atlantic Coastal Plain endemic genus Pyxidanthera Michaux Molecular Ecology 19 19 4302 4314 doi 10 1111 j 1365 294x 2010 04793 x PMID 20819166 S2CID 5983059 Gaynor Michelle L Fu Chao Nan Gao Lian Ming Lu Li Min Soltis Douglas E Soltis Pamela S 2020 Biogeography and ecological niche evolution in Diapensiaceae inferred from phylogenetic analysis Journal of Systematics and Evolution 58 5 646 662 doi 10 1111 jse 12646 ISSN 1759 6831 S2CID 219919838 Thorne R F 1983 Proposed new realignments in the angiosperms Nordic Journal of Botany 3 1 85 117 doi 10 1111 j 1756 1051 1983 tb01447 x Dahlgren R 1983 General aspects of angiosperm evolution and macrosystematics Nordic Journal of Botany 3 119 149 doi 10 1111 j 1756 1051 1983 tb01448 x Takhtajan A L 1997 Diversity and classification of flowering plants New York Columbia University Press Schonenberger J Anderberg A A Sytsma K J 2005 Molecular phylogenetics and patterns of floral evolution in the Ericales International Journal of Plant Sciences 166 2 265 288 doi 10 1086 427198 S2CID 35461118 Rose J P Kleist T J Lofstrand S D Drew B T Schonenberger J Sytsma K J 2018 Phylogeny historical biogeography and diversification of angiosperm order Ericales suggest ancient Neotropical and East Asian connections Molecular Phylogenetics and Evolution 122 59 79 doi 10 1016 j ympev 2018 01 014 PMID 29410353 Hou Y Bjora C S Ikeda H Brochmann C Popp M 2016 rom the north into the Himalayan Hengduan Mountains fossil calibrated phylogenetic and biogeographical inference in the arctic alpine genus Diapensia Diapensiaceae Journal of Biogeography 43 8 1502 1513 doi 10 1111 jbi 12715 S2CID 88118650 Palser Barbara F 1963 Studies of Floral Morphology in the Ericales VI The Diapensiaceae Botanical Gazette 124 3 200 219 doi 10 1086 336193 S2CID 84273962 Media related to Diapensiaceae at Wikimedia Commons Retrieved from https en wikipedia org w index php title Diapensiaceae amp oldid 1130885241, wikipedia, wiki, book, books, library,

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