Resources Contact Us Home
Hosta plant named `Silk Road`
PP19835 Hosta plant named `Silk Road`
Patent Drawings:Drawing: PP19835-3    
« 1 »

(1 images)

Inventor: Hansen
Date Issued: March 17, 2009
Application: 12/070,018
Filed: February 14, 2008
Inventors: Hansen; Hans Andrew (Waseca, MN)
Assignee: Shady Oaks Nursery LLC (Waseca, MN)
Primary Examiner: Para; Annette H
Assistant Examiner: McCormick Ewoldt; S. B.
Attorney Or Agent: Aguirre; Penny J.
U.S. Class: PLT/353
Field Of Search: PLT/353
International Class: A01H 5/00
U.S Patent Documents:
Foreign Patent Documents:
Other References:

Abstract: A new cultivar of Hosta named `Silk Road`, a chimeral mutation of Hosta `Silk Kimono`, characterized by its unique variegated foliage with deep green centers and wide creamy yellow to creamy white margins comprising about one half of the leaf area. `Silk Road` has an upright plant habit of large broadly ovate leaves held horizontally on erect petioles and blooms with pale lavender flowers held on erect flower scapes in mid summer.
Claim: It is claimed:

1. A new and distinct cultivar of Hosta plant named `Silk road` as herein illustrated and described.
Description: Botanicalclassification: Hosta hybrida.

Cultivar designation: `Silk Road`.


The present invention, Hosta `Silk Road`, relates to a new and distinct cultivar of Hosta, botanically known as a Hosta hybrida, hereinafter referred to as `Silk Road`.

The inventor discovered the new cultivar, `Silk Road`, in summer of 2004 in his garden in Waseca, Minn. `Silk Road` originated as a naturally occurring chimeral mutation of Hosta `Silk Kimono` (not patented).

Asexual reproduction of the new cultivar was first accomplished by the inventor utilizing in vitro propagation in Waseca, Minn. fall of 2006. Asexual reproduction of the new cultivar by division and tissue culture has shown that the uniquefeatures of `Silk Road` are stable and reproduced true to type in successive generations.


The following traits have been repeatedly observed in trials in Minnesota for a period of three years and represent the characteristics of the new cultivar. These attributes in combination distinguish `Silk Road` as a new and unique cultivar ofHosta. 1. The foliage of `Silk Road` is variegated with deep green centers and wide creamy yellow to creamy white margins. The margin width ranging from 2 to 6 cm with the leaf margin comprising about one half of the leaf area. 2. `Silk Road` haslarge broad leaves with an upright vase-shaped plant habit. 3. `Silk Road` reaches a height of about 33 cm in height (excluding flower scapes) and about 81 cm in width. 4. `Silk Road` blooms in mid summer with pale lavender flowers held above foliageon erect flower scapes.

In comparison to the parent plant, `Silk Kimono`, `Silk Road` has leaf margins that are 2 to 3 times wider than `Silk Kimono` and `Silk Road` has an upright plant habit, whereas `Silk Kimono` has a more mounded plant habit. `Silk Road` can alsobe compared to `Robert Frost` (not patented), `Robert Frost` has leaves that are similar in size and variegation pattern and exhibits a similar plant habit, however the leaves `Robert Frost` are blue-green in color and the margins are not as wide asthose of `Silk Road`.


The accompanying colored photograph illustrates the distinct foliage characteristics of the new Hosta. The photograph was taken in July of a three year-old plant of `Silk Road` as grown outdoors in Waseca, Minn. The colors in the photograph areas close as possible with the photographic and printing technology utilized the color values cited in the detailed botanical description most accurately describe the colors of the new Hosta.


The following is a detailed description of three year-old plants of the new cultivar as grown outdoors in Waseca, Minn. The phenotype of the new cultivar may vary with variations in environmental, climatic, and cultural conditions, as it has notbeen tested under all possible environmental conditions. The color determination is in accordance with the 2001 R.H.S. Colour Chart of The Royal Horticultural Society, London, England, except where general color terms of ordinary dictionarysignificance are used. General Description: Blooming period.--About 3 weeks from mid July to early August. Plant habit.--Herbaceous perennial, clump-forming, upright habit. Height and spread.--Reaches about 33 cm in height (excluding flower scapes)and about 81 cm in width. Hardiness.--U.S.D.A. Zones 3 to 8. Culture.--Light to full shade, moist soils of moderate fertility. Diseases and pests.--No susceptibility or resistance to diseases or other pests has been observed. Rootdescription.--Freely branched, fleshy. Propagation.--In vitro propagation is the preferred method utilizing typical methods for Hosta, division are also possible. Root development.--Rooted transplants from tissue culture fully develop in a 96-cellliner in about 6 to 8 weeks in a greenhouse with average temperatures of about F. Growth rate.--Moderately vigorous. Foliage description: Leaf shape.--Broadly ovate. Leaf division.--Simple. Leaf base.--Broadly cuneate to truncate. Leafapex.--Acuminate. Leaf venation.--10 to 11 pairs of veins, camptodrome pattern, impressed on upper surface and raised on lower surface, color matches leaf coloration. Leaf margins.--Entire, wavy. Leaf attachment.--Petiolate. Leaf arrangement.--Basal,radiate spirally from base. Leaf surface.--Glabrous on upper surface, slightly glaucous on lower surface. Leaf substance.--Average. Leaf orientation.--Held nearly horizontal on upright petioles. Leaf color.--Spring foliage upper surface; centers137A, margins 10D, intermediate area between the margins and centers 191B and small amounts of 144B and 144C, spring foliage lower surface; centers 191A, margins 8D, intermediate area between the margins and centers 191C and small amounts of 139D, 189Cand 145B, summer foliage upper surface; centers 137A with intermediate areas of 189B and 144A and margins 11C to 11D, summer foliage lower surface; 189A with intermediate areas 189B and small amount of 144A and margins 11C to 11D. Leaf variegationpattern.--Margins range from 2 to 6 cm in width, comprising about one half of the leaf area, center area has a primary area that is elliptic in shape with basal markings radiating out from the base on either side of the middle pattern. Leaf size.--About25 cm in length, about 19 cm in width. Leaf quantity.--About 5 per shoot (eye). Petiole size.--About 30.5 cm in length, about 1.5 cm in width. Petiole color.--Spring foliage; inner surface 144A with stripes of 144B and a thin margin of 144D, outersurface 144D with wide margins of 139A and a thin margin of 144C, summer foliage; inner surface 137A blending in center with 144A and a thin margin of 11D, outer surface 144D blending with 144A and 137A near margin with margin 11D, surface is glabrous. Petiole surface.--Glabrous. Petiole shape.--Sulcate. Flower Scape Description: Scape shape.--Round, solid. Scape number.--One per mature eye under normal growing conditions. Scape posture.--Straight, erect. Scape size.--Average of 89 cm in length,average of 6 mm in width. Scape color.--144B. Scape surface.--Slightly glaucous. Leafy bracts.--None observed. Flower Description: Inflorescence type.--Terminal racemes of single bell-shaped flowers on elongated scapes. Lastingness ofinflorescence.--About 3 weeks from first opening bloom to fading of last opening bloom, individual blooms last about one day. Flower shape.--Bell-shaped. Flower number.--Average of 34. Flower internode length.--Average of 5 mm, longer on basal regionto tightly congested at terminal. Flower fragrance.--None. Flower buds.--Spathulate in shape, average of 4.3 cm in length and 1.5 cm in diameter, surface is glabrous and somewhat waxy, color at maturity N155D suffused with 85B to 85D. Flowersize.--About 7 cm in length and about 1.8 cm in diameter. Flower color.--Emerges and matures to N155D suffused with 85C to 85D with tube region N155D. Pedicels.--About 6 mm in length, 2 mm in diameter, 145C to 145D in color, glabrous texture. Perianthfeatures.--Comprised of 6 tepals, 3 interior and 3 exterior, overlapping and fused from the middle of the expanded region to base of tube. Tepals.--Oblanceolate in shape, about 5 cm in length, about 1.2 cm in width, color of outer and inner surfacesN155D suffused with 85C to 85D with tube region N155D and thin stripes on inner surface of 85C, glabrous surfaces, entire margins, fused base, acute apex. Floral bracts.--One per flower, broadly lanceolate in shape, average of 2.5 cm in length and 1 cmin width, color of upper and lower surface 144A with base and thin margin 144D, entire margin, truncate base (sessile to scape), glabrous surface. Reproductive Organs: Gynoecium.--1 Pistil, style is about 6 cm in length, 1 mm in width, extending abut1.5 cm beyond perianth, and 155A in color, stigma is pillose, 1 mm in diameter and length and 155A in color, ovary is superior, about 7 mm in length and 3 mm in width, compound, composed of 3 locules, 145C in color. Androecium.--6 stamens, filament is155A in color, about 5.2 cm in length, 1 mm in width, length is equal to perianth length, anthers are 5 mm in length, 1.5 mm in width, attachment is versatile, 202A in color, dehiscence is longitudinal, pollen is abundant and 15B in color. Fruit andseed.--No seed pod were formed when grown under garden conditions where normal seed set was observed for other Hosta hybrids.

* * * * *
  Recently Added Patents
Methods and apparatus for performing multiple photoresist layer development and etching processes
Wireless communications apparatus and wireless communications method
Predicting performance of an integrated circuit
Virtual appliance update method
Electric washing machine
Sensor system
Rules-based approach to transferring and/or viewing medical images
  Randomly Featured Patents
Sulky for self propelled lawn mower
Manufacture of synthetic quartz glass ingot and synthetic quartz glass member
Novel tricosapeptides, intermediates therefor and pharmaceutical compositions and methods employing said tricosapeptides
Liquid discharging method, liquid discharging head, and head cartridge and liquid discharging apparatus using said liquid discharging head
Method for forming a fuel tank assembly
Supporting grid system having interchangeable T sections
Method and system for optimizing source code
Flexible and programmable BIST engine for on-chip memory array testing and characterization
Belleville spring
Surgical access apparatus and method