Achillea Filipendulina Lam., 1783

Total Page:16

File Type:pdf, Size:1020Kb

Achillea Filipendulina Lam., 1783 Achillea filipendulina Lam., 1783 Identifiants : 466/achfil Association du Potager de mes/nos Rêves (https://lepotager-demesreves.fr) Fiche réalisée par Patrick Le Ménahèze Dernière modification le 29/09/2021 Classification phylogénétique : Clade : Angiospermes ; Clade : Dicotylédones vraies ; Clade : Astéridées ; Clade : Campanulidées ; Ordre : Asterales ; Famille : Asteraceae ; Classification/taxinomie traditionnelle : Règne : Plantae ; Sous-règne : Tracheobionta ; Division : Magnoliophyta ; Classe : Magnoliopsida ; Ordre : Asterales ; Famille : Asteraceae ; Genre : Achillea ; Synonymes : Achillea eupatorium M. Bieb, Achillea filicifolia M. Bieb, Tanacetum angulatum Willd ; Nom(s) anglais, local(aux) et/ou international(aux) : Cloth of Gold Yarrow, Fernleaf yarrow , Soldier's woundwort ; Rapport de consommation et comestibilité/consommabilité inférée (partie(s) utilisable(s) et usage(s) alimentaire(s) correspondant(s)) : Rapport de consommation et comestibilité/consommabilité inférée (partie(s) utilisable(s) et usage(s) alimentaire(s) correspondant(s)) : Données et références insuffisantes et/ou manquantesµ{{{(dp*)µ. Les feuilles sont consommées crues ou cuites. Les jeunes feuilles peuvent être mises dans les salades. Attention: Il ne doit pas être consommé en grande quantité. Les fleurs et les feuilles sont utilisées pour le thé néant, inconnus ou indéterminés.néant, inconnus ou indéterminés. Illustration(s) (photographie(s) et/ou dessin(s)): Autres infos : dont infos de "FOOD PLANTS INTERNATIONAL" : Page 1/2 Statut : Il est vendu sur les marchés locaux{{{0(+x) (traduction automatique). Original : It is sold in local markets{{{0(+x). Distribution : C'est une plante tempérée{{{0(+x) (traduction automatique). Original : It is a temperate plant{{{0(+x). Localisation : Afghanistan, Asie, Caucase, Inde, Iran, Irak, Amérique du Nord, Slovénie, USA{{{0(+x) (traduction automatique). Original : Afghanistan, Asia, Caucasus, India, Iran, Iraq, North America, Slovenia, USA{{{0(+x). Notes : Les feuilles sont également utilisées comme médicament{{{0(+x) (traduction automatique). Original : The leaves are also used as medicine{{{0(+x). Liens, sources et/ou références : dont classification : "The Plant List" (en anglais) : www.theplantlist.org/tpl1.1/record/gcc-139741 ; dont livres et bases de données : 0"Food Plants International" (en anglais) ; dont biographie/références de 0"FOOD PLANTS INTERNATIONAL" : ediblewildfood.com. ; missouribotanicalgarden.org Page 2/2 Powered by TCPDF (www.tcpdf.org).
Recommended publications
  • Medicinal and Aromatic Plants of Azerbaijan – Naiba Mehtiyeva and Sevil Zeynalova
    ETHNOPHARMACOLOGY – Medicinal and Aromatic Plants of Azerbaijan – Naiba Mehtiyeva and Sevil Zeynalova MEDICINAL AND AROMATIC PLANTS OF AZERBAIJAN Naiba Mehtiyeva and Sevil Zeynalova Institute of Botany, Azerbaijan National Academy of Sciences, Badamdar sh. 40, AZ1073, Baku, Azerbaijan Keywords: Azerbaijan, medicinal plants, aromatic plants, treatments, history, biological active substances. Contents 1. Introduction 2. Historical perspective of the traditional medicine 3. Medicinal and aromatic plants of Azerbaijan 4. Preparation and applying of decoctions and infusions from medicinal plants 5. Conclusion Acknowledgement Bibliography Biographical Sketches Summary Data on the biological active substances and therapeutical properties of more than 131 medicinal and aromatic (spicy-aromatic) plants widely distributed and frequently used in Azerbaijan are given in this chapter. The majority of the described species contain flavonoids (115 sp.), vitamin C (84 sp.), fatty oils (78 sp.), tannins (77 sp.), alkaloids (74 sp.) and essential oils (73 sp.). A prevalence of these biological active substances defines the broad spectrum of therapeutic actions of the described plants. So, significant number of species possess antibacterial (69 sp.), diuretic (60 sp.), wound healing (51 sp.), styptic (46 sp.) and expectorant (45 sp.) peculiarities. The majority of the species are used in curing of gastrointestinal (89 sp.), bronchopulmonary (61 sp.), dermatovenerologic (61 sp.), nephritic (55 sp.) and infectious (52 sp.) diseases, also for treatment of festering
    [Show full text]
  • MF2327 a Perennial Flower Bed Design
    GARDEN CENTER GUIDE A PERENNIAL FLOWER BED DESIGN Perennial plants play an important function in land- the south or west side of a building or fence. The bed may scape design. They provide a broad variety of color, form be planted as designed or can be adapted to greater length and flower types unavailable in annual flowers. Bloom by repeating it as a unit. Repeating the design by planting periods for most perennials are relatively short—from its mirror image, end-to-end, will provide a delightful, two to four weeks. A well-designed perennial bed, longer flower bed. The design is intended to be a starting planted with a variety of plant species, may provide point, the plants can be changed in future years as your continuous bloom from spring through fall. The perennial appreciation and knowledge of perennial flowering plants bed described in this publication is a basic planting plan. changes. Enjoy the floral variety of perennials in your It is designed to be placed along a property line or against landscape. Figure 1. The bed is designed to be viewed from one side with a full sun exposure—minimum of 6 hours per day—moderate soil moisture. Perennial flower bed was designed by Alice LeDuc, Assistant Professor, Horticulture. Kansas State University Agricultural Experiment Station and Cooperative Extension Service Table 1. Plant List No. Plants Scientific Name Common Name Color Height Spacing 4 Coreopsis grandiflora Coreopsis Yellow 2–3' 18" 2 Perovskia atriplicifolia ‘Filigram’ Russian Sage Lavender 3–5' 30–36" 3 Paeonia ‘Shawnee Chief’
    [Show full text]
  • Open Fernleaf Yarrow Factsheet
    Fernleaf Yarrow Achillea filipendulina (AKA Soldier’s Woundwort, Nosebleed) Squamish: No action | Whistler: No action | Pemberton: No action DISTRIBUTION IDENTIFICATION Fernleaf Yarrow is a flowering herbaceous plant in the daisy family (Asteraceae). Flowers: Are long-lasting, yellow and grow in large June clusters. These large clusters are comprised of tiny rays and discs, and can measure up to 10 cm across. To Sept. Stems: Fernleaf Yarrow stems are erect, rising above the foliage to 90 - 150 cm tall. Origin: Fernleaf Yarrow is native to the Caucasus and Leaves: Are fern-like, aromatic (spicy) when Central Asia. crushed, and green. Fernleaf Yarrow leaves are Habitat: Fernleaf Yarrow is commonly found generally 5 - 20 cm long, divided into as many as flourishing in waste areas, meadows, pastures as well 15 pairs of linear-lanceolate toothed segments, and as alongside railway tracks and roads. It thrives in full feathery. They grow fairly evenly in a spiral pattern sun and can subsist in a variety of soil conditions, but prefers dry soil. along the stem. Reproduction: Fernleaf Yarrow reproduces both by Roots: Are shallow but fibrous and abundant, and seed and vegetatively, through underground they easily spread horizontally through the soil. rhizomes. Similar Species: Non-native: Common Yarrow( Achillea millefolium) Fernleaf Yarrow is taller than Common Yarrow. Updated June 2021 Sea to Sky Invasive Species Council | www.ssisc.ca | 604-698-8334 | [email protected] Vectors of Spread: Fernleaf Yarrow seeds are spread by humans and animals; root cuttings or fragments are also responsible for the plant’s vegetative spread. Lastly, since Fernleaf Yarrow is still sold in the horticultural trade, it is IMPACTS sometimes found in wildflower seed packs, sold in nurseries and planted by gardeners.
    [Show full text]
  • Composition of the Volatile Oils of Two Achillea L. (A
    Türk Tarım ve Doğa Bilimleri Dergisi 3(1): 75–78, 2016 TÜRK TURKISH TARIM ve DOĞA BİLİMLERİ JOURNAL of AGRICULTURAL DERGİSİ and NATURAL SCIENCES www.turkjans.com Composition of the Volatile Oils of Two Achillea L. (A. filipendulina Lam. and A. vermicularis Trin.) Species from East Anatolian Region (Turkey) 1Alpaslan KOÇAK*, 1A. Vecdi ÇAKICI, 2Gülden KOÇLAR 1 Bingol University, Department of Biology, Art and Science Faculty, Bingöl, Turkey 2 Bingol University, Department of Molecular Biology and Genetics, Art and Science Faculty, Bingol, Turkey ∗Corresponding author: [email protected] Received: 16.11.2015 Received in Revised Form: 19.11.2015 Accepted: 24.11.2015 Abstract In this study the essential oil composition of aerial parts of Achillea filipendulina and A. vermicularis aerial parts was analyzed. The samples of the essential oils from these two species were obtained by hydro-distillation and analyzed by GC and GC/MS. The oils of A. filipendulina and A. vermicularis yields were found as 0.2% (v/w) and 0.6% (v/w) and twenty-five and twenty-two components were identified representing 95.94% and 92.26% of the oils, respectively. The main compounds of A. filipendulina were 1,3-pentadiene (25.65%), 1,8-cineole (19.11%), endobornyl acetate (12.21%), borneol (10.39%), camphene (5.84%), and santolinatriene (4.80%) whereas 1,8-cineole (35.32%), endobornyl acetate (13.75%), piperitone (12.19%), and siloxypentane (8.42%) were found as major constituents of A. vermicularis. Key words: Achillea filipendulina, Achillea vermicularis, essential oil, GC/MS, 1,3-pentadiene, 1,8-cineole Doğu Anadolu Bölgesi’nden (Türkiye) Yetişen iki Achillea L.
    [Show full text]
  • Metabolomics Studies on Asteraceae Family Plants to Find Cytotoxic Drug Candidates †
    Abstract Metabolomics Studies on Asteraceae Family Plants to Find Cytotoxic Drug Candidates † Ekrem Murat Gonulalan 1,*, Omer Bayazeid 2, Engin Koçak 3, Emirhan Nemutlu 3, Funda N. Yalcin 2 and L. Omur Demirezer 2 1 Department of Pharmacognosy, Faculty of Pharmacy, Afyonkarahisar University of Health Sciences, 03217 Afyonkarahisar, Turkey 2 Department of Pharmacognosy, Faculty of Pharmacy, Hacettepe University, 06100 Ankara, Turkey; [email protected] (O.B.); [email protected] (F.N.Y.); [email protected] (L.O.D.) 3 Department of Analytical chemistry, Faculty of Pharmacy, Hacettepe University, 06100 Ankara, Turkey; [email protected] (E.K.); [email protected] (E.N.) * Correspondence: [email protected]; Tel.: +90-505-640-2692 † Presented at the 3rd International conference on Natural Products for Cancer Prevention and Therapy, Kayseri, Turkey, 18–20 December 2019. Published: 30 December 2019 Abstract: Cancer is one of the major causes of death globally, which involves uncontrollable growth and spread of abnormal cells. Cytotoxic plant extracts may act on various cancer cells. In this study cytotoxicity of five cultivated Asteraceae plant extracts (Echinacea purpurea L., Achillea filipendulina L., Achillea millefolium L., Tanacetum parthenium L., Silybum marianum L.) has been investigated on different cell lines. Metabolomic profiling of the plants was performed using the LC-qTOF-MS system. In vitro MTT assay applied for determine cytotoxic activity of samples on HT29 (Human colon cancer cells) and L929 (mouse fibroblast) cells. Correlation has been examined between cytotoxicity and metabolomic profile to find active seconder metabolites (r ≥ 0.60, r ≤ −0.60). Total 585 seconder metabolites have been detected for five Asteraceae plants.
    [Show full text]
  • Mauro Vicentini Correia
    UNIVERSIDADE DE SÃO PAULO INSTITUTO DE QUÍMICA Programa de Pós-Graduação em Química MAURO VICENTINI CORREIA Redes Neurais e Algoritmos Genéticos no estudo Quimiossistemático da Família Asteraceae. São Paulo Data do Depósito na SPG: 01/02/2010 MAURO VICENTINI CORREIA Redes Neurais e Algoritmos Genéticos no estudo Quimiossistemático da Família Asteraceae. Dissertação apresentada ao Instituto de Química da Universidade de São Paulo para obtenção do Título de Mestre em Química (Química Orgânica) Orientador: Prof. Dr. Vicente de Paulo Emerenciano. São Paulo 2010 Mauro Vicentini Correia Redes Neurais e Algoritmos Genéticos no estudo Quimiossistemático da Família Asteraceae. Dissertação apresentada ao Instituto de Química da Universidade de São Paulo para obtenção do Título de Mestre em Química (Química Orgânica) Aprovado em: ____________ Banca Examinadora Prof. Dr. _______________________________________________________ Instituição: _______________________________________________________ Assinatura: _______________________________________________________ Prof. Dr. _______________________________________________________ Instituição: _______________________________________________________ Assinatura: _______________________________________________________ Prof. Dr. _______________________________________________________ Instituição: _______________________________________________________ Assinatura: _______________________________________________________ DEDICATÓRIA À minha mãe, Silmara Vicentini pelo suporte e apoio em todos os momentos da minha
    [Show full text]
  • Checklist of the Vascular Plants of San Diego County 5Th Edition
    cHeckliSt of tHe vaScUlaR PlaNtS of SaN DieGo coUNty 5th edition Pinus torreyana subsp. torreyana Downingia concolor var. brevior Thermopsis californica var. semota Pogogyne abramsii Hulsea californica Cylindropuntia fosbergii Dudleya brevifolia Chorizanthe orcuttiana Astragalus deanei by Jon P. Rebman and Michael G. Simpson San Diego Natural History Museum and San Diego State University examples of checklist taxa: SPecieS SPecieS iNfRaSPecieS iNfRaSPecieS NaMe aUtHoR RaNk & NaMe aUtHoR Eriodictyon trichocalyx A. Heller var. lanatum (Brand) Jepson {SD 135251} [E. t. subsp. l. (Brand) Munz] Hairy yerba Santa SyNoNyM SyMBol foR NoN-NATIVE, NATURaliZeD PlaNt *Erodium cicutarium (L.) Aiton {SD 122398} red-Stem Filaree/StorkSbill HeRBaRiUM SPeciMeN coMMoN DocUMeNTATION NaMe SyMBol foR PlaNt Not liSteD iN THE JEPSON MANUAL †Rhus aromatica Aiton var. simplicifolia (Greene) Conquist {SD 118139} Single-leaF SkunkbruSH SyMBol foR StRict eNDeMic TO SaN DieGo coUNty §§Dudleya brevifolia (Moran) Moran {SD 130030} SHort-leaF dudleya [D. blochmaniae (Eastw.) Moran subsp. brevifolia Moran] 1B.1 S1.1 G2t1 ce SyMBol foR NeaR eNDeMic TO SaN DieGo coUNty §Nolina interrata Gentry {SD 79876} deHeSa nolina 1B.1 S2 G2 ce eNviRoNMeNTAL liStiNG SyMBol foR MiSiDeNtifieD PlaNt, Not occURRiNG iN coUNty (Note: this symbol used in appendix 1 only.) ?Cirsium brevistylum Cronq. indian tHiStle i checklist of the vascular plants of san Diego county 5th edition by Jon p. rebman and Michael g. simpson san Diego natural history Museum and san Diego state university publication of: san Diego natural history Museum san Diego, california ii Copyright © 2014 by Jon P. Rebman and Michael G. Simpson Fifth edition 2014. isBn 0-918969-08-5 Copyright © 2006 by Jon P.
    [Show full text]
  • Essential Oil Composition and Antibacterial Activity of Flowers of Achillea Filipendulina
    Available online at www.ijpsdr.com International Journal of Pharmaceutical Sciences and Drug Research 2017; 9(4): 182-186 ISSN: 0975-248X Research Article CODEN (USA): IJPSPP Essential Oil Composition and Antibacterial Activity of Flowers of Achillea filipendulina Harleen Kaur*, Sunil Kumar Bose, Anitha Vadekeetil, Geeta, Kusum Harjai, Richa Department of Botany and Department of Microbiology, Panjab University, Chandigarh, India Copyright © 2017 Harleen Kaur et al. This is an open access article distributed under the terms of the Creative Commons Attribution- NonCommercial-ShareAlike 4.0 International License which allows others to remix, tweak, and build upon the work non-commercially, as long as the author is credited and the new creations are licensed under the identical terms. ABSTRACT Achillea filipendulina is an aromatic plant of family Asteraceae with bright yellow colour flowers. The objective of the study was to extract the essential oil from the flowers of the selected plant using Clevenger apparatus, to analyse the chemical composition of the oil using GC-MS and to screen the essential oil for its antibacterial property against both gram-positive and gram-negative bacteria. GC-MS results revealed that the main chemical constituents present in the oil were trans 2,7 Dimethyl 4,6 octadien-2-ol (27.93%), borneol (21.44%) and santolina triene (7.13%). The results of agar well diffusion assay revealed that the oil showed antibacterial activity against all the tested bacteria except Pseudomonas aeruginosa. Minimum inhibitory concentration (MIC) of oil was determined against the sensitive bacteria. MIC values against Staphylococcus aureus and Escherichia coli were similar (0.312% v/v) and for Bacillus cereus, MIC value was found to be (0.156%).
    [Show full text]
  • Download This PDF File
    Cellular and Molecular Biology E-ISSN : 1165-158X / P-ISSN : 0145-5680 www.cellmolbiol.org Review Achillea spp.: A comprehensive review on its ethnobotany, phytochemistry, phytopharmacology and industrial applications Bahare Salehi1, Zeliha Selamoglu2, Mustafa Sevindik3, Nouran M. Fahmy4, Eman Al-Sayed4, Mohamed El-Shazly4,5, Boglárka Csupor-Löffler6, Dezső Csupor6, Simin Emamzadeh Yazdi7, Javad Sharifi-Rad8*, Dılhun Keriman Arserim-Uçar9, Ender Hikmet Arserim10, Natallia Karazhan11, Ali Jahani12, Abhijit Dey13, Hamed Azadi14, Somayeh Afsah Vakili15, Farukh Sharopov16, *, Natália Martins17,18*, Dietrich Büsselberg19* 1 Student Research Committee, School of Medicine, Bam University of Medical Sciences, Bam, Iran 2 Department of Medical Biology, Faculty of Medicine, Nigde Ömer Halisdemir University, Campus, 51240, Nigde, Turkey 3 Osmaniye Korkut Ata University, Bahçe Vocational School, Department of Food Processing, Osmaniye, Turkey 4 Department of Pharmacognosy, Faculty of Pharmacy, Ain-Shams University, 11566, Cairo, Egypt 5 Department of Pharmaceutical Biology, Faculty of Pharmacy and Biotechnology, German University in Cairo, Cairo 11835, Egypt 6 Department of Pharmacognosy, University of Szeged, Szeged, Hungary 7 Department of Plant and Soil Sciences, University of Pretoria, Gauteng 0002, South Africa 8 Phytochemistry Research Center, Shahid Beheshti University of Medical Sciences, Tehran, Iran 9 Food Engineering Department, Faculty of Engineering and Architecture, Bingöl University, Bingöl, Turkey 10 Department of Food Science, Rutgers
    [Show full text]
  • Checklist of Vascular Plants of the Southern Rocky Mountain Region
    Checklist of Vascular Plants of the Southern Rocky Mountain Region (VERSION 3) NEIL SNOW Herbarium Pacificum Bernice P. Bishop Museum 1525 Bernice Street Honolulu, HI 96817 [email protected] Suggested citation: Snow, N. 2009. Checklist of Vascular Plants of the Southern Rocky Mountain Region (Version 3). 316 pp. Retrievable from the Colorado Native Plant Society (http://www.conps.org/plant_lists.html). The author retains the rights irrespective of its electronic posting. Please circulate freely. 1 Snow, N. January 2009. Checklist of Vascular Plants of the Southern Rocky Mountain Region. (Version 3). Dedication To all who work on behalf of the conservation of species and ecosystems. Abbreviated Table of Contents Fern Allies and Ferns.........................................................................................................12 Gymnopserms ....................................................................................................................19 Angiosperms ......................................................................................................................21 Amaranthaceae ............................................................................................................23 Apiaceae ......................................................................................................................31 Asteraceae....................................................................................................................38 Boraginaceae ...............................................................................................................98
    [Show full text]
  • C14 Asters.Ach-Eut
    COMPOSITAE PART ONE Achillea to Eutrochium Working Draft Friday June 13th, 2015 ALPHABETICAL LIST OF PLANT MATERIALS Asteraceae Martinov formerly Compositae Adanson Asteraceae Dumortier 1822 or Compositae Giseke 1792 “As is the case, I believe, with the American Flora throughout the United States, & indeed, the whole continent, the autumnal botany of the prairies exhibits a large preponderance of the Compositae. Besides those already mentioned, we may enumerate, as of frequent occurrence, Chrysopsis mariana, Helenium autumnale, Boltonia glastifolia & B asteroides, Bidens frondosa & B chrysanthemoides, Eupatorium serotinum, E aromaticum, E ageratoides, E purpureum, &c, Cnicus glutinosus, C Virginianus, C muticus, C altissimus, &c, Silphium laciniatum, S integrifolium, S terebinthinaceum, &c, Prenanthes aspera, P virgata, P racemosa, P Uncopyrighted Draft serpentaria, &c, Vernonia fasciculata, V corymbosa, & one or two other species.” (Short 1845, Observations on the Botany of Illinois, more especially in reference to the Autumnal Flora of the Prairies.) SUNFLOWER FAMILY 1 COMPOSITAE Cichorium Achillea Cirsium Actinomeris Conoclinium Ageratina Conyza Agoseris Coreopsis Ambrosia Cosmos Anaphalis Dimorphotheca Antennaria Dracopsis Arctium Dyssodia Arnoglossum Doellingeria Artemisia Echinacea Aster Erechtites Bidens Erigeron Boltonia Eupatorium Brickellia Eurybia Cacalia Euthamia Centaurea Eutrochium Chrysanthemum Chrysopsis ASTERWORTS Every aster in my hand Goes home with a thought Emerson “A very large family of herbs, shrubs, & trees, 1500-1600 genera & 20,000-25,000 spp (formerly order Campanulales, now Asterales) considered to constitute the most highly evolved plants & characterized by florets arranged in dense heads that resemble single flowers, each floret having a gamopetalous, ligulate, or tubular corolla & a calyx modified into a pappus (as in the dandelion, sunflower, aster, & ragweed).
    [Show full text]
  • Cinnamon Basil
    Cinnamon Basil Ocimum basilicum Annual Family: Lamiaceae (lay-mee-AY-see-ee) Genus: Ocimum Species: Basilicum Cultivar: Cinnamon Water Requirements: Average Water Needs; Water regularly; do not overwater Where to Grow: This plant is suitable for growing indoors in containers Height: 24-36 in. (60-90 cm) Spacing: 15-18 in. (38-45 cm) Sun Exposure: Full Sun Bloom Color: Pink Magenta (Pink-Purple) Bloom Time: Mid Summer Late Summer/Early Fall Foliage: Aromatic Soil pH requirements: 5.6 to 6.0 (acidic) 6.1 to 6.5 (mildly acidic) 6.6 to 7.5 (neutral) Propagation Methods: From seed; sow indoors before last frost. Seed Collecting: Allow seedheads to dry on plants; remove and collect seeds Properly cleaned, seed can be successfully stored Read more: http://davesgarden.com/guides/pf/go/920/#ixzz41ZbjJwj4 Thai ‘Holy Basil’ Ocimum sanctum Perennial/Evergreen Family: Lamiaceae Genus: Ocimum Species: sanctum Synonym: Ocimum tenuiflorum Category: Herbs Water Requirements: Average Water Needs; Water regularly; do not overwater Height: 24-36 in. (60-90 cm) Spacing: 24-36 in. (60-90 cm) Hardiness: USDA Zone 10b: to 1.7 °C (35 °F) USDA Zone 11: above 4.5 °C (40 °F) Sun Exposure: Full Sun Bloom Color: Pink White/Near White Bloom Time: Blooms all year Foliage: Aromatic Soil pH requirements: 6.1 to 6.5 (mildly acidic) 6.6 to 7.5 (neutral) Propagation Methods: From seed; sow indoors before last frost Seed Collecting: Collect seedhead/pod when flowers fade; allow to dry Read more: http://davesgarden.com/guides/pf/go/930/#ixzz41ZhxD2G1 Lemon Basil Ocimum basilicum Perenial / Herbs Family: Lamiaceae Genus: Ocimum Family: basilicum Water Requirements: Average Water Needs; Water regularly; do not overwater Height: 18-24 in.
    [Show full text]