Marmalade Daylily flowers
(Photo courtesy of NetPS Plant Finder)
Height: 20 inches
Spacing: 16 inches
Hardiness Zone: 4a
Orange-salmon ruffled trumpets with a bright yellow throat; provides a graceful addition to the garden; sturdy, strong, easy to care for, great grassy texture and form; a stunning display when massed in the garden
Marmalade Daylily features bold fragrant orange trumpet-shaped flowers with yellow throats and salmon streaks at the ends of the stems from early to mid summer. The flowers are excellent for cutting. Its grassy leaves remain green in color throughout the season. The fruit is not ornamentally significant.
Marmalade Daylily is an herbaceous perennial with a shapely form and gracefully arching foliage. Its medium texture blends into the garden, but can always be balanced by a couple of finer or coarser plants for an effective composition.
This is a relatively low maintenance plant, and is best cleaned up in early spring before it resumes active growth for the season. It is a good choice for attracting butterflies to your yard. It has no significant negative characteristics.
Marmalade Daylily is recommended for the following landscape applications;
- Mass Planting
- General Garden Use
Planting & Growing
Marmalade Daylily will grow to be about 16 inches tall at maturity, with a spread of 20 inches. When grown in masses or used as a bedding plant, individual plants should be spaced approximately 16 inches apart. It grows at a medium rate, and under ideal conditions can be expected to live for approximately 10 years.
This plant does best in full sun to partial shade. It is very adaptable to both dry and moist locations, and should do just fine under typical garden conditions. It is not particular as to soil type or pH. 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.