Parfum d'Ethiopia Artemisia
Artemisia 'Parfum d'Ethiopia'
Parfum d'Ethiopia Artemisia foliage
(Photo courtesy of NetPS Plant Finder)
Height: 18 inches
Spread: 3 feet
Hardiness Zone: 1
Other Names: Wormwood, Sage, Mugwort
Beautiful silvery foliage, fuzzy and soft like lamb's ears; this vigorous and nearly industructible plant spreads wide and grows tall
Parfum d'Ethiopia Artemisia's attractive tomentose narrow leaves remain silver in color throughout the season. Neither the flowers nor the fruit are ornamentally significant.
Parfum d'Ethiopia Artemisia is an herbaceous perennial with an upright spreading habit of growth. Its relatively fine texture sets it apart from other garden plants with less refined foliage.
This plant will require occasional maintenance and upkeep, and is best cleaned up in early spring before it resumes active growth for the season. Deer don't particularly care for this plant and will usually leave it alone in favor of tastier treats. Gardeners should be aware of the following characteristic(s) that may warrant special consideration;
Parfum d'Ethiopia Artemisia is recommended for the following landscape applications;
Planting & Growing
Parfum d'Ethiopia Artemisia will grow to be about 18 inches tall at maturity, with a spread of 3 feet. Its foliage tends to remain dense right to the ground, not requiring facer plants in front. It grows at a fast rate, and under ideal conditions can be expected to live for approximately 10 years.
This plant should only be grown in full sunlight. It prefers dry to average moisture levels with very well-drained soil, and will often die in standing water. It is particular about its soil conditions, with a strong preference for clay, alkaline soils, and is able to handle environmental salt. It is highly tolerant of urban pollution and will even thrive in inner city environments. This particular variety is an interspecific hybrid. It can be propagated by division; however, as a cultivated variety, be aware that it may be subject to certain restrictions or prohibitions on propagation.