Iris potaninii explained

Iris potaninii is a species in the genus Iris; it is also in the subgenus of Iris and in the Psammiris section. It is a rhizomatous perennial, from Siberia in Russia, Mongolia and China. It is a dwarf plant, having either subterranean or very small stems, long thin leaves and yellow, or dark violet to purplish blue flowers. It is cultivated as an ornamental plant in temperate regions.

Description

Iris potaninii is similar in form to Iris tigridia (within Pseudoregalia section) and Iris bloudowii (another Psammiris section iris), but differs from bloudowii in having an ob-conical, not prostrate rhizome. It differs from tigridia by having old leaf fibres on the rhizome.[1] It also differs from Iris tigridia in leaf form, as Iris potaninii has rounded leaves that do not end in a point.[2]

It has thick, short and tough rhizomes.[3] [4] [5] Under the rhizomes are thick, fleshy and yellowish secondary roots.[3] [4] [5] On top of the rhizome are the curled, fibrous remains of last season's leaves.[2] [3] [4]

It has linear basal (growing from the base) leaves,[1] [3] [5] which are not pointed at the ends (or obtuse).[1] [2] [3] They can grow up to 4- long and 0.2–0.4 cm wide, at blooming time.[1] [2] [4] The leaves then lengthen,[1] [3] and by the time the iris has seed capsules, they are between 20cm (10inches) long and 0.3–0.4 cm wide.[3]

It is a dwarf plant,[2] having either subterranean,[1] [3] [4] or very small stems or pedicels.[2] They can reach up to between 5and long.[6] [7] [8]

The pedicel (or dwarf stem) has 2 narrow, lanceolate (or oblong-lanceolate,[5]) and (scarious) membranous spathes or bracts (leaves of the flower bud).[1] [3] [5] They are 4- long and 0.6 cm wide.[1] [3]

The stem (or pedicel) holds 1 terminal (top of stem) flower,[1] [3] between April and May (in Russia),[5] or May and June.[1] [3] [4]

The flowers are 3.5- in diameter, come in yellow,[1] [3] [6] or dark violet to purplish blue shades.[2] [7] [8]

It has 2 pairs of petals, 3 large sepals (outer petals), known as the 'falls' and 3 inner, smaller petals (or tepals), known as the 'standards'.[9] The falls are obovate (in shape),[3] with markings or veins around a central yellowish or whitish beard.[1] [3] [4] They are 3- long and 1.2–1.5 cm wide,[3] and have curled up edges.[1] [3] The erect standards are oblanceolate,[3] and are 2.5- long and 0.8–1.0 cm wide.[1] [3] They also have curled up edges.[1] [3] [5]

It has a 1.5- long perianth tube,[1] [3] which is thread-ilke.[5] It also has 1.5 cm long stamens, purple anthers and a 0.7 cm long (spindle-shaped) ovary.[1] [3] It has a 2.8 cm long and 6mm wide style branch, which has a flat crest and toothed edges.[1] [3]

After the iris has flowered, between June or July (in Russia),[5] or between July and September,[3] [4] it produces an ellipsoid seed capsule.[3] The capsule is 2.5- long and between 1.3 and 1.5 cm wide, and has 6 longitudinal ribs and a short beak appendage (at the top).[1] [3] [5] It dehisces (splits open) from the middle of the capsule.[1] Inside the capsule are seeds which are 3 mm (in diameter), flattened globular, or pyriform (pear shaped), wrinkled, and reddish brown in colour.[1] [3] [5]

Biochemistry

In 2002, a study was carried out on the rhizome of Iris potaninii. It found several chemical compounds, including 2 new isoflavones, 6, 3', 4'-trimethoxy-7 and 8, 5'-trihydroxyisoflavone.[10]

In 2008, a study was carried out on the anatomical structure of the leaf and drought resistance of 4 different species of Iris (Iris songarica, Iris potaninii, Iris loczyi and Iris lactea) from Qinghai, China. It showed that all the species were strongly adaptable to drought conditions.[11]

Genetics

In 2012, a genetic study was carried out on Iris laevigata and its from several closely related iris species, including Iris ensata, Iris setosa, Iris halophila, Iris scariosa, Iris potaninii, Iris tenuifolia, Iris bloudowii, and Iris sanguinea.[12]

As most irises are diploid, having two sets of chromosomes, this can be used to identify hybrids and classification of groupings.[9] It was counted in 1984 by Doronkin, as 2n=22.[7] It is normally published as 2n=22.[3] [4] [6]

Taxonomy

It has the common name of 'curl-sheath iris' (in China), or 'Potanin iris'.[7] [13] [14]

It is written as 卷鞘鸢尾 in Chinese script,[3] and known as juan qiào yuān wěi in Pinyin in China.[3] [14]

The Latin specific epithet potaninii refers to Grigory Potanin (a Russian ethnographer and natural historian).[2] [8] [15]

It was found in western Kansu (Gansu) in 1876.[2]

It was first published and described by Maxim. in 'Bull. Acad. Imp. Sci. Saint-Pétersbourg' Vol.26 page528 in 1880.[7] [16]

It was also published in 'Mélanges Biol. Bull. Phys.-Math. Acad. Imp. Sci. Saint-Pétersbourg' Vol.10 page724 in 1880.

In the 1980s, it was thought to be part of the 'Pseudoregelias section',[4] [7] but it is still within the Psammiris section, in most sources.[6] [8]

It was verified by United States Department of Agriculture and the Agricultural Research Service on 4 April 2003 and then updated on 10 April 2012.

Iris potaninii is an accepted name by the RHS.[17]

Distribution and habitat

Iris potaninii is native to temperate areas of Asia.

Range

It is found in the Russian Federation,[3] within Siberia,[5] [17] in the states of Aga Buryat, Buryatia, Chita (including Dahuria (or Transbaikal),[16]) and Gorno-Altai. It is also found in China,[1] [17] [2] in the provinces of Gansu, Qinghai, Sichuan and Xizang.[3] [4] It is also thought to be found in Mongolia,[3] [4] and Tibet.[1] [2] [4]

Habitat

It grows on the rocky, gravelly or stony slopes, on dry hillsides, of mountains.[3] [13] [4]

They can be found at an altitude of 3200- above sea level.[2] [4] [5]

Conservation

The iris is listed as 'rare', in Red Data Book of the Altai region. One colony of the iris is protected within Daursky Nature Reserve (in Chita Oblast, Russia).[13]

Cultivation

hardy, soil, sun, moisture, situation, pests, planting

It is hardy in Russia, surviving winter in St Petersburg without shelter.[13] It is hardy in a sheltered place, in the UK.[8]

It prefers to grow in sunny positions, in well-drained soils.[4] [5]

It has been tried in various botanical gardens within Russia, since 1992,[13] in Barnaul, Chita and St. Petersburg.[5] [13]

It could be grown within gardens, in a rock garden,[2] [5] or mixed borders.[13]

Uses

Iris potaninii has been used in traditional Mongolian herbal medicine, in the treatment of various diseases, including bacterial infections, cancers and inflammations.Also, some benzoquinones have been isolated from Iris species rhizomes, and used as anti-cancer agents in modern Chinese medicines.[10]

Sources

External links

Notes and References

  1. British Iris Society (1997)
  2. Web site: William . Dykes . William Rickatson Dykes . Handbook of Garden Irises . 2009 . beardlessiris.org (The Group for Beardless Irises) . 1 November 2014.
  3. Web site: FOC Vol. 24 Page 310 . efloras.org (Flora of China) . 11 May 2015.
  4. Web site: Chapter I (Part 8) Regelia . irisbotanique.over-blog.com . 2 May 2015 .
  5. Web site: Irises Psammiris . flower.onego.ru . 30 April 2015.
  6. Web site: Iris summary . 14 April 2014 . pacificbulbsociety.org . 23 November 2014.
  7. Web site: Alain . Franco . (SPEC) Iris potaninii Maxim. . 29 November 2013 . wiki.irises.org (American Iris Society). 11 May 2015.
  8. Book: Cassidy . George E.. Linnegar . Sidney . 1987 . Revised . Growing Irises . Bromley . Christopher Helm . 126 . 0-88192-089-4.
  9. Book: Austin, Claire . Irises; A Garden Encyclopedia . 2005 . Timber Press . 0881927309.
  10. Purev . O. . Purevsuren . C. . Narantuya . S. . Lkhagvasuren . S. . Mizukami . H. . Nagatsu . A. . October 2002 . New isoflavones and flavanol from Iris potaninii. . 12372864 . Chem Pharm Bull . 50 . 10 . 1367–1369 . 10.1248/cpb.50.1367. free .
  11. Wang . Jun . Gao . Yi-ke . May 2008 . Study on the Relationship between Leaf Anatomical Structure and Drought Resistance of Four Species of Iris . Heilongjiang Agricultural Sciences . Landscape Architecture College of Beijing Forestry University, Beijing . 22 January 2015.
  12. Sun . Ming-Zhou . Li . Ming-Rui . Shi . Feng-Xue . Li . Lin . Liu . Ying . Li . Lin-Feng . Xiao . Hong-Xing . July 2012 . Genomic and EST-derived microsatellite markers for Iris laevigata (Iridaceae) and other congeneric species . American Journal of Botany . 99 . 7 . 286–288 . 10.3732/ajb.1100608 . 22739712.
  13. Web site: The exhibition "Iris Russia" . flower-iris.ru . 12 May 2015.
  14. Jiaju Zhou, Guirong Xie and Xinjian Yan
  15. Book: Smith . A.W. . Stearn . William T. . 1972 . Revised . 1963 . A Gardener's Dictionary of Plant Names . Cassell and Company . 261 . 0304937215.
  16. Web site: Iridaceae Iris potaninii Maxim. . ipni.org (International Plant Names Index) . 29 April 2015.
  17. Web site: Iris potaninii . www.rhs.org.uk. 2 May 2015.