Epilobium parviflorum


Epilobium parviflorum, commonly known as the hoary willowherb or smallflower hairy willowherb, is a herbaceous perennial plant of the family Onagraceae.

Etymology

The genus name derives from the Greek words "epi" meaning "upon" and "lobos" meaning "lobe", with reference to position of the petals above the ovary. The specific Latin name of "parviflorum" means "small flowers".

Description

The biological form of Epilobium parviflorum is hemicryptophyte scapose, as its overwintering buds are situated just below the soil surface and the floral axis is more or less erect with a few leaves.
Epilobium parviflorum reaches on average in height. The stem is erect and densely covered with hairs, especially in the lower part. The leaves are opposite, unstalked but not amplexicaul, lanceolate and toothed, rounded at the base, long. The tiny flowers are pale pink or pale purple, in diameter, with four petals, eight stamens and a 4-lobed stigma. Flowering occurs from June to August. The hermaphroditic flowers are either self-fertilized or pollinated by insects. Fruit is a three-to seven-centimeter long capsule containing very small black seeds, with white fibres that allow the dispersal by wind. This species is quite similar to Epilobium hirsutum, but the flowers are much smaller.

Distribution

This plant occurs in most of Europe, including Britain, from Sweden to Northern Africa and Western Asia up to Kashmir, in United States and Canada.

Habitat

It prefers marshes and swamps, moist mountain meadows and slopes, at an average altitude of above sea level, with a maximum of.

Medicinal uses

Extracts of this plant have been used by traditional medicine in disorders of the prostate gland, bladder and kidney, having an antioxidant and antiinflammatory effect. Epilobium parviflorum herb has been prescribed internally as tea in the traditional Austrian medicine for treatment of disorders of the prostate, kidneys, and urinary tract. Extracts of Epilobium have been shown to inhibit proliferation of human prostate cells in-vitro by affecting progression of the cell cycle.