Verbascum blattaria
Encyclopedia
Verbascum blattaria, or moth mullein, is a species of flowering biennial
Biennial plant
A biennial plant is a flowering plant that takes two years to complete its biological lifecycle. In the first year the plant grows leaves, stems, and roots , then it enters a period of dormancy over the colder months. Usually the stem remains very short and the leaves are low to the ground, forming...

 weed belonging to the Scrophulariacea (Figwort) family. An invasive species
Invasive species
"Invasive species", or invasive exotics, is a nomenclature term and categorization phrase used for flora and fauna, and for specific restoration-preservation processes in native habitats, with several definitions....

 native to Eurasia and North Africa, it has naturalized
Naturalisation (biology)
In biology, naturalisation is any process by which a non-native organism spreads into the wild and its reproduction is sufficient to maintain its population. Such populations are said to be naturalised....

 in the United States and most of Canada since its introduction. It has been declared a noxious weed by the state of Colorado.

Alternative Names

Verbascum blattaria is more commonly referred to as the “moth mullein”. It is so named because of the resemblance of its flowers' stamen
Stamen
The stamen is the pollen producing reproductive organ of a flower...

 to that of a moth’s antennae. This is not to be confused with the more popular and widely known “common mullein” (Verbascum thapsus), a close relative of V. blattari.

Description

The moth mullein is a biennial plant. In its first year of growth, the leaves of the mullein develop as a basal rosette
Rosette (botany)
In botany, a rosette is a circular arrangement of leaves, with all the leaves at a single height.Though rosettes usually sit near the soil, their structure is an example of a modified stem.-Function:...

. During this first year, the stem of the plant remains extremely short. The leaves of the rosette are oblanceolate with deeply-toothed edges and are attached to the stem by short petioles. The rosette can grow to a diameter of sixteen inches during this first year, with each individual leaf reaching a length of up to eight inches. The mullein forms a fibrous root system with a deep taproot.

In the second year of growth, the stem of the mullein grows slender and erect, and can reach a height of 2 to 5 feet. This length of stem is commonly referred to as the flowering stem. It usually grows unbranched, and leaves grow alternatively directly off the stem. The leaves located on the flowering stem are similar to the leaves of the rosette: however they tend to be smaller and elliptic-shaped with shallow-toothed edges and have sharply-pointed tips. Theses leaves can reach a length of five inches. Both the leaves of the rosette and the leaves of the flowering stem are dark green in color and glabrous (hairless).

The flowers of the moth mullein are produced during the second year of growth, and are found in loose clusters near the top of the flowering stem. Each flower is attached individually to the flowering stem by a pedicel
Pedicel (botany)
A pedicel is a stem that attaches single flowers to the main stem of the inflorescence. It is the branches or stalks that hold each flower in an inflorescence that contains more than one flower....

. Each pedicel typically reaches a length of less than one inch. The flowers of the mullein consist of five petals and five anther-bearing stamens, and each flower can reach a diameter of one inch. The flowers can be either yellow or white and typically have a slight purple tinge. The stamens of the flower are orange in color and are covered in purple hairs, reminiscent to a moth’s antennae. The flowers of the mullein bloom between June and October of the second year.

The moth mullein grows a small, simple fruit that is spherical in shape and has a diameter of less than a half-inch. Each fruit is dark brown in color and contains numerous dark brown seeds. The fruit capsule splits in two and falls to the ground when mature. Each plant produces over 1,000 fruit capsules. The fruit of the mullein develops, matures, and falls from the plant all in the second year of growth. In certain regions of the world, finches have been known to consume and distribute the seeds.

Distribution

A native of Europe, Asia, and North Africa, the moth mullein has naturalized in most of North America since its introduction. It was first recorded in Pennsylvania in 1818, and was recorded in Michigan in 1840. It has since been found in almost every one of the continental United States, as well as in southern Canada and even Hawaii. In the United States, it’s found most abundantly along the east coast.
Though having a wide range of habitats, the mullein is typically found in open fields like pastures and meadows. It can also found in open woods. The moth mullein prefers rich soils and is tolerant of dry, sandy, and even gravelly soils.

Uses and Viability

Even in folk medicine, V. blattaria has not been attributed to a wide range of uses. However, a study conducted in 1974 reported that when a number of Aedes aegypti
Aedes aegypti
The yellow fever mosquito, Aedes aegypti is a mosquito that can spread the dengue fever, Chikungunya and yellow fever viruses, and other diseases. The mosquito can be recognized by white markings on legs and a marking in the form of a lyre on the thorax...

mosquito larvae were exposed to a methanol extract of moth mullein, at least 53% of the larvae were killed. V. blattaria has also long been known to be an effective cockroach repellent, and the name blattaria is actually derived from the Latin word for cockroach, “blatta”.

In a famous study constituting the longest known ongoing scientific experiment, Dr. William James Beal, then a professor of botany at Michigan Agriculture College, selected seeds of 21 different plant species (including Verbascum blattaria) and placed seeds of each in twenty separate bottles filled with sand. The bottles, left uncorked, were buried mouth down (so as not to allow moisture to reach the seeds) in a sandy knoll in 1879. The purpose of this experiment was to determine how long the seeds could be buried dormant in the soil, and yet germinate in the future when planted. In the year 2000, one of these bottles was dug up, and 23 seeds of V. blattaria were planted in favorable conditions, yielding a 50% germination rate. This represents the longest known length of time in which seeds of any plant were able to germinate after such a long period of dormancy (120 years).

External links

The source of this article is wikipedia, the free encyclopedia.  The text of this article is licensed under the GFDL.
 
x
OK