Patent Grant
PP30724
Latin name of the genus and species of the plant claimed: ‘Tift H18’ is a vegetatively propagated ornamental perennial Pennisetum cultivar of the genus and species Pennisetum alopecuroides.
Variety denomination: The new Pennisetum alopecuroides claimed is of the cultivar denominated ‘Tift H18’.
The present invention relates to a new and distinct cultivar of Pennisetum alopecuroides herein referred to as ‘Tift H18’.
The new Pennisetum alopecuroides is a product of a planned research, evaluation, and testing program conducted by the Inventors in Tifton, Ga. The objective of the Pennisetum alopecuroides research program is to create a new plant cultivar with reduced seed production. This cultivar is commercially important for its superior ornamental value and low seed production. These and other qualities are enumerated herein.
Pedigree and history: Pennisetum alopecuroides accessions and cultivars are known to produce abundant seed. Seed production in commercial ornamental cultivars of Pennisetum alopecuroides tends to make this genus/species invasive, an undesirable trait in landscapes. In the summer of 2008, we harvested open-pollinated seed from vegetatively propagated plants of Pennisetum alopecuroides var. Hameln growing in the field at Tifton, Ga. We established plants from the 2008 open-pollinated seed in a greenhouse in spring 2009 and transplanted 400 of these plants to a field in May 2009. Fifty of these 400 plants with the best morphological characteristics were selected and open-pollinated seed was harvested in 2010 from these fifty plants. In 2010, we irradiated half of the harvested open-pollinated seed with 10 Kr and the other half of these seeds with 15 Kr Cobalt 60 gamma radiation. These irradiated seeds were planted in a field in 2010 to produce 323 plants; 169 plants from the 10 Kr treated seed and 154 plants from the 15 Kr treated seed. Eleven plants out of these 323 plants with one or no seed per inflorescence were selected. Irradiation of seeds usually results in chimeras or sectors on the plants for the trait of interest. Therefore, each of these 11 selected plants was divided into four quadrants or sectors (a, b, c, and d) and five or more inflorescences from each quadrant of each plant were examined for seed sterility.
We determined that six (numbered 1 through 6) of these selected eleven plants had desirable ornamental and morphological characteristics. These six plants were asexually propagated by stem propagules from the a, b, c, and d quadrants on the plants and transplanted to the field in 2011. As many propagules as possible were obtained from each quadrant. Inflorescences from plants from six propagules from quadrant b of plant 4 of plants 1-6 (plant 4 being a plant from one of the 15 Kr treated seed) set various amounts of seed, but a plant from one propagule (field entry 133) produced no seed and became ‘Tift H18’. ‘Tift H18’ has been tested at Tifton, Ga. in 2012, 2014, and 2015 and at Blairsville, Ga. in 2013 and 2015. Tests consisted of five and four single plant replications arranged in a randomized complete block experiment at Tifton, Ga. and Blairsville, Ga., respectively. Seven other experimental entries were included in each test. ‘Tift PA24’ was selected as a seed fertile check with desirable ornamental characteristics from Tift PS1122. ‘Tift PA24’ also produced abundant pollen for pollinating the experimental seed sterile cultivars in the replicated tests to make sure that the experimental sterile cultivars would not set seed when pollinated with pollen from another genotype. We selected ‘Tift PA24’ as the seed fertile check
Asexual reproduction of the new Pennisetum ‘Tift H18’ by vegetative propagation (single stem propagules) in a controlled environment in Tifton, Ga. and Blairsville, Ga. from 2012 through 2015, has shown that the unique features of this new Pennisetum cultivar are stable and reproduced true to type in successive generations.
The following traits have been repeatedly observed and represent the characteristics of a new P. alopecuroides cultivar ‘Tift H18’. The new cultivar ‘Tift H18’ has not been observed under all possible environmental conditions. The phenotype may vary somewhat with variations in, for example, temperature, day-length, light intensity, soil types, and water and fertility levels without, however, any variance in genotype.
Throughout this specification, color names beginning with a small letter signify that the name of that color, as used in common speech, is aptly descriptive. Color names beginning with a capital letter designate values based upon The R.H.S. Colour Chart (5th Edition, 2007), published by The Royal Horticultural Society, London, England.
The following traits have been repeatedly observed for the new P. alopecuroides cultivar ‘Tift H18’ in Tifton, Ga. and Blairsville, Ga. and can be compared to P. alopecuroides, ‘Tift PA24’ (a seed and pollen fertile genotype with desirable ornamental characteristics):
1. ‘Tift H18’ is highly seed sterile.
The new cultivar Pennisetum ‘Tift H18’ can be compared to Pennisetum alopecuroides, ‘Tift PA24’, a seed fertile and desirable ornamental selection:
Plants of the new Pennisetum ‘Tift H18’ are compared to ‘Tift PA24’ in the following characteristics:
The following observations, measurements, and values describe plants grown in Tifton, Ga. and Blairsville, Ga. In Tables 1-7, the least significant difference (LSD) is set at P≤0.05 probability level. Growth days were included in ratings. Plants were spaced 1 meter apart down the row and rows were 2 meters apart. Plants were established as single stem propagules in mid-April to mid-May and rated in September through October. Data was taken from plants during year of establishment at Tifton, Ga. and Blairsville, Ga. except 2015 data from Blairsville was taken on plants established in 2014.
‘Tift H18’ plants were narrower in canopy diameter and significantly shorter than ‘Tift PA24’ in height of inflorescences and in height of leaves, and canopy diameter. Except for one year in Tifton, Ga., ‘Tift H18’ had significantly fewer inflorescences that ‘Tift PA24’ (Table 4); and shorter inflorescences than ‘Tift PA24’ in Tifton, Ga. (Table 5). Leaf length and width values were significantly less for ‘Tift H18’ compared to ‘Tift PA24’ (Table 6). ‘Tift H18’ is a finer textured and more petite plant than ‘Tift PA24’. These features are of major interest to commercial propagators.
Mature plant color of the adaxial leaf surface of ‘Tift H18’ was Green-139B according to the Royal Horticultural Society color index (5th Edition, 2007), whereas inflorescence colors were Greyed Orange-165C for ‘Tift H18’.
Seed set in ‘Tift H18’ is significantly reduced.
Plant heights were measured from ground level to top of inflorescence. The Tifton tests were planted 18 Apr. 2012, 2 Jun. 2014, and 12 May 2015 and measurements were taken 15 Oct. 2012, 9 Sep. 2014, and 21 Aug. 2015, respectively. The Blairsville tests were planted 16 May 2013, and 15 May 2014, and measurements were taken 9 Sep. 2013 and 24 Sep. 2015 (data taken on 2014 plants), respectively. The least significant difference at the P≤0.05 probability level. Measurements are in centimeters.
alopecuroides grasses (‘Tift PA24’ is the seed and pollen
The height of leaves were measured from ground level to top of leaf canopy. The tests at Tifton were planted 18 Apr. 2012, 13 Apr. 2013, 2 Jun. 2014, and 12 May 2015 and measurements taken 5 Oct. 2012, 30 Sep. 2013, 9 Sep. 2014, and 21 Aug. 2015, respectively. The Blairsville tests were 16 May 2013, and 15 May 2014, and measurements were taken 9 Sep. 2013 and 24 Sep. 2015 (data taken on 2014 plants), respectively. The least significant difference at the P≤0.05 probability level. Measurements are in centimeters.
The canopy diameter is the average diameter of the widest and the narrowest diameter of a single plant canopy. The tests at Tifton were planted 18 Apr. 2012 and 12 May 2015 and measurements taken 8 Oct. 2012, and 21 Aug. 2015, respectively. The test at Blairsville were planted 15 May 2014 and measurements taken 24 Sep. 2015(data taken on 2014 plants). The least significant difference was set at the P≤0.05 probability level.
alopecuroides grasses (‘Tift PA24’ is the seed and pollen fertile
Total number of inflorescences were counted per plant. The tests at Tifton were planted 18 Apr. 2012, 13 Apr. 2013, 2 Jun. 2014, and 12 May 2015 and measurements were taken on 15 Oct. 2012, 30 Sep. 2013, 9 Sep. 2014, and 21 Aug. 2015, respectively. The test at Blairsville were planted 15 May 2014, and measurements were taken 0 24 Sep. 2015 (data taken on 2014 plants), respectively. The least significant difference was set at the P≤0.05 probability level.
Inflorescence length was the mean of three inflorescences per plant. The tests at Tifton were planted 18 Apr. 2012 and 12 May 2015 and measurements taken 15 Oct. 2012 and 21 Aug. 2015, respectively. The tests at Blairsville were planted 14 Apr. 2012, 16 May 2013, and 15 May 2014, and measurements taken 9 Sep. 2012, 9 Sep. 2013, 22 Sep. 2014 and 24 Sep. 2015 (data taken on 2014 plants), respectively. The least significant difference at the P≤0.05 probability level.
Leaf length (average from three culms) was measured from the leaf collar to the leaf tip of the latest fully extended leaf. Leaf width (average of three culms) was measured in the center of the latest fully extended leaf. The tests at Tifton were planted 18 Apr. 2012 and 12 May 2015 and measurements taken 15 Oct. 2012, and 21 Aug. 2015, respectively. The tests at Blairsville were planted 15 May 2014 and measurements taken 24 Sep. 2015 (data taken on 2014 plants), respectively. The least significant difference was set at the P≤0.05 probability level.
Pennisetum alopecuroides grasses (‘Tift PA24’ is the seed and pollen
Seeds per inflorescence was the mean of four random inflorescences per each replication. Seed germination tests consisted of 25 seeds from four and three different plants (replications) harvested in October 2014 at Tifton and Blairsville, respectively. Germination tests were conducted in April of 2015 to allow seeds to go through a dormancy period and simulate field conditions. The Tifton tests were planted 13 Apr. 2013 and 12 May 2015 and measurements taken in October 2013 and 2015. The Blairsville test was planted 15 May 2014, and measurements taken 24 Sep. 2015 (data taken on 2014 plants), respectively. The least significant differences were set at the P≤0.05 probability level.
Pennisetum alopecuroides cultivars
The accompanying colored photographs illustrate the overall appearance and distinct characteristics of the new cultivar of Pennisetum ‘Tift H18’. The colors in the photographs are as close as possible with the photographic and printing technology utilized.
Certain characteristics of this variety, such as growth and color, may change with changing environmental conditions (e.g., light, temperature, moisture, nutrient availability, or other factors). Color descriptions and other terminology are used in accordance with their ordinary dictionary descriptions, unless the context clearly indicates otherwise. Color designations are made with reference to the Royal Horticultural Society (RHS) Colour Chart (5th edition, 2007).
The new cultivar ‘Tift H18’ is a vigorous perennial at Blairsville, Ga. (USDA Zone 7a). The new cultivar ‘Tift H18’ survived 90, 95, and 101 days below 0° C. and low temperatures of −9, −29, and −17° C. for the winters of 2012/2013, 2013/2014, and 2014/2015, respectively at Blairsville, Ga. in a landscape setting where no herbicides were used.
All data are from plants established as single stem propagules in mid-April to mid-May and rated in September through October, except 2015 data from Blairsville, Ga. was collected from plants established in 2014.
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| Restricted Testing Agreement for ‘Tift H18’ (identified as “Pennisetum alopecuroides H-18” in this Restricted Testing Agreement); effective Feb. 22, 2012; redacted to eliminate: (a) the identity of the recipient of ‘Tift H18’ plant material under this Restricted Testing Agreement; and (b) non ‘Tift H18’ varieties; 4 pages. |
