Iris bungei
Iris bungei is a beardless iris in the genus Iris, in the subgenus Limniris and in the series Tenuifoliae of the genus. It is a rhizomatous herbaceous perennial, from Mongolia, Tibet and China. It has green leaves, short stem and 2 violet, purple, lavender or blue flowers.
Description
Iris bungei is intermediate in form between Iris tenuifolia and Iris ventricosa.It has knobbly, woody, rhizomes. That can spread to create dense clumps of plants. It has red-brown or maroon-brown fibres or sheaths, that can be long, which are the remains of the previous seasons leaves.
It has linear, green leaves, long and wide. They have 4–7 veins on the leaves.
It has a short, long flowering stem.
In some years, the flowers are barely above the soil.
It has one or two terminal flower, between April and May and between May and June.
It has 3 green, ovate between long and wide, large spathes. Hence, reason for the common names of 'Big bud Iris' or 'Big Bract Iris'. Compared to Iris ventricosa, it has parallel veins on the spathes, instead of being reticulate.
The flowers are in diameter, and come in shades between violet, purple, lavender and blue colours.
It has 2 pairs of petals, 3 large sepals, known as the 'falls' and 3 inner, smaller petals, measuring long and 1.5–1.2 cm wide. They have a small, thin yellow signal area and are marked with purple veins or marks.
The standards are erect, narrowly oblanceolate, long and 10–8 mm wide.
It has a 1.5 cm long pedicel, a filiform 6–7 cm long perinath tube, 3 cm long stamens and 4.5–4 cm long ovary. It has long style branches, that are the same colour as the petals.
After the iris has flowered, it produces a narrow, cylindric seed capsule, long and 2–1.5 cm wide in July and August. The capsule has 6 veins and a long beak-like appendage on the top.
Biochemistry
In May 2000, 2 new benzo-quinone derivatives, bungeiquinone and dihydrobungeiquinone, and two known derivatives, 3-hydroxyirisquinone and 3-hydroxydihydroirisquinone, were isolated from the rhizome of Iris bungei. The structures of the new compounds were established on the basis of spectroscopic methods.In 2001, several chemical compounds have been found in the rhizome of Iris bungei, irisflavones A-D, irilin D, irilins A-B and tlatancuayin.
In 2001, 5 new peltogynoids, irisoids A—E, have been isolated from the rhizome of Iris bungei.
In 2008, five species of Iris commonly used as ingredients in Mongolian traditional medicine were studied for the presence of phenolic acids.
In 2011, the seeds of Iris bungei were analysed and found to contain a new 'belamcandaquinone' chemical compound as well as others.
Genetics
As most irises are diploid, having two sets of chromosomes. This can be used to identify hybrids and classification of groupings.It has a chromosome count: 2n=14
Taxonomy
It is written as 大苞鸢尾 in Chinese script and known as da bao yuan wei in China.It is known as Bungyn tsaxildag in Mongolia. It is written as Ирис Бунге, in Russian alphabet.
It has the common name of Large-bract iris or Big Bud Iris in China, and Bunge Iris.
The Latin specific epithet bungei refers to the Baltic German botanist Alexander Bunge.
A specimen plant can be seen in the Royal Botanic Garden Edinburgh, collected from Mongolia australis on 1 July 1871 by N.M. Przewalkski.
It was first published and described by Karl Maximowicz in the 'Bulletin of the Academy Imperial Sciences Saint Petersburg Vol.26 page509 in 1880.
It was verified by United States Department of Agriculture Agricultural Research Service on 4 April 2003.
Distribution and habitat
Iris bungei is native to temperate areas of eastern Asia.Range
It is commonly found in Mongolia, within the Altai-Gobi and Altai Mountain Regions.It can also be found in eastern Siberia, Tibet, and China,.
Habitat
It can be found growing in sandy grasslands, in deserts and on dunes.Cultivation
Iris bungei is rare in cultivation in the UK, Europe and USA.Only grown by collectors and for scientific research.
It is hardy to USDA Zone 3, and needs mild and dry winters to survive.
It is best planted between September and October.
Specimen plants can be found growing in the Botanical Garden of the University of Halle.
Uses
It is used in traditional Chinese medicines.The root of Iris bungei is a source of 'Irilin A' and 'Irilin B' and 'Irilin D', which are all used as Supplements. Tetra-hydroxy-6-methoxyisoflavone can be found in Iris japonica or belamcanda chinensis.
In December 2005, plants of the ranges of Mongolia were studied for palatability by various farm animals. Iris bungei was not eaten by cattle and sheep, goat found the plant desirable, horses ate the plant and camels found the plant edible.