Lomelosia

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Lomelosia
Lomelosia palaestina kz05.jpg
Lomelosia palaestina at Kufranja Dam in Jordan
Scientific classification OOjs UI icon edit-ltr.svg
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Dipsacales
Family: Caprifoliaceae
Subfamily: Dipsacoideae
Genus: Lomelosia
Raf.
Species

See text

Synonyms [1]
  • Callistemma(Mert. & W.D.J.Koch) Boiss., Fl. Orient. 3: 146 (1875)
  • ScabiosiopsisRech.f., Willdenowia 19: 153 (1989)
  • TereiphasRaf., Fl. Tellur. 4: 95 (1838)
  • TremastelmaRaf., Fl. Tellur. 4: 96 (1838)
  • ZygostemmaTiegh., Ann. Sci. Nat., Bot., sér. 9, 10: 164 (1909)

Lomelosia is a genus of flowering plant in the family Caprifoliaceae and the subfamily of Dipsacoideae. The genus includes over 50-63, perennial and annual species, diffused around the Mediterranean Sea, with the greatest diversity of species concentrated in the eastern Mediterranean and the Middle East (including the Arabian Peninsula), and also has a few species reaching as far east as China. [1]

Contents

Morphologically, the genus accommodates all Scabiosa taxa with a pitted epicalyx. (an involucre (structure surrounding or supporting, usually a head of flowers) resembling an outer calyx (collective term for the sepals of the flower). [2]

Some older books still list them under Scabiosa. [3] or list both names together. Such as Scabiosa siculaL. [Lomelosia divaricataJacq.) Greuter & Burdet]. [4]

Taxonomy

Lomelosia was first published and described by french botanist Rafinesque in Flora Telluriana Vol.4 on page 95 in 1838, with a general description of Lomelosia stellata(L.) Raf. [1]

The name Lomelosia is derived from the Greek word Loma meaning 'the edge or the border' which refers to the membranous border of the flower. [5]

History

Flower of Lomelosia caucasica in Wroclaw University Botanical Garden, Wroclaw, Poland. Lomelosia caucasica 2021-10-09 01.jpg
Flower of Lomelosia caucasica in Wrocław University Botanical Garden, Wrocław, Poland.

It was included in ScabiosaL. for quite a long time (e.g. Jasiewicz 1976), [6]

Earlier researchers had considered that the annual species of Scabiosa to be derived within Lomelosia and hypothesized that this was responsible for the successful colonization of the (mostly) Eastern Mediterranean, (Ehrendorfer, 1965a; [7] and Verlaque, 1986b. [8]

For very many years Lomelosia caucasica was known as Scabiosa caucasicaM. Bieb. as well as several other species of Scabiosa. [9] Then following a comprehensive study of the family Dipsacaceae by Verlaque in 1983, [10] and also by Devesa in 1984. [11]

The Scabioseae subfamily were then split into several genera, with S. caucasica placed in LomelosiaRaf. (Greuter 1985). [12] López González in 1987 agreed with the split. [13]

Greuter and Raus in 1985, [12] divided Iranian species of Scabiosa into two genera as Lomelosia (= Scabiosa sect. Astrocephalus and sect. Olivierinae) and Scabiosa s. str. (Scabiosa s. l sect. scaboisa). [14] Asterocephalus was later classed as a synonym of Scabiosa. [15]

Soják in 1987, also transferred several species of Scabiosa taxa found in Asia, to the Lomelosia genus. Including Lomelosia flavida(Boiss. & Hausskn.) Soják, Lomelosia gumbetica(Boiss.) Soják, Lomelosia isetensis(L.) Soják, Lomelosia leucactis(Patzak) Soják, Lomelosia macrochaete(Boiss. & Hausskn.) Soják, Lomelosia olgae(Albov) Soják, Lomelosia rhodantha(Kar. & Kir.) Soják, Lomelosia speciosa(Royle) Soják,, Lomelosia songarica(Schrenk) Soják and Lomelosia ucranica(L.) Soják. [16]

There are 22 species of Scabiosa recorded in the Flora Iranica by Rechinger in 1989, as he had not accepted the new term Lomelosia and had stated that species were later divided into two subgenera (Scabiosa and Asterocephalus) and three sections including Scabiosa, Asterocephalus and Olivierianae. He had used Scabiosa sect. Olivierianae to hold some of the annual species of Scabiosa subg. Asterocephalus. [17] New species from Iran and Asia were also added to these three sections. [18]

Molecular data demonstrated that Lomelosia (and Pycnocomon) form a clade distinct from Scabiosa (and Sixalix) (De Castro & Caputo 1997-1998, [19] Further carpological (seed studies) and palynological studies by Mayer & Ehrendorf in 1999, [20] have confirmed that Lomelosia was a separate genus from Scabiosa, which has been further substantiated by later data from molecular phylogenetics (Caputo & al. 2004; [21] and Avino & al. 2009. [22] In 2009, the DNA clade of Scabioseae, consisting of Pterocephalus s.str., Sixalix, Scabiosa, Lomelosia, and Pycnocomon was established. [23] Lomelosia can be distinguished from the other related genera by the presence of eight pits on the epicalyx tube (De Castro & Caputo 2001). [24]

The annual Lomelosia brachiata was resolved to be a genetic sister to the rest of Lomelosia and Pycnocomon in 2009. [23]

In 2010, the Dipsacoideae subfamily was divided into 2 genetic DNA clades; KnautiaCephalariaDipsacusSuccisella clade and the ScabiosaPterocephalusLomelosia clade. [25]

In 2011, 4 more species from the Scabiosa genus with a pitted epicalyx transferred to Lomelosia, Lomelosia deserticola(Rech. f.) P. Caputo & Del Guacchio, Lomelosia poecilocarpa(Rech. f.) P. Caputo & Del Guacchio, Lomelosia schimperiana(Boiss. & Buhse) P. Caputo & Del Guacchio, and Lomelosia transcaspica(Rech. f.) P. Caputo & Del Guacchio. [26]

In 2013, V. Mayer and Ehrend established Lomelosieae, a subgenus within Lomelosia. [27]

Description

Lomelosia cretica from Taormina, Sicily Lomelosia cretica RF.jpg
Lomelosia cretica from Taormina, Sicily

Lomelosia is made up of perennial and annual, herbaceous species, examples include; Lomelosia persica is an annual species, [27] while Lomelosia caucasicaM. Bieb. is a perennial.

They are sometimes suffruticose (having a woody base, but herbaceous higher up), unarmed, without prickles. Leafy or scapiform stems, which have short hairs. It has sessile or petiolate (stalked) leaves. They are whole and toothed. They can be pinnatifid, pinnatipartite or pinnatisect. The basal leaves are sometimes in a rosette, persistent or not at anthesis (fully open flowering). They have hemispheric chapters at anthesis which are globose or ovoid at the time of fruiting. It has numerous free bracts, arranged in 1-2 (or 3) rows. They are entire or pinnatifid, receptacle at first hemispherical and then conical or cylindrical (in shape), hairy, with herbaceous-scarious bracteoles. They have hermaphroditic, pentamerous (5 part) flowers, which are subactinomorphic (less than star-shaped) or zygomorphic (bilateral). They are almost equal or the peripheral ones of the larger chapter. The secondary involucre is homomorphous, sessile, without basal elasome, shaped like a cylindrical tube, with no apparent nerves or ribs and is densely hirsute. They have 8 foveolae in the distal half. It has a campanulate (bell-shaped) crown, which is scarious (dry and membranous) and hyaline (translucent), with ± scalloped edge. They are traversed by numerous smooth or scabrid nerves, sometimes excurrent (extending). The midriff is scarious and hairy. It consists of 8 adnate tabs and with a cylindrical projection that surrounds the calyx stipe. The calyx is pateniform, pentagonal (in shape), ± stipitate, with glanduliferous or eglandulous hairs. It has 5 subulate or widened edges at the base, they are ± scabrid, erect-patent or patent and persistent. The corolla has 5 lobes, that of the peripheral flowers are often zygomorphic, with very unequal lobes. As 3 are bigger than the other 2 lobes. The central is major, so that of the flowers in the center are subactinomorphic. They come in shades of pink, violet-pink or blue-like. The androecium is made of 4 stamens. The stigma is capitate (resembles the head of a pin), bilobate (split in two) and oblique. The fruit (or seed capsule) is an achene (dry fruit) which is glabrous or hairy. (Translated from Spanish). [28]

They are generally have involucral bracts not connate (fused to another organ), entire and radiant, the epicalyx is cylindrical and the corona can be large. [27]

Species

Seed head of Lomelosia stellata (syn. Scabiosa stellata) in Wroclaw University Botanical Garden, Wroclaw, Poland. Lomelosia stellata 2020-07-28 01.jpg
Seed head of Lomelosia stellata (syn. Scabiosa stellata) in Wrocław University Botanical Garden, Wrocław, Poland.

63 Accepted species by Plants of the World Online (as of October 2023); [1]

GRIN (United States Department of Agriculture and the Agricultural Research Service) only accepts 12 species;Lomelosia argentea, Lomelosia calocephala, Lomelosia caucasica, Lomelosia cretica, Lomelosia divaricata, Lomelosia graminifolia, Lomelosia micrantha, Lomelosia minoana, Lomelosia palaestina, Lomelosia prolifera, Lomelosia speciosa and Lomelosia stellata. [30]

Distribution

Lomelosia is described as an Old World genus and it is distributed from the Mediterranean region to Central Asia. [2] [29]

It is found in the European countries (and regions) of Albania, the Balearic Islands, Bulgaria, Cyprus, East Aegean Islands, France, Greece, Italy, [31] Crete, [32] Portugal, Romania, Sardinia, Sicily, Spain, Switzerland, Ukraine and Yugoslavia. In Russia, (Altai (region), Crimea, East European Russia, South European Russia and West Siberia. In Northern Africa within Algeria, Egypt, [33] Tunisia, Libya and Morocco. In the Middle East, [34] within Afghanistan, Iran, [29] Iraq, Kuwait, Lebanon, Syria, Oman, Pakistan, Palestine, Saudi Arabia, [35] and Turkey. In central Asia within Kazakhstan, Kirghistan, North Caucasus, Tajikistan, Transcaucasus, Turkmenistan, Uzbekistan and West Himalaya. Also in eastern Asia in Xinjiang (China). [1]

Habitat

Grass-leaved scabious (Lomelosia graminifolia) near Limone sul Garda, Italy Lomelosia graminifolia 2 RF.jpg
Grass-leaved scabious (Lomelosia graminifolia) near Limone sul Garda, Italy

Lomelosia species like a range of habitats.

For example, Lomelosia cyprica is found on dry slopes in garigue (low scrubland) and open pine forests at altitudes of 150 and 1,200 m (490 and 3,940 ft) above sea level. [36]

While L. argentea likes arid meadows and garigue, L. crenata likes detrital (rocky) slopes and L. graminifolia likes stony slopes (in Italy). [31]

Lomelosia minoana is Greek and Crete native rock-dwelling plant. [37]

While Lomelosia deserticola(Rech.f.) P.Caputo & Del Guacchio is found in deserts of Syria, Jordan, Iraq and Pakistan and Lomelosia schimperiana(Boiss. & Buhse) P. Caputo & Del Guacchio is found in open environments in Iran. [26]

Ecology

The flowers of Lomelosia are insect pollinated, mainly by bees and bumblebees, as the plants give them a reward of nectar and pollen. [27] Other insects are occasional visitors, such as long-tongues hoverflies (Syrphidae), [38] moths (Proctor et al. 1996), [39] Lepidoptera (such as Lycaenidae) and Diptera) (Muller 1873, [40] ). [27]

Uses

Lomelosia hymettia is considered as a medicinal plant (Grigoriadou et al., 2019), [41] with antimicrobial properties (Christopoulou et al., 2008). [42]

Several species of Lomelosia are grown as ornamentals in Europe. Jäger & al. (2008; sub Scabiosa) cites L. caucasica(M. Bieb.) Greuter & Burdet, L. graminifolia(L.) Greuter & Burdet, L. prolifera(L.) Greuter & Burdet and 'L. stellata(L.) Raf. Matthews (2000; also sub Scabiosa) even cites 12 additional species that are cultivated in European gardens. One of these, L. stellata, has been recorded as a casual escape in Belgium. [2]

While L. graminifolia(L.) Greuter & Burdet (Barth, 2020), [43] L. hymettia(Boiss. & Spruner) Greuter & Burdet and L. cretica(L.) Greuter & Burdet are xerophytes used in landscaping designs. [44] L. prolifera(L.) Greuter & Burdet has been used as part of green roof plantations (Cristaudo et al., 2015). [45]

Cultivation

Successful propagation in various species of Lomelosia has been reported both via seed growing and by vegetative methods. Propagation with cuttings for species Lomelosia hymettia was carried out using Indole-3-butyric acid (IBA, hormone rooting agent) with results to a high rate of rooting (92.5-100%) during autumn, compared to 50-67.5% during the spring (Vlachou et al., 2019). [46] In-vitro propagation has also been successfully employed for Lomelosia argentea(L.) Greuter & Burdet (Panayotova et al., 2008). [47]

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References

  1. 1 2 3 4 5 "Lomelosia Raf. | Plants of the World Online | Kew Science". Plants of the World Online. Retrieved 19 August 2022.
  2. 1 2 3 "Lomelosia | Manual of the Alien Plants of Belgium". alienplantsbelgium.myspecies.info. Retrieved 19 August 2022.
  3. James Cullen, Sabina G. Knees, H. Suzanne Cubey and J. M. H. Shaw (Editors) The European Garden Flora Flowering Plants: A Manual for the Identification ... (2011) , p. 360, at Google Books
  4. Joseph W. Shaw and Maria C. Shaw (Editors) Kommos: An Excavation on the South Coast of Crete, Volume I, Part I: The ... (2014) , p. 140, at Google Books
  5. Johnson, A.T.; Smith, H.A.; Stockdale, A.P. (1931). Plant names simplified : their pronunciation, derivation and meaning (3rd revised ed.). W. H. & L. Collingridge. p. 90. ISBN   9781910455067.
  6. Jasiewicz, A. (1976). "Scabiosa". In Tutin, T.G.; Heywood, V.H.; Burges, N.A.; Valentine, D.H.; Walters, S.M.; Webb, D.A. (eds.). Flora Europea (vol. 4 ed.). Cambridge: Cambridge University Press. pp. 68–74.
  7. Ehrendorfer, F. (1965). "Dispersal mechanisms, genetic systems, and colonizing abilities in some flowering plant families.". In Baker, H.G.; Stebbins, J.L. (eds.). The Genetics of Colonizing Species. New York, USA: Academic Press. pp. 331–352.
  8. Verlaque, R. (1986). "Étude biosystématique et phylogénétique des Dipsacaceae. IV.— Tribus des Scabioseae (phylum #4) et conclusion". Rev. Cytol. Biol. Veg. Botaniste. 9: 97–176.
  9. S. K. Czerepanov Vascular Plants of Russia and Adjacent States (the Former USSR) (1995) , p. 216, at Google Books
  10. Verlaque, R. (1983). Etude biogéographique et phylogénétique des Dipsacaceae 2. - Thèse. Université de Province (St Charles): Academie Aix-Marseilles I.
  11. Devesa, J A. (1984). "Revision of the genus Scabiosa in Spain and Balearic Islands". Lagascalia. 12: 143–212.
  12. 1 2 Greuter, W. (1985). Greuter, W.; Raus, Th. (eds.). "Dipsacaceae". Willdenowia. Med-Checklist Notulae, 11. 15: 61–84.
  13. López González, G. (1987). "Pterocephalidium, un nuevo género ibérico de la familia Dipsacaceae". 43. Anales Jard. Bot. Madrid: 245–252.
  14. Ebadi, Mostafa; Siahkolaee, Sedigheh Nikzat (December 2016). "Palynological study of some Iranian species of Scabiosa L. (Caprifoliaceae)". Bangladesh Journal of Plant Taxonomy. 23 (2): 215. doi: 10.3329/bjpt.v23i2.30855 .
  15. "Asterocephalus Zinn | Plants of the World Online | Kew Science". Plants of the World Online. Retrieved 22 October 2023.
  16. Soják, Sborn. Nár. Mus. v Praze, Řada B, Přír. Vĕdy 43 (1): 58 (1987)
  17. Rechinger, K.H. (1989). "Scabioas sect. Olivierianae, sect. nove (Dipsacaceae)". Willdenowia. 19: 137–151.
  18. Rechinger, K.H.; Lack, H.W. (Jan 1991). "Dipsacaceae.". Flora Iranica. Flora des iranischen Hochlandes und der umrahmenden Gebirge. Vol. 168. Graz: Akademische Druck-und Verlagsanstalt. pp. 1–67.
  19. De Castro, O.; Caputo, P. (1997–1998). "A molecular reappraisal of Scabiosa L. and allied genera (Dipsacaceae)". Delpinoa. 39–40: 99–108.
  20. Mayer, V.; Ehrendorfer, F. (1999). "Fruit differentiation, palynology, and systematics in the Scabiosa group of genera and Pseudoscabiosa (Dipsacaceae)". Pl. Syst. Evol. 216 (1–2): 135–166. Bibcode:1999PSyEv.216..135M. doi:10.1007/BF00985103.
  21. Caputo, P.; Cozzolino, S.; Moretti, A. (2004). "Molecular phylogenetics of Dipsacaceae reveals [sic] parallel trends in seed dispersal syndromes". Pl. Syst. Evol. 246 (3–4): 163–175. doi:10.1007/s00606-004-0154-y.
  22. Avino, M.; Tortoriello, G.; Caputo, P. (2009). "A phylogenetic analysis of Dipsacaceae (Dipsacales) based on four DNA regions". Pl. Syst. Evol. 279: 69–86. doi:10.1007/s00606-009-0147-y.
  23. 1 2 Carlson, Sara E.; Mayer, Veronika; Donoghue, Michael J. (November 2009). "Phylogenetic relationships, taxonomy, and morphological evolution in Dipsacaceae (Dipsacales) inferred by DNA sequence data". Taxon. 58 (4): 1075–1091. doi:10.1002/tax.584003.
  24. De Castro, O.; Caputo, P. (2000) [1999]. "A phylogenetic analysis of genus Lomelosia Rafin. (Dipsacaceae) and allied taxa". Delpinoa. 41: 29–45.
  25. Temsch, Eva M.; Greilhuber, Johann (2010). "Genome size in Dipsacaceae and Morina longifolia (Morinaceae)". Plant Systematics and Evolution. 289 (1–2): 45–56. Bibcode:2010PSyEv.289...45T. doi:10.1007/s00606-010-0330-1.
  26. 1 2 3 4 5 6 Caputo, Paolo; Del Guacchio, Emanuele (December 2011). "Transfer of Four Species of Scabiosa to Lomelosia (Dipsacaceae)". Novon. 21 (4): 402–404. doi:10.3417/2009135.
  27. 1 2 3 4 5 Joachim W. Kadereit and Volker Bittrich (Editors) The Families and Genera of Vascular Plants Vol.XIV :Flowering Plants. Eudicots: Aquifoliales, Boraginales, Bruniales, Dipsacales ... (2016) , p. 150, at Google Books
  28. Devesa Alcaraz, Juan Antonio (January 2007). "Lomelosia". In Alcaraz, Juan Antonio Devesa; Gonzalo, Raúl; Herrero, Alberto (eds.). Flora Iberica. Plantas vasculares de la Península Ibérica a Islas Baleares Vol.15 (1 ed.). Servicio de Publicaciones del CSIC. pp. 336–347.
  29. 1 2 3 Ranjbar, M.; Ranjbar, Z. (2018). "A contribution to the genus Lomelosia (Caprifoliaceae: Dipsacoideae) in Iran". Phytotaxa. 385 (1): 48–50. doi:10.11646/phytotaxa.385.1.7.
  30. "Lomelosia". Germplasm Resources Information Network . Agricultural Research Service, United States Department of Agriculture . Retrieved 21 October 2023.
  31. 1 2 Fabio Conti and Fabrizio Bartolucci The Vascular Flora of the National Park of Abruzzo, Lazio and Molise (Central Italy):An annotated checklist (2015) , p. 63, at Google Books
  32. John Fielding Flowers of Crete (2005) , p. 199, at Google Books
  33. Loutfy Boulos Flora of Egypt: Verbenaceae - Compositae (2005) , p. 125, at Google Books
  34. Ahmad K. Hegazy and Jon Lovett Doust Plant Ecology in the Middle East (2016) , p. 297, at Google Books
  35. "Flora of Saudi Arabia- checklist". plantdiversityofsaudiarabia.info. Retrieved 21 October 2023.
  36. Alan Crivellaro and Fritz Hans Schweingruber Atlas of Wood, Bark and Pith Anatomy of Eastern Mediterranean Trees and ...(2013) , p. 258, at Google Books
  37. Grigoriadou, Katerina; Krigas, Nikos; Sarropoulou, Virginia; Maloupa, Eleni; Tsoktouridis, Georgios (2021). "Propagation and ex-situ conservation of Lomelosia minoana subsp. minoana and Scutellaria hirta - two ornamental and medicinal Cretan endemics (Greece)". Notulae Botanicae Horti Agrobotanici Cluj-Napoca. 49 (1): 1–13. doi:10.15835/nbha[12168] (inactive 2024-04-26).{{cite journal}}: CS1 maint: DOI inactive as of April 2024 (link)
  38. Kugler, H. (1955). "Zum Problem der Dipterenblumen". Österreichische Botanische Zeitschrift (in German). 102 (4–5): 529–541. doi:10.1007/BF02135228.
  39. Proctor, M.; Yeo, P.; Lack, A. (1996). The natural history of pollination. Portland, Oregan, USA: Timber Press.
  40. Müller, H. (1873). Die Befruchtung der Blumen durch Insekten und die gegenseitigen Anpassungen beider. Leipzig, Germany.: W. Engelmann.
  41. Grigoriadou, K.; Krigas, Ν.; Sarropoulou, V.; Papanastasi, K.; Tsoktouridis, G.; Maloupa, E. (2019). "In-vitro propagation of medicinal and aromatic plants: the case of selected Greek species with conservation priority". Vitro Cellular & Developmental Biology. 55 (6): 635–646. doi:10.1007/s11627-019-10014-6.
  42. Christopoulou, C.; Graikou, K.; Chinou, I. (2008). "Chemosystematic value of chemical constituents from Scabiosa hymettia (Dipsacaceae)". Chemistry & Biodiversity. 5 (2): 318–323. doi:10.1002/cbdv.200890029. PMID   18293445.
  43. Barth, J.G. (2020). "Limestone and calcium in plants. Soin de la Terre" . Retrieved 11 May 2020.
  44. Papafotiou, M.; Kanellou, E.; Economou, G. (2017). "Integrated design and management of vegetation at archaeological sites to protect monuments and enhance the historical landscape". Acta Horticulturae. 1189 (1189): 1–10. doi:10.17660/ActaHortic.2017.1189.1.
  45. Cristaudo, A.; Catara, S.; Impelluso, C. (2015). "Conservation of native germplasm of the Mediterranean Region: ecological characterization of Sicilian flora species for sustainable use.". In Mariotti, M.; Magrini, S. (eds.). Conservation of threatened species: activities and collaborations within the network. RIBES Series 1. RIBES (Rete Italiana delle Banche per la conservazione Ex-Situ del germoplasma). pp. 53–56. ISBN   978-88-940844-0-5.
  46. Vlachou, G.; Papafotiou, M.; Akoumianaki, A.; Bertsouklis, K.F. (2019). "Propagation of Scabiosa hymettia (Boiss. & Spruner) by stem cuttings". Acta Horticulturae. 1242 (1242): 763–766. doi:10.17660/ActaHortic.2019.1242.113.
  47. Panayotova, L.G.; Ivanova, T.A.; Bogdanova, Y.Y.; Gussev, C.V.; Stanilova, M.I.; Bosseva, Y.Z.; Stoeva, T.D. (2008). "In-vitro cultivation of plant species from sandy dunes along the Bulgarian Black Sea Coast". Phytologia Balcanica. 14 (1): 119–123.

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