DOCSLIB.ORG

Dianthus Caryophyllus (Carnation) Size/Shape

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Dianthus Caryophyllus (Carnation) Size/Shape Dianthus caryophyllus (Carnation) Dianthus caryophyllus is a tender perennial, native to the Mediterranean area. It's famous for its large colorful flower, whitch has a star shape. It can be found in purple, pink, red, yellow or white. It has a sweet fragrance, and a sweet taste as well. Used in some perfumes. Easily grown in full sun, and average, medium, well-drained soil. Landscape Information French Name: Oeillet giroflée ﻗﺮﻧﻔﻞ :Arabic Name Pronounciation: dy-AN-thus kar-ee-oh-FIL-us Plant Type: Groundcover Origin: Mediterranean Heat Zones: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16 Hardiness Zones: 7, 8, 9, 10, 11, 12, 13 Uses: Border Plant, Container, Edible, Cut Flowers / Arrangements Size/Shape Growth Rate: Moderate Tree Shape: Canopy Texture: Fine Height at Maturity: 1 to 1.5 m Spread at Maturity: Less than 50 cm Time to Ultimate Height: 2 to 5 Years Plant Image Dianthus caryophyllus (Carnation) Botanical Description Foliage Leaf Arrangement: Opposite Leaf Venation: Nearly Invisible Leaf Persistance: Evergreen Leaf Type: Simple Leaf Blade: 5 - 10 cm Leaf Shape: Linear Leaf Margins: Entire Leaf Textures: Rough Leaf Scent: No Fragance Color(growing season): Green, Blue-Green Color(changing season): Green Flower Flower Showiness: True Flower Size Range: 3 - 7 Flower Image Flower Type: Solitary Flower Scent: Pleasant Flower Color: Yellow, Red, Purple, White, Pink Fruit Fruit Showiness: False Dianthus caryophyllus (Carnation) Horticulture Management Tolerance Frost Tolerant: Yes Heat Tolerant: Yes Requirements Soil Requirements: Loam, Sand Soil Ph Requirements: Acidic, Neutral, Alkaline Water Requirements: Moderate Light Requirements: Full, Part Management Toxity: No Invasive Potential: No Susceptibility to Pests and Diseases: Yes Pruning Requirement: Little needed, to develop a strong structure Diseases: Rusts Edible Parts: Flower Pests: Mites, Thrips Plant Propagations: Seed, Cutting, Division Leaf Image MORE IMAGES Other Image Bark Image.
Load more

Recommended publications
  • Season Extenders in the Flower Garden by Pat Holloway and Pat Wagner
    University of Alaska Fairbanks School of Natural Resources and Extension Georgeson Botanical Notes No. 57 (1993) - Revised 2014 Season Extenders in the Flower Garden by Pat Holloway and Pat Wagner No one gardening in Alaska needs to be reminded that the growing season is very short, especially after the summer of 1992 when the frost-free season at the Garden extended only from May 16 to September 10, and the snow-free season was the shortest ever recorded. Every year we survey the Garden after our first hard frost to identify flowers that still look good and can provide a bit of color even as the days get shorter and we begin to anticipate the first snowfall. On the following page is a list of annuals and perennials that sur- vived the first severe frost on September 10 with an overnight low of 13°F (-10°C). In some instances, only the foliage survived, but they still provided a bit of green color at season’s end. Prior to September 10, temperatures at or slightly below 32°F (0°C) were recorded on three dates, but damage was negligible. Although the flower beds are located fairly close together on a gently sloping hillside, we noticed some differences in damage in the various beds. Flowers in one bed survived the frost, whereas plants of the same species in an adjacent bed were killed. This may be related to differences in cultivars since we did not repeat cultivars in different beds, but it also could be related to slight differences in microclimate from one bed to another.
    [Show full text]
  • Catalogue2013 Web.Pdf
    bwfp British Wild Flower Plants www.wildflowers.co.uk Plants for Trade Plants for Home Specialist Species Wildflower Seed Green Roof Plants Over 350 species Scan here to of British native buy online plants 25th Anniversary Year Finding Us British Wild Flower Plants Burlingham Gardens 31 Main Road North Burlingham Norfolk NR13 4TA Phone / Fax: (01603) 716615 Email: [email protected] Website: http://www.wildflowers.co.uk Twitter: @WildflowersUK Nursery Opening Times Monday to Thursday: 10.00am - 4.00pm Friday: 10.00am - 2.30pm Please note that we are no longer open at weekends or Bank Holidays. Catalogue Contents Contact & Contents Page 02 About Us Page 03 Mixed Trays Pages 04-05 Reed Beds Page 06 Green Roofs Page 07 Wildflower Seeds Page 08 Planting Guide Pages 09-10 Attracting Wildlife Page 11 Rabbit-Proof Plants Page 12 List of Plants Pages 13-50 Scientific Name Look Up Pages 51-58 Terms & Conditions Page 59 www.wildflowers.co.uk 2 Tel/Fax:(01603)716615 About Us Welcome.... About Our Plants We are a family-run nursery, situated in Norfolk on a Our species are available most of the year in: six acre site. We currently stock over 350 species of 3 native plants and supply to all sectors of the industry Plugs: Young plants in 55cm cells with good rootstock. on a trade and retail basis. We are the largest grower of native plants in the UK and possibly Europe. Provenance Our species are drawn from either our own seed collections or from known provenance native sources. We comply with the Flora Locale Code of Practice.
    [Show full text]
  • Perennials For
    Perennials for Sun Botanic Name Common Name Achillea millefolium “Appleblossom” Appleblossom Yarrow Achillea millefolium “Paprika” Paprika Yarrow Achillea “Moonshine” Moonshine Yarrow Achillea “Summer Wine” Summer Wine Yarrow Achillea “Terracotta” Terracotta Yarrow Agastache aurantiaca “Coronado” Coronado Hyssop Agastache “Blue Fortune” Blue Fortune Hyssop Agastache cana Hummingbird Mint Agastache cana “Sonoran Sunset” Sonoran Sunset Hyssop Agastache “Coronado Red” Coronado Red Hyssop Agastache rupestris “Sunset” Sunset Hyssop Alea rosea Hollyhock Alyssum montanum Mountain Gold Alyssum Amorpha canescens Leadplant Amsonia jonesii Colorado Desert Blue Star Amsonia hubrichtii Blue Star Anacyclus depressus Mat Daisy Anchusa azurea Bugloss Antennaria dioica Pussytoes Anthemis marshalliana Golden Marguerite Anthemis “Sauce Hollandaise” Ox-eye Chamomile Arabis blepharophylla “Spring Charm” Rock Cress Arabis causcasica “Snow cap” White Rock Cress Armeria maritime Thrift, Sea Pinks Artemisia “Powis Castle” Powis Castle Wormwood Artemisia schmidtiana “Silver Mound” Silver Mound Wormwood Artemisia stelleriana “Silver Brocade” Silver Brocade Wormwood Artemisia versicolor “Seafoam” Sea Foam Wormwood Asclepias tuberosa Butterfly Weed Aster alpinus Alpine Aster Aster frikarti Monk’s Aster Aster nova angliae New England Aster Aster nova belgii Michaelmas Aster Aubrieta Purple Rock Cress Aurinia saxatilis Basket of Gold Baptisia australis False Indigo Belamcanda chinensis Blackberry Lily Berlandiera lyrata Chocolate Flower Boltonia asteroids Star Flower
    [Show full text]
  • Untangling Phylogenetic Patterns and Taxonomic Confusion in Tribe Caryophylleae (Caryophyllaceae) with Special Focus on Generic
    TAXON 67 (1) • February 2018: 83–112 Madhani & al. • Phylogeny and taxonomy of Caryophylleae (Caryophyllaceae) Untangling phylogenetic patterns and taxonomic confusion in tribe Caryophylleae (Caryophyllaceae) with special focus on generic boundaries Hossein Madhani,1 Richard Rabeler,2 Atefeh Pirani,3 Bengt Oxelman,4 Guenther Heubl5 & Shahin Zarre1 1 Department of Plant Science, Center of Excellence in Phylogeny of Living Organisms, School of Biology, College of Science, University of Tehran, P.O. Box 14155-6455, Tehran, Iran 2 University of Michigan Herbarium-EEB, 3600 Varsity Drive, Ann Arbor, Michigan 48108-2228, U.S.A. 3 Department of Biology, Faculty of Sciences, Ferdowsi University of Mashhad, P.O. Box 91775-1436, Mashhad, Iran 4 Department of Biological and Environmental Sciences, University of Gothenburg, Box 461, 40530 Göteborg, Sweden 5 Biodiversity Research – Systematic Botany, Department of Biology I, Ludwig-Maximilians-Universität München, Menzinger Str. 67, 80638 München, Germany; and GeoBio Center LMU Author for correspondence: Shahin Zarre, [email protected] DOI https://doi.org/10.12705/671.6 Abstract Assigning correct names to taxa is a challenging goal in the taxonomy of many groups within the Caryophyllaceae. This challenge is most serious in tribe Caryophylleae since the supposed genera seem to be highly artificial, and the available morphological evidence cannot effectively be used for delimitation and exact determination of taxa. The main goal of the present study was to re-assess the monophyly of the genera currently recognized in this tribe using molecular phylogenetic data. We used the sequences of nuclear ribosomal internal transcribed spacer (ITS) and the chloroplast gene rps16 for 135 and 94 accessions, respectively, representing all 16 genera currently recognized in the tribe Caryophylleae, with a rich sampling of Gypsophila as one of the most heterogeneous groups in the tribe.
    [Show full text]
  • In Vitro Callus Culture of Dianthus Chinensis L. for Assessment of Flavonoid Related Gene Expression Pro Le
    In Vitro Callus Culture of Dianthus Chinensis L. for Assessment of Flavonoid Related Gene Expression Prole R. Sreelekshmi University of Kerala Elenjikkal A Siril ( [email protected] ) University of Kerala https://orcid.org/0000-0002-4956-8428 Research Article Keywords: China pink, In vitro avonoid production, Friable callus, 2,4- D, Chalcone synthase Posted Date: March 17th, 2021 DOI: https://doi.org/10.21203/rs.3.rs-320486/v1 License: This work is licensed under a Creative Commons Attribution 4.0 International License. Read Full License Page 1/27 Abstract Dianthus chinensis L. is an edible, ornamental herb used to prepare the Dianthi Herba, a Chinese traditional rejuvenating medicine. Owing to the rapid proliferation of callus tissues, in vitro production of avonoids has their own specic importance. Callus cultures raised followed by auxin directed biosynthesis of avonoid through related transcript prole were carried out. Murashige and Skoog (MS) medium fortied with 2,4- Dichlorophenoxy acetic acid (2,4- D) or picloram induced formation of friable callus from internode derived cultures of D. chinensis. Culture medium containing 2,4- D (10 µM) produced the highest avonoid content, 4.44 mg quercetin equivalent per gram (QE g− 1) under incubation in continuous dark condition, while maximum dry weight yield (0.38 g/ culture) was obtained from 10 µM 2,4- D under 16 h light / 8 h dark condition (50 µmol m− 2 s− 1 irradiance) at 60 days of incubation. The callus raised in light condition in 10 µM 2,4- D selected to analyze avonoid related gene expression prole viz., chalcone synthase (CHS), chalcone isomerase (CHI), avanone-3-hydroxylase (F3H), and avonol synthase (FLS) at specic time intervals.
    [Show full text]
  • Storage of Rose and Carnation Flowers STABY G.L
    n 20. Young. E. 1980. Response ofseedling rootstocks ofpeach lo soil n. Verma. B.P. 1979. Container design for reducing root zone tem perature. Proc. SNA Res. Conf. 24:179-182. temperature. HortSciencc 15(3):294-296. 21 Young. K. and K.R.W. Hammct. 1980. Temperature patterns in 18. Wong. T.L.. R.W. Harris, and R.E. Fisscll. 1971. Influence of exposed black polyethylene plant containers. Agr. Mcterol. 21:165— high soil temperatures on five woody-plant species. J. Amcr. Soc. 172. Hon. Sci. 96:( 1)80-83. Young. R.H. and Peynado. 1967. Freeze injury to 3-ycar-old citrus hybrids and varieties following exposure to controlled freez 19. Woodruff. J.G. and N.C. Woodruff. 1934. Pecan root growth and development. J. Agr. Res. 49:511-530. ing conditions. Proc. Rio Grande Val. Hort. Soc. 21:80-88. J. Amer. Soc. Hort. Sci. 109(2): 193-197. 1984. Storage of Rose and Carnation Flowers STABY G.L. Staby,1 M.S. Cunningham,2 C.L. Holstead,3 J.W. Kelly,4 P.S. Konjoian,5 B.A. Eisenbergi6 and B.S. Dressier7 nii jmui Department of Horticulture, The Ohio State University, Columbus, OH 432W Additional index words. Dianthus caryophyllus, Rosa sp.. low pressure storage, hypobaric. controlled atmosphere, tem perature, silver thiosulfate. preservative tAbstracta^ere Normalconductedrefrigerationusing cut flowers(NR), lowof carnationpressureiDianthus(LP, 10 tocaryophyllus35 mm Hg),L.)andandlowroseoxygen(Rosa sp.).(0.5%Vambles^diedto 8%) storage were storage time, gas partial pressures, vapor barriers, chemical pretreatments, grower source, culttvars and stem "cutUng mthods Low oxygen storage was not beneficial regardless of variables tested.
    [Show full text]
  • Regulation of Senescence in Carnation (Dianthus Caryophyllus) by Ethylene MODE of ACTION1
    Plant Physiol. (1977) 59, 591-593 Regulation of Senescence in Carnation (Dianthus caryophyllus) by Ethylene MODE OF ACTION1 Received for publication April 9, 1976 and in revised form November 16, 1976 SHIMON MAYAK,2 YOASH VAADIA,3 AND DAVID R. DILLEY Department ofHorticulture, Michigan State University, East Lansing, Michigan 48824 ABSTRACT over-all length, and placed individually in 20-ml vials. Flowers Carnation (Dianthus caryophyllus) flowers were exposed to 2 ^i/l were obtained from a local grower and experiments were begun ethylene and examined at intervals to determine the time course of on the day of harvest. Four flowers in a 10-liter desiccator with a wilting, decrease in water uptake, and increase in ionic leakage in CO2 scrubber (NaOH solution) comprised a treatment. Flowers response to ethylene. A rapid decrease in water uptake was observed were exposed to ethylene at 21AI/I for 0, 3, 6, 9, or 12 hr, after which they were ventilated with ethylene-free air at a rate of 100 about 4 hours after initiating treatment with ethylene. This was followed were of 2 ml/min for the remainder of the experiment. Flowers by wilting (in-rolling petals) about hours later. Carbon dioxide observed at 1-hr intervals to determine the onset of wilting inhibited the decline in water uptake and wilting and this is typical of symptoms as judged by in-rolling of petals. most ethylene-induced responses. Ethylene did not affect closure of Effect of Ethylene on Rate of Water Uptake. Cut flowers stomates. Ethylene enhanced ionic leakage, as measured by efflux of 36CI a in which the from the vacuole.
    [Show full text]
  • Ex Situ Preservation in Medium-Term Culture of the Threathened Taxon Dianthus Nardiformis Janka
    Copyright © 2021 University of Bucharest Rom Biotechnol Lett. 2021; 26(2): 2416-2422 Printed in Romania. All rights reserved doi: 10.25083/rbl/26.2/2416.2422 ISSN print: 1224-5984 ISSN online: 2248-3942 Received for publication, December, 20, 2019 Accepted, January, 27, 2020 Original paper Ex situ preservation in medium-term culture of the threathened taxon Dianthus nardiformis Janka IRINA HOLOBIUC1, RODICA CATANĂ1, FLORENȚA HELEPCIUC1, CARMEN MAXIMILIAN1, MONICA MITOI1, GINA COGĂLNICEANU1 1Institute of Biology, Romanian Academy, Bucharest, Romania Abstract Our aim was to elaborate an efficient and reproducible protocol for medium-term culture of the threatened taxon Dianthus nardiformis. To reduce the growth, sucrose, mannitol, polyethylene glycol, Abscisic acid and Jasmonic acid were tested. For assessing the in vitro response, the growth and regeneration were registered after different time intervals. Mannitol is the most effective for medium-term preservation viable cultures which can be maintained unlimited time through transfer at every 3 months. In its presence, somatic embryogenesis was induced and in vitro growth in the minimal cultures was reduced between 9 and 12 times comparing to the control. Antioxidant enzymes assay revealed qualitative and quantitative differences among the experimental variants, and also between different concentrations of the same compound in correlation with the growth reduction and regeneration. POX was the most suitable to detect the efficiency of different treatments to induce medium-term cultures. Keywords Medium-term, mannitol, somatic embryogenesis, antioxidant enzymes. To cite this article: HOLOBIUC I, CATANĂ R, HELEPCIUC F, MAXIMILIAN C, MITOI M, COGĂLNICEANU G. Ex situ preservation in medium-term culture of the threathened taxon Dianthus nardiformis Janka.
    [Show full text]
  • Colonial Garden Plants
    COLONIAL GARD~J~ PLANTS I Flowers Before 1700 The following plants are listed according to the names most commonly used during the colonial period. The botanical name follows for accurate identification. The common name was listed first because many of the people using these lists will have access to or be familiar with that name rather than the botanical name. The botanical names are according to Bailey’s Hortus Second and The Standard Cyclopedia of Horticulture (3, 4). They are not the botanical names used during the colonial period for many of them have changed drastically. We have been very cautious concerning the interpretation of names to see that accuracy is maintained. By using several references spanning almost two hundred years (1, 3, 32, 35) we were able to interpret accurately the names of certain plants. For example, in the earliest works (32, 35), Lark’s Heel is used for Larkspur, also Delphinium. Then in later works the name Larkspur appears with the former in parenthesis. Similarly, the name "Emanies" appears frequently in the earliest books. Finally, one of them (35) lists the name Anemones as a synonym. Some of the names are amusing: "Issop" for Hyssop, "Pum- pions" for Pumpkins, "Mushmillions" for Muskmellons, "Isquou- terquashes" for Squashes, "Cowslips" for Primroses, "Daffadown dillies" for Daffodils. Other names are confusing. Bachelors Button was the name used for Gomphrena globosa, not for Centaurea cyanis as we use it today. Similarly, in the earliest literature, "Marygold" was used for Calendula. Later we begin to see "Pot Marygold" and "Calen- dula" for Calendula, and "Marygold" is reserved for Marigolds.
    [Show full text]
  • Arizona Administrative Code Between the Dates of October 1, 2020 Through December 31, 2020 (Supp
    3 A.A.C. 4 Supp. 20-4 December 31, 2020 Title 3 TITLE 3. AGRICULTURE CHAPTER 4. DEPARTMENT OF AGRICULTURE - PLANT SERVICES DIVISION The table of contents on the first page contains quick links to the referenced page numbers in this Chapter. Refer to the notes at the end of a Section to learn about the history of a rule as it was published in the Arizona Administrative Register. Sections, Parts, Exhibits, Tables or Appendices codified in this supplement. The list provided contains quick links to the updated rules. This Chapter contains rule Sections that were filed to be codified in the Arizona Administrative Code between the dates of October 1, 2020 through December 31, 2020 (Supp. 20-4). Table 1. Fee Schedule ......................................................47 Questions about these rules? Contact: Name: Brian McGrew Address: Department of Agriculture 1688 W. Adams St. Phoenix, AZ 85007 Telephone: (602) 542-3228 Fax: (602) 542-1004 E-mail: [email protected] Website: https://agriculture.az.gov/plantsproduce/industrial- hemp-program The release of this Chapter in Supp. 20-4 replaces Supp. 20-3, 1-50 pages Please note that the Chapter you are about to replace may have rules still in effect after the publication date of this supplement. Therefore, all superseded material should be retained in a separate binder and archived for future reference. i PREFACE Under Arizona law, the Department of State, Office of the Secretary of State (Office), accepts state agency rule filings and is the publisher of Arizona rules. The Office of the Secretary of State does not interpret or enforce rules in the Administrative Code.
    [Show full text]
  • Official Journal L204
    Official Journal L 204 of the European Union ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ ★ Volume 62 English edition Legislation 2 August 2019 Contents II Non-legislative acts REGULATIONS ★ Council Implementing Regulation (EU) 2019/1292 of 31 July 2019 implementing Article 21(2) of Regulation (EU) 2016/44 concerning restrictive measures in view of the situation in Libya 1 ★ Commission Implementing Regulation (EU) 2019/1293 of 29 July 2019 amending Implementing Regulation (EU) No 577/2013 as regards the list of territories and third countries in Annex II and the model of animal health certificate for dogs, cats and ferrets set out in Annex IV (1) ........................................................................................................... 3 ★ Commission Implementing Regulation (EU) 2019/1294 of 1 August 2019 authorising the placing on the market of betaine as a novel food under Regulation (EU) 2015/2283 of the European Parliament and of the Council and amending Commission Implementing Regulation (EU) 2017/2470 (1) ........................................................................................................... 16 ★ Commission Implementing Regulation (EU) 2019/1295 of 1 August 2019 amending Implementing Regulation (EU) 2018/1469 imposing a definitive anti-dumping duty on imports of certain seamless pipes and tubes, of iron or steel, originating in Russia and Ukraine, following a partial interim review pursuant to Article 11(3) of Regulation (EU) 2016/1036 22 DECISIONS ★ Council Decision (CFSP) 2019/1296 of 31 July 2019 in support of strengthening biological safety and security in Ukraine in line with the implementation of United Nations Security Council Resolution 1540 (2004) on non-proliferation of weapons of mass destruction and their means of delivery .................................................................................................... 29 ★ Council Decision (CFSP) 2019/1297 of 31 July 2019 amending Decision (CFSP) 2016/2382 establishing a European Security and Defence College (ESDC) .............................................
    [Show full text]
  • Ex Situ Conservation Using in Vitro Methods in Some Caryophyllaceae Plant Species from the Red List of Vascular Plants in Romania
    EX SITU CONSERVATION USING IN VITRO METHODS IN SOME CARYOPHYLLACEAE PLANT SPECIES FROM THE RED LIST OF VASCULAR PLANTS IN ROMANIA IRlNA HOLOBIUC, ANCA PAUNESCU. RODICA BL~NDU The d~minlshingof the genetic resources of the plants strongly imposed the development of new conservation techniques. In vltro techniques allow the increase of the propagation rate and the obtaining of a healthy material. In the case of the endangered plant species with a reduced number of individuals. seed ster~lityand lo^. lntrapopulatlonal variability. the rn vrtro techn~ques represent the onl? vidble conservation method. The alm of our study 1s to elaborate micropropagatlon and conservation protocols for a medlum-term perlod In some Catyophyllaceae endemic specles 7 he species taken in study are Dlanthus callrzonus Schott et Kotschy. D~frnthzls tenztrfollus Schur. Cerastium transs~lvunicumSchur. Dianthus splcirl~ol~usSchur and Dianthus superbus L. ssp. alpestrls Kablik ex Celalr Key words. m vitro, conservation, endemic Catyophyllaceae. INTRODUCTION The drastical reduction of the number of plant species from the entire world became the most important concern of botanists and ecologists. While not all rare plants are endangered, the most endangered plants are almost always rare. The factors that determine the rarity are mainly the anthropic activities and randomic environmental events (the climate changes, the loss of seeds, and the failure of the pollination). From about 12.000 plant species in Europe, over 2000 have been considered rare or endangered (3). In Romania, Bo~caiuet al. (3) specified 608 taxons with different degrees of vulnerability belonging to different lUCN categories (1 7.6% from the total number of species).
    [Show full text]