DOCSLIB.ORG

(12) United States Plant Patent (10) Patent No.: US PP18,992 P2 Jepsen (45) Date of Patent: Jul

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
(12) United States Plant Patent (10) Patent No.: US PP18,992 P2 Jepsen (45) Date of Patent: Jul USOOPP18992P2 (12) United States Plant Patent (10) Patent No.: US PP18,992 P2 Jepsen (45) Date of Patent: Jul. 1, 2008 (54) KALANCHOE PLANT NAMED “KELLY (52) U.S. Cl. ........................................................ Pt/335 (58) Field of Classification Search .................... Pt/335 (50) Latin Name: Kalanchoe blossfeldiana See application file for complete search history. Varietal Denomination: Kelly Primary Examiner Anne Marie Grunberg (75) Inventor: Knud Jepsen, Hinnerup (DK) Assistant Examiner—Louanne Krawczewicz, Myers (73) Assignee: Knup Jepsen A/S. Hinnerup (DK) (74) Attorney, Agent, or Firm—C. A. Whealy (*) Notice: Subject to any disclaimer, the term of this (57) ABSTRACT patent is extended or adjusted under 35 A new and distinct cultivar of Kalanchoe plant named U.S.C. 154(b) by 0 days. Kelly, characterized by its upright, uniform and moder ately vigorous growth habit; dark green-colored leaves; (21) Appl. No.: 11/633,108 uniform, freely and early flowering habit; large double dark 1-1. orange and light orange bi-colored flowers; and excellent (22) Filed: Dec. 1, 2006 postproduction longevity. (51) Int. Cl. AOIH 5/00 (2006.01) 1 Drawing Sheet 1. 2 Botanical designation: Kalanchoe blossfeldiana. 2. Dark green-colored leaves. Cultivar denomination: Kelly. 3. Uniform, freely and early flowering habit. 4. Large double dark orange and light orange bi-colored BACKGROUND OF THE INVENTION flowers. The present invention relates to a new and distinct cultivar 5 5. Excellent postproduction longevity. of Kalanch Oe, botanically known as Kalanch Oe Plants of the new Kalanchoe can be compared to plants of blossfeldiana, and hereinafter referred to by the name the parent selection. Plants of the new Kalanchoe differ from Kelly. plants of the parent selection in the following characteristics: The new Kalanchoe is a product of a planned breeding 10 1. Plants of the new Kalanchoe are more compact than program conducted by the Inventor in Hinnerup, Denmark. plants of the parent selection. The objective of the breeding program is to create new 2. Plants of the new Kalanchoe have slightly smaller flow double-flowered Kalanchoe cultivars with attractive foliage ers than plants of the parent selection. and flower coloration. 3. Plants of the new Kalanchoe have double flowers The new Kalanchoe originated from a self-pollination 15 whereas plants of the parent selection have single flow made by the Inventor in Hinnerup, Denmark in September CS. 2003, of a proprietary Kalanchoe blossfeldiana selection Plants of the new Kalanchoe can be compared to plants of identified as code number KJ 2003 0564, not patented. The the Kalanchoe blossfeldiana cultivar Sarah, disclosed in a cultivar Kelly was discovered and selected by the Inventor as U.S. Plant patent application Ser. No. 1 1/633,112, filed con a flowering plant from within the progeny of the stated self currently. In side-by-side comparisons conducted in pollination in a controlled environment in Hinnerup, Den Hinnerup, Denmark, plants of the new Kalanchoe differed mark in May, 2004. from plants of the cultivar Sarah in the following character Asexual reproduction of the new Kalanchoe by vegetative istics: terminal cuttings in a controlled environment in Hinnerup, 1. Plants of the new Kalanchoe were more compact and Denmark since July, 2004, has shown that the unique fea had shorter internodes than plants of the cultivar Sarah. tures of this new Kalanchoe are stable and reproduced true 2. Flowers of plants of the new Kalanchoe had larger to type in Successive generations. flowers than plants of the cultivar Sarah. 3. Plants of the new Kalanchoe had double flowers SUMMARY OF THE INVENTION 30 whereas plants of the cultivar Sarah had single flowers. The cultivar Kelly has not been observed under all pos 4. Plants of the new Kalanchoe and the cultivar Sarah sible environmental conditions. The phenotype may vary differed in flower color. Somewhat with variations in environment and cultural prac 5. Plants of the new Kalanchoe flowered about four days tices such as temperature, daylength and light intensity later than plants of the cultivar Sarah. without, however, any variance in genotype. 35 The following traits have been repeatedly observed and BRIEF DESCRIPTION OF THE PHOTOGRAPHS are determined to be the unique characteristics of Kelly. The accompanying colored photographs illustrate the These characteristics in combination distinguish Kelly as a overall appearance of the new Kalanchoe, showing the col new and distinct cultivar of Kalanchoe. 40 ors as true as it is reasonably possible to obtain in colored 1. Upright, uniform and moderately vigorous growth reproductions of this type. Colors in the photographs may habit. differ slightly from the color values cited in the detailed US PP18,992 P2 3 4 botanical description which accurately describe the colors of Strength.—Strong. the new Kalanchoe. Texture.—Smooth, glabrous. The photograph at the top of the sheet comprises a side Color:—146A. perspective view of a typical flowering plant of Kelly Foliage description: grown in a container. Arrangement.—Opposite, simple, generally symmetri cal. The photograph at the bottom of the sheet comprises a top Ouantity of leaves per lateral branch.—About 4. perspective view of a typical flowering plant of Kelly Length, vegetative plants.—About 8 cm to 12 cm. grown in a container. Width, vegetative plants.—About 5 cm to 7 cm. Length, generative plants. About 5 cm to 6 cm. DETAILED BOTANICAL DESCRIPTION Width, generative plants. About 1 cm to 4 cm. The aforementioned photographs and following Shape.—Ovate. observations, measurements and values describe plants Apex. —Rounded. grown in Hinnerup, Denmark in a glass-covered greenhouse Base.—Cuneate. during the Summer and under conditions which closely Margin.—Crenate. approximate commercial production. During the production Texture, upper and lower surfaces.—Glabrous, leath of the plants, day temperatures were about 19° C. night ery; Succulent. temperatures were about 21°C. and light levels ranged from Venation pattern.—Pinnate. 10 kilolux to 50 kilolux. Unrooted cuttings were directly Color:—Developing and fully developed foliage, upper stuck in 10-cm containers and received long day/short night surface: 147A; Venation, 147A. Developing and fully conditions (more than 14 hours of light) for about two developed foliage, lower surface: 147B; venation, weeks; plants then received photoinductive short day/long 147B. night conditions (minimum 14 hours darkness) until flower Petiole.—Length: About 1 cm to 1.5 cm. Diameter: ing. Plants were about 12 weeks old when the photographs About 5 mm to 7 mm. Texture, upper and lower sur and the description were taken. In the detailed description, faces: Smooth, glabrous. Color, upper surface: 147A. color references are made to The Royal Horticultural Soci Color, lower surface: 147B. ety Color Chart, 2001 Edition, except where general terms of Flower description: ordinary dictionary significance are used. Flower arrangement and habit. —Double flowers arranged singly in compound dichasial cymes that Botanical classification: Kalanchoe blossfeldiana cultivar arise from leaf axils. Uniform and freely flowering Kelly. habit with usually about 40 to 60 flowers per inflo Parentage: rescence. Flowers not persistent. Flowers not fra Female, or seed, parent.—Proprietary selection of Kal grant. anchoe blossfeldiana identified as code number KJ Natural flowering season.—Plants of the new Kalan 2003 0564, not patented. choe initiate and develop flowers under short day/ Male or pollen parent.—Proprietary selection of Kal long night conditions or during the late autumn/ anchoe blossfeldiana identified as code number KJ winter/early Spring. Flower initiation and 2003 0564, not patented. development can also be induced under artificial Propagation: short day/long night conditions (at least 14 hours of Tipe.—By vegetative terminal cuttings. darkness). Time to initiate roots, summer—About two weeks at Time to flower—Early flowering habit; under short temperatures of 19°C. to 21°C. day/long night photoinductive conditions, about 76 Time to initiate roots, winter—About three weeks at days are required. Actual time to flower is primarily temperatures of 19°C. to 21°C. dependent upon temperature and light intensity. Time to produce a rooted young plant, summer—About Post-production longevity.—Excellent post-production 21 days attemperatures of 19°C. to 21°C. longevity; plants maintain good foliage and flower Time to produce a rooted young plant, winter—About Substance for about six weeks under interior environ 24 days attemperatures of 19°C. to 21°C. mental conditions. Root description. Fine, fibrous; white in color. Inflorescence height.—About 10 cm to 12 cm. Rooting habit.—Freely branching; moderately dense. Inflorescence diameter:—About 6 cm to 7 cm. Plant description: Flower diameter:—About 2 cm. Plant habit.—Upright, uniform and moderately vigor Flower length (height). About 1 cm. ous growth habit. Very freely flowering with numer Flower bud.—Shape: Ellipsoidal. Length: About 1.5 ous compound cymes. Inverted triangle with rounded cm. Diameter: About 3 mm. Color: 29A to 30A. crown. Appropriate for 6-cm to 10-cm containers. Petals.—Arrangement: About eight fused at the base. Plant height at flowering.—About 16 cm to 20 cm. Length (largest petals): About 8 mm. Width (largest Plant diameter at flowering.—About 24 cm. petals): About 6 mm. Aspect: Slightly upright to Branching habit. Usually about four to nine lateral eventually recurved. Shape: Ovate. Apex: Mucr branches develop per plant. Pinching (removal of the onate. Margin: Entire. Texture, upper and lower Sur terminal apex) is not required but will enhance lateral faces: Smooth, glabrous. Color: When opening and branch development. fully opened, upper Surface: Towards the apex, Lateral branch description: N25A; towards the base, 33A. When opening and Length.—About 13 cm. fully opened, lower surface: Towards the apex. 29A. Diameter:—About 4 mm. towards the base, 30A. Internode length. —About 1 cm to 2 cm. Sepals.—Appearance: Four fused at the base. Length: Aspect.—Erect. About 8 mm.
Load more

Recommended publications
  • ORNAMENTAL GARDEN PLANTS of the GUIANAS: an Historical Perspective of Selected Garden Plants from Guyana, Surinam and French Guiana
    f ORNAMENTAL GARDEN PLANTS OF THE GUIANAS: An Historical Perspective of Selected Garden Plants from Guyana, Surinam and French Guiana Vf•-L - - •• -> 3H. .. h’ - — - ' - - V ' " " - 1« 7-. .. -JZ = IS^ X : TST~ .isf *“**2-rt * * , ' . / * 1 f f r m f l r l. Robert A. DeFilipps D e p a r t m e n t o f B o t a n y Smithsonian Institution, Washington, D.C. \ 1 9 9 2 ORNAMENTAL GARDEN PLANTS OF THE GUIANAS Table of Contents I. Map of the Guianas II. Introduction 1 III. Basic Bibliography 14 IV. Acknowledgements 17 V. Maps of Guyana, Surinam and French Guiana VI. Ornamental Garden Plants of the Guianas Gymnosperms 19 Dicotyledons 24 Monocotyledons 205 VII. Title Page, Maps and Plates Credits 319 VIII. Illustration Credits 321 IX. Common Names Index 345 X. Scientific Names Index 353 XI. Endpiece ORNAMENTAL GARDEN PLANTS OF THE GUIANAS Introduction I. Historical Setting of the Guianan Plant Heritage The Guianas are embedded high in the green shoulder of northern South America, an area once known as the "Wild Coast". They are the only non-Latin American countries in South America, and are situated just north of the Equator in a configuration with the Amazon River of Brazil to the south and the Orinoco River of Venezuela to the west. The three Guianas comprise, from west to east, the countries of Guyana (area: 83,000 square miles; capital: Georgetown), Surinam (area: 63, 037 square miles; capital: Paramaribo) and French Guiana (area: 34, 740 square miles; capital: Cayenne). Perhaps the earliest physical contact between Europeans and the present-day Guianas occurred in 1500 when the Spanish navigator Vincente Yanez Pinzon, after discovering the Amazon River, sailed northwest and entered the Oyapock River, which is now the eastern boundary of French Guiana.
    [Show full text]
  • Kalanchoe Blossfeldiana Kalanchoe1 Edward F
    FPS-309 Kalanchoe Blossfeldiana Kalanchoe1 Edward F. Gilman2 Introduction General Information Kalanchoe is a dark green, succulent perennial with scallop- Scientific name: Kalanchoe blossfeldiana edged leaves and large umbels of flower clusters held above Pronunciation: kal-lan-KOE-ee bloss-fel-dee-AY-nuh the foliage (Fig. 1). The upright, many-branched growth Common name(s): kalanchoe habit and tolerance of low moisture conditions makes it Family: Crassulaceae ideal for groundcover use, rock gardens, raised planters, or Plant type: perennial; herbaceous containers USDA hardiness zones: 10 through 11 (Fig. 2) Planting month for zone 7: Jun; Jul Planting month for zone 8: Jun; Jul Planting month for zone 9: Jun; Jul; Aug; Sep Planting month for zone 10 and 11: Feb; Mar; Apr; Sep; Oct; Nov; Dec Origin: not native to North America Uses: container or above-ground planter; edging; attracts hummingbirds Availability: generally available in many areas within its hardiness range Figure 1. Kalanchoe Figure 2. Shaded area represents potential planting range. 1. This document is FPS-309, one of a series of the Environmental Horticulture Department, UF/IFAS Extension. Original publication date October 1999. Reviewed February 2014. Visit the EDIS website at http://edis.ifas.ufl.edu. 2. Edward F. Gilman, professor, Environmental Horticulture Department; UF/IFAS Extension, Gainesville, FL 32611. The Institute of Food and Agricultural Sciences (IFAS) is an Equal Opportunity Institution authorized to provide research, educational information and other services only to individuals and institutions that function with non-discrimination with respect to race, creed, color, religion, age, disability, sex, sexual orientation, marital status, national origin, political opinions or affiliations.
    [Show full text]
  • Experimental Plants
    Experimental Plants African Violet Geranium Spiderwort Species: ionantha Species: zonale Species: varies Genus: Saintpaulia Genus: Geranium or Pelargonium Genus: Tradescantia Family: Gesneriaceae Family: Geraniaceae Family: Commelinaceae Order: Scrophulariales Order: Marchantiales Order: Commelinales Class: Magnoliopsida Class: Magnoliopsida Class: Liliopsida Phylum: Tracheophyta Phylum: Magnoliophyta Phylum: Magnoliophyta Kingdom: Plantae Kingdom: Plantae Kingdom: Plantae Begonia Kalanchoe Wandering Jew Species: varies Species: blossfeldiana Species: varies Genus: Begonia Genus: Kalanchoe (synonym Genus: Nephrolepis Family: Begoniaceae Bryophyllum) Family: Nephrolepidaceae Order: Violales Family: Crassulaceae Order: Polypodiales Class: Magnoliopsida Order: Saxifragales Class: Polypodiopsida (Pteridopsida) Phylum: Magnoliophyta Class: Magnoliopsida Phylum: Pterophyta Kingdom: Plantae Phylum: Magnoliophyta Kingdom: Plantae Kingdom: Plantae Bromeliad Zamia Species: varies Norfolk Island Pine Species: varies Genus: Neoregelia Species: heterophylla Genus: Zamia Family: Bromeliaceae Genus: Araucaria Family: Zamiaceae Order: Bromeliales Family: Araucariaceae Order: Cycadales Class: Liliopsida Order: Pinales Class: Cycadopsida Phylum: Magnoliophyta Class: Pinopsida Phylum: Cycadophyta Kingdom: Plantae Phylum: Pinophyta Kingdom: Plantae Kingdom: Plantae Coleus Zebrina Species: varies Podocarpus Species: varies Genus: Solenostemon Species: varies Genus: Zebrina Family: Lamiaceae Genus: Podocarpus Family: Commelinaceae Order: Lamiales Family: Podocarpaceae
    [Show full text]
  • 294-299 E-ISSN:2581-6063 (Online), ISSN:0972-5210
    1 Plant Archives Vol. 21, Supplement 1, 2021 pp. 294-299 e-ISSN:2581-6063 (online), ISSN:0972-5210 Plant Archives Journal homepage: http://www.plantarchives.org doi link : https://doi.org/10.51470/PLANTARCHIVES.2021.v21.S1.047 MOLECULAR TAXONOMY AND GENETIC DIVERSITY EVALUATION AMONG SEVEN CULTIVARS OF KALANCHOE BLOSSFELDINA POELLN USING RANDOM AMPLIFIED POLYMORPHIC DNA (RAPD) MARKERS Amina Ismail Al-Naib and May Taha Al-Wattar 1Department of Biology, College of Science, University of Mosul, Iraq Email: [email protected] The study aimed to detect molecular intraspecific markers to identify seven cultivars of Kalanchoe blossfeldina Poeln. (K. blossfeldiana Calandiva Bardot; K. blossfeldiana Calandiva Hayworth; K. blossfeldiana Calandiva Monro; K. blossfeldiana Calandiva Fonda; K. blossfeldiana Calandiva Middler; K. blossfeldiana Calandiva Leonardo; K. blossfeldiana Calandiva Rosalina) have been genetically analyzed, using Randomly Amplified Polymorphic DNA (RAPD PCR) technique, ten randomize primers used for this purpose yielded 390 reproducible bands with an average of 39 bands or fragments per primer, contain 259 monomorphic bands and 145 were polymorphic bands, primers produce 12 unique bands and 8 bands were absent. The primers (80-14) yielded high number of DNA fragments (53). The results showed 48 polymorphic sites and 32 monomorphic sites, the heist polymorphism percentage reached ABSTRACT 100% with primer (OPB-01) and the lowest polymorphism percentage with the primer (80-15) reached 25%, UPGMA analysis depending on similarity matrix, studied cultivars showed the highest genetic similarity reached (0.908) between (Calandiva Monro, Calandiva Fonda), while lowest genetic distance was (0.426) between (Calandiva Leonardo, Calandiva Hayworth) cultivars as well as genetic difference was (0.347) between (Calandiva Leonardo, Calandiva Hayworth) also.
    [Show full text]
  • Weed Risk Assessment for Phelipanche Aegyptiaca (Pers.) Pomel (Orobanchaceae) – Egyptian Broomrape
    United States Department of Weed Risk Assessment Agriculture for Phelipanche aegyptiaca (Pers.) Animal and Pomel (Orobanchaceae) – Egyptian Plant Health Inspection broomrape Service December 21, 2018 Version 1 Left: Phelipanche aegyptiaca parasitizing carrot (Dr. Reuven Jacobsohn, Agricultural Research Organization, Bugwood.org); Right (top): P. aegyptiaca seeds (source: Julia Scher, Federal Noxious Weed Disseminules, USDA APHIS ITP, Bugwood.org); (bottom): carrot field infested with P. aegyptiaca, left treated with soil solarization, right untreated with crop completely destroyed (source: Jaacov Katan, University of Jerusalem, Bugwood.org). AGENCY CONTACT Plant Epidemiology and Risk Analysis Laboratory Center for Plant Health Science and Technology Plant Protection and Quarantine Animal and Plant Health Inspection Service United States Department of Agriculture 1730 Varsity Drive, Suite 300 Raleigh, NC 27606 Weed Risk Assessment for Phelipanche aegyptiaca (Egyptian broomrape) 1. Introduction Plant Protection and Quarantine (PPQ) regulates noxious weeds under the authority of the Plant Protection Act (7 U.S.C. § 7701-7786, 2000) and the Federal Seed Act (7 U.S.C. § 1581-1610, 1939). A noxious weed is defined as “any plant or plant product that can directly or indirectly injure or cause damage to crops (including nursery stock or plant products), livestock, poultry, or other interests of agriculture, irrigation, navigation, the natural resources of the United States, the public health, or the environment” (7 U.S.C. § 7701-7786, 2000). We use the PPQ weed risk assessment (WRA) process (PPQ, 2015) to evaluate the risk potential of plants, including those newly detected in the United States, those proposed for import, and those emerging as weeds elsewhere in the world.
    [Show full text]
  • Ecophysiology of Crassulacean Acid Metabolism (CAM)
    Annals of Botany 93: 629±652, 2004 doi:10.1093/aob/mch087, available online at www.aob.oupjournals.org INVITED REVIEW Ecophysiology of Crassulacean Acid Metabolism (CAM) ULRICH LUÈ TTGE* Institute of Botany, Technical University of Darmstadt, Schnittspahnstrasse 3±5, D-64287 Darmstadt, Germany Received: 3 October 2003 Returned for revision: 17 December 2003 Accepted: 20 January 2004 d Background and Scope Crassulacean Acid Metabolism (CAM) as an ecophysiological modi®cation of photo- synthetic carbon acquisition has been reviewed extensively before. Cell biology, enzymology and the ¯ow of carbon along various pathways and through various cellular compartments have been well documented and dis- cussed. The present attempt at reviewing CAM once again tries to use a different approach, considering a wide range of inputs, receivers and outputs. d Input Input is given by a network of environmental parameters. Six major ones, CO2,H2O, light, temperature, nutrients and salinity, are considered in detail, which allows discussion of the effects of these factors, and combinations thereof, at the individual plant level (`physiological aut-ecology'). d Receivers Receivers of the environmental cues are the plant types genotypes and phenotypes, the latter includ- ing morphotypes and physiotypes. CAM genotypes largely remain `black boxes', and research endeavours of genomics, producing mutants and following molecular phylogeny, are just beginning. There is no special development of CAM morphotypes except for a strong tendency for leaf or stem succulence with large cells with big vacuoles and often, but not always, special water storage tissues. Various CAM physiotypes with differing degrees of CAM expression are well characterized. d Output Output is the shaping of habitats, ecosystems and communities by CAM.
    [Show full text]
  • The Possible Causes of Leaf Spotting of Kalanchoe Blossfeldiana: Metabolic and Potential Methods of Their Control
    PROGRESS IN PLANT PROTECTION/POSTĘPY W OCHRONIE ROŚLIN 52 (3) 2012 The possible causes of leaf spotting of Kalanchoe blossfeldiana: metabolic and potential methods of their control Przyczyny plamistości liści Kalanchoe blossfeldiana: zmiany metaboliczne i możliwości ochrony Anna Jarecka Boncela, Alicja Saniewska, Justyna Góraj, Marian Saniewski Summary The leaves of Kalanchoe blossfeldiana, a succulent grown in greenhouse conditions showed disease symptoms, such as yellow and gradually browning spots. The disease was caused by Pestalotia sp. In detached healthy leaves of K. blossfeldiana kept in the inverted position at natural light conditions red-violet anthocyanins were produced and accumulated. In detached leaves with disease symptoms caused by Pestalotia sp. kept in the same light conditions anthocyanins were not produced formed the disease spots at a distance about 5–10 mm from. The fungicides: Biosept Active, Signum 33 WG i Topsin M 500 SC significantly inhibited the growth and development of the fungi Pestalotia sp. Key words: Kalanchoe blossfeldiana, Pestalotia sp., metabolic reactions, anthocyanins formation, infection, leaves, fungicides Streszczenie Na liściach sukulenta Kalanchoe blossfeldiana rosnącego w warunkach szklarniowych, wystąpiły symptomy chorobowe. Testy chorobotwórczości wykazały, że główną przyczyną, początkowo drobnych żółtych plam, stopniowo brązowiejących i obejmujących znaczną część powierzchni górnej i dolnej strony liścia, jest grzyb Pestalotia sp. W odciętych zdrowych liściach K. blossfeldiana trzymanych na świetle w pozycji odwróconej, następowało nagromadzanie antocyjanów o barwie czerwono-fioletowej, natomiast w odciętych zainfekowanych liściach przez Pestalotia sp., trzymanych w tych samych warunkach na świetle, antocyjany nie tworzyły się w odległości około 5–10 mm od zainfekowanych plam. Badane fungicydy: Biosept Active, Signum 33 WG i Topsin M 500 SC silnie ograniczały wzrost i rozwój Pestalotia sp.
    [Show full text]
  • Floral Initiation and Vascular Development in Lateral Buds of Kalanchoe Raymond Kessler1 and Stan P
    HORTSCIENCE 27(2):144-146. 1992. Floral Initiation and Vascular Development in Lateral Buds of Kalanchoe Raymond Kessler1 and Stan P. Myers2 Department of Horticulture, Mississippi State University, Mississippi State, MS 39762 Additional index words . photoperiod, Kalanchoe blossfeldiana Fig. 1. Lateral spice form the third node of ‘Gelbe Melody’ after 21. short days. Abstract.Early development of lateral buds is demonstrated as one of the evocation events in Kalanchoes (Kalanchoe blossfeldiana Poelln.). Lateral buds of ‘Cactus Candy’, ‘Gelbe Melody’, and ‘Jupiter’ that were»5»5 mm long or less showed no signs of a change to the reproductive state after 21 short days. However, larger lateral buds for ‘Jupiter’ did show floral initiation while those of ‘Cactus Candy’ and ‘Gelbe Melody’ did not. Studies of the vascular arrangement indicate the presence of four dorsal and four ventral bundles connecting leaves to the stem. Vascular connections to lateral buds arise from vascular cambium but do not appear to connect to any of the bundles that supply leaves. Morphological events occurring in the shoot same orthostichery, indicating the role of a tip of K. blossfeldian a during floral initiation flowering inhibitor (Harder et al., 1949). and development have previously been de- Schawbe (1985) has presented convincing scribed for several cultivars (Fredericq, 1960; evidence for the involvement of a flowering Roodenburg, 1939; Stein and Stein, 1960). inhibitor. Fig. 2. Lateral spice form the third node of ‘Ju- Coincident with this process, active devel- For commercial forcing, flowering lateral piter’ after 21 short days. opment of previously formed lateral buds just shoots are often equal to if not more impor- below the apex is resumed.
    [Show full text]
  • Kalanchoe Species Poisoning in Pets Geof Smith, DVM, Phd, DACVIM
    Toxicology Brief managing common poisonings in companion animals PEER-REVIEWED Kalanchoe species poisoning in pets Geof Smith, DVM, PhD, DACVIM alanchoe is a genus of 150 to TABLE 1 Common Kalanchoe Species Found in North America 200 plant species, most of K which are native to southern Scientific Name Common Names Africa, Madagascar, and Australia. In Kalanchoe blossfeldiana Florist’s kalanchoe, Madagascar widow’s-thrill the past, the genus was divided into three genera: Kalanchoe, Bryo- Kalanchoe daigremontiana Devil’s backbone, mother of millions, Mexican hat plant phyllum, and Kitchingia. But today Kalanchoe beharensis Feltbush, velvetleaf most botanists recognize it as one Kalanchoe delagoensis Mother of millions, chandelier plant genus.1 In the United States, Kalan- choe species are primarily ornamentals Kalanchoe fedtschenkoi South American air plant, lavender scallops and houseplants, but some have es- Kalanchoe pinnata Air plant, Mexican love plant, cathedral bells caped cultivation and can be found in Kalanchoe gastonis-bonnieri Palm beachbells, donkey ears the wild, especially in Florida and Hawaii. Table 1 lists the most common Kalanchoe beauverdii Sotre-Sotry Kalanchoe species found in North Kalanchoe prolifera Blooming boxes America. Kalanchoe laciniata Christmastree plant Plant characteristics long; flower clusters can last FIGURE 1 Although the plants vary, most Kalan- for weeks to months. Most choe species are erect, growing shrubs Kalanchoe species are easy to (Figure 1). These perennial plants gen- propagate from leaf or stem erally have thick, green, succulent fo- cuttings. Many species have liage and clusters of small flowers (Fig- plantlets (miniature plants at ures 2 & 3). The plants are popular with the end of flowering stems) florists because they can be forced to growing in the notches of the bloom at any time of the year, including leaf margins; these plantlets holidays.
    [Show full text]
  • Genus Kalanchoe (Crassulaceae): a Review of Its Ethnomedicinal, Botanical, Chemical and Pharmacological Properties
    European Journal of Medicinal Plants 4(1): 86-104, 2014 SCIENCEDOMAIN international www.sciencedomain.org Genus Kalanchoe (Crassulaceae): A Review of Its Ethnomedicinal, Botanical, Chemical and Pharmacological Properties Rola Milad1*, Sherweit El-Ahmady1 and Abdel Nasser Singab1 1Department of Pharmacognosy, Faculty of Pharmacy, Ain Shams University, Abbassia, 11566-Cairo, Egypt. Authors’ contributions Authors may use the following wordings for this section: This work was carried out in collaboration between all authors. All authors read and approved the final manuscript. Received 8th July 2013 th Review Article Accepted 28 September 2013 Published 24th October 2013 ABSTRACT Genus Kalanchoe comprises hundred species. Different extracts of these Kalanchoe species have been widely used in traditional medicine. Recently it has been reported that Kalanchoe extracts possess various biological activities viz. antiviral, sedative, antiulcer, immunomodulatory, antileishmanial, CNS depressant, anti-inflammatory, thyroid peroxidase inhibitor, cytotoxic, hepatoprotective, antioxidant, analgesic, anticonvulsant, antimicrobial, inhibition of B cell development, cardiovascular, antihyperglycemic, acetylcholinesterase inhibition, insecticidal and larvicidal activities. Earlier studies on different Kalanchoe species have reported the isolation of polysaccharides, flavonoids, sterols, ascorbic acid, trace elements, organic acids, hydrocarbons, triterpenoids, phenolic components and bufadenolides. This review presents the botany, chemistry, traditional
    [Show full text]
  • Christmas Flowers
    HortFacts 60-03 CHRISTMAS PLANTS BRIGHTEN THE HOLIDAY SEASON Bob Anderson, Extension Specialist in Floriculture and Karen Shahan, Extension Staff Assistant The colorful plants that you have enjoyed during the Christmas holidays can be a reminder of the holiday season for many months. Correct care of these plants will make them a welcome addition to your collection of houseplants. Christmas plants, such as poinsettia, holiday cactus, Christmas pepper, kalanchoe, Jerusalem cherry or cyclamen, require a bright, sunny location in the home. Regular thorough watering whenever the soil is dry is also very important. A sunny location and regular watering are enough for these plants during December but more specialized care is necessary if you plan to have them flower again next Christmas. In January, you need to decide if you want to keep your Christmas plants or discard them. Christmas pepper, Jerusalem cherry and chrysanthemum should be discarded because they will not flower again. Do not discard poinsettia, holiday cactus, kalanchoe, or cyclamen until February. They will remain colorful if they are cared for properly. These plants can be kept as houseplants after February if you give them the conditions they require. Poinsettias and holiday cacti are relatively easy to grow while kalanchoes and cyclamen are more difficult. The major result of yearlong care of a Christmas plant is the large specimen plant you will have the following Christmas. It is easy to produce a poinsettia with 40 to 50 flowers from the same plant that had only six to eight flowers the year before. Holiday cacti will be two to five times as large next year with many flowers.
    [Show full text]
  • Gardeners Are Very Special People." Society, 7931 East Boulevard Drive, Alexandria, VA I Have Ever Attended." 22308·1300
    • erIC an • • IC urIS November 1993 A Publication of the American Horticultural Society $2.00 Inside: A Report on OUf Children's Symposium American Horticultural Society The American Horticultural Society seeks to promote and recognize excellence in horticulture across America. OFFICERS 1993-1994 Mrs. Sarah S. Boasberg, Washington, DC Chairman 500 Attend Children's Symposium Dr. WIlliam E. Barrick, Pine Mountain, GA First Vice Chairman Mr. David M. Lilly, St. Paul MN More than 500 people attended the Secretary American Horticultural Society's national Mr. Gerald T. Halpin, Alexandria, VA symposium, "Children, Plants, and Treasurer Gardens: Educational Opportunities" in BOARD OF DIRECTORS Chevy Chase, Maryland, August 12 to 14. Dr. Thomas Amason, Birmingham, AL The event was so successful that Mrs. Suzanne Bales, Bronxville, NY attendees from California are beginning Mr. George C. Ball Jr., West Chicago, IL to plan a similar meeting for the West Dr. Sherran Blair, Columbus, OH Coast for 1995. Evaluations of the meet­ Mr. WIlliam F. Brinton, Mount Vernon, ME ing were extremely positive. If anything, Mrs. Nancy Callaway, Pine Mountain, GA Mr. Paul Ecke, Encinitas, CA many said, the conference offerings were Dr. John Alex Floyd Jr., Birmingham, AL too rich, with three workshops offered Mrs. Julia Hobart, Troy, OH simultaneously, and the program continu­ Dr. Richard Lower, Madison, WI ing into the evening with 10-minute "idea Mr. Elvin McDonald, Houston, TX forums." There were more than 60 Mr. WIlliam G. PanniU, Martinsville, VA presenters. Mr. Lawrence V. Power, New Ymk, NY Dr. Julia Rappaport, Santa Ana, CiA. Outgoing AHS Chairman George C.
    [Show full text]