DOCSLIB.ORG

Vegetative Propagation of Houseplants Propagation Procedure List

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Vegetative Propagation of Houseplants Propagation Procedure List Vegetative Propagation of Houseplants Propagation Procedure List The following list contains the vegetative propagation procedures for some of the more common foliage plants. Key D – division A – stem E – Specialized structures B – leaf cuttings F – air layering C – leaf-bud cuttings Genus & Species Common Name Procedure Abutilon x hybridum Flowering Maple A Aeschynanthus javanicus Lipstick Vine A Aglaonema spp. Chinese Evergreen A,D Aloe spp. Aloe, Medicine Plant D Anthurium andraeanum album Anthurium Lily A,D Aphelandra squarrosa Zebra Plant A,F Ardisia crispa Ardissia A Asparagus sprengeri Asparagus Fern D Aspidistra elatior Cast Iron Plant D Begonia (Filxous) Wax Begonia A,C Begonia (rhizomatus) Rex Begonia A,B,D Begonia (tuberous) Tuberous Begonia A,E Brassica spp. Schefflera A,C,F Bromeliads Bromeliads, Vase Plant D,E Earth Star Cacti Cactus A Chlorophytum spp. Spider Plant D,E Cissus rhombifolia Grape Ivy A,C Codiaeum Variegatum Croton A Colleus blumei Coleus A Columnea spp. Goldfish Plant A Crassula argentea Jade Plant A,B,C Dieffenbachia spp. Dumbcane A,F Dizygotheca elegantissima False Aralia A,F Dracaena spp. Dracaena, Dragon Tree, A,F Corn Plant, Ribbon Plant Epiphyllum spp. Orchid Cactus B Episica spp. Flame Violet A,B University of Illinois at Urbana-Champaign - College of Agricultural, Consumer and Environmental Sciences - United States Department of Agriculture - Local Extension Councils Cooperating. University of Illinois Extension provides equal opportunities in programs and employment. Euphorbia spp. Crown of Thorns, A Poinsettia, Pencil Tree Ficus benjamina Weeping Fig A Ficus elastica Rubber Plant A,F Gardenia jasminoides Gardenia A Gynura aurantica Velvet Plant A,C Hedera spp. English Ivy A,C Helxine soleirolii Baby Tears A Hemigraphis colorata Waffle Plant A Hoya carnosa Wax Plant A,C Kalachoe spp. Kalanchoe A,D Maranta spp. Prayer Plant D,E Monstera deliciosa Split leaf Philodendron A Nephrolepis exaltata Boston Fern A,D,E Orchid Orchid A,D Oxalis spp. Clover Plant D Pandanus veitchii Screwpine A,D Pelargonium spp. Geranium A Philodendron spp. Philodendron A,F Pilea spp. Aluminum Plant, A Artillery Plant Platycerium spp. Staghorn Fern D,E Plectranthus australis Swedish Ivy A,C Polyscias spp. Aralia A Pteris spp. Table Fern D Rhoeo spp. Three-Men-In-A-Boat A,D Saintpaulia spp. African Violet A,B,D Sansevieria spp. Snake Plant B,D Saxifraga sarmentosa Strawberry Begonia E Schlumbergera Christmas Cactus A Scindapsus spp. Devils Ivy, Pothos A,C Sedum spp. Sedum A,B,C Serrisa Foetida Serrisa A Spathiphyllum spp. Peach Lily, White Flag D Syngonium spp. Arrowhead, Nephytis A,D Tolmiea menziesii Piggy-back Plant B,E Tradescantia spp. Wandering Jew, Inch Plant A Zebrina spp. Wandering Jew, Inch Plant A University of Illinois at Urbana-Champaign - College of Agricultural, Consumer and Environmental Sciences - United States Department of Agriculture - Local Extension Councils Cooperating. University of Illinois Extension provides equal opportunities in programs and employment. Vegetative Propagation of Houseplants Cuttings Taking cuttings is the most common method of vegetative propagation. Cuttings can be made from stems, leaves, roots, parts of leaves and thick canes. Select plant parts that are insect and disease free. Stem Cuttings Stem cuttings are usually taken when the plant is actively growing in spring or summer, though you can succeed during other months too. Stem cuttings usually include a portion of the stem with some leaves, and is usually 3-6 inches long. In general, each stem cutting should have a minimum of two nodes, but not more than six. A node is where the leaf emerges. Sometimes it is a bumpy or raised area. The tip of the stem is usually selected and often gives the fastest result. However, mid or basal stem cuttings can also be used for most plants. Make a clean stem cut and remove excess leaves, allowing 2–3 to remain. If you are propagating a flowering stem, be sure to remove any flowers or seed so that the energy can be devoted to producing roots. Pre-moisten the rooting media and insert a pencil to make a planting hole. Remove any leaves that would be below the soil line, and insert cuttings 1-3 inches deep. (Exception: Some plants such as succulents, cacti, geranium (Pelargonium) and rubber plant (Ficus), should not be directly stuck into rooting media without first allowing the cut surface to air dry and heal over. During this waiting period, callous tissue forms on the cut end and helps prevent disease.) You may dip the stem cutting into a rooting hormone powder and then insert it into the rooting media. Finally, gently press the rooting media around the cutting. Mist with water. To keep humidity high, place a clear plastic bag over the pot and cutting(s). Move to bright light. Do not place in direct sunlight. How long will this take? Rooting time varies by species. Tender plants with water filled stems tend to root quickly, within a week, while others with tougher stems may take 10-14 days. Check regularly. When roots are one inch long, it is time to plant the cuttings into their individual pots. Cane Cuttings Some plants such as Dieffenbachia and Dracaena can be propagated from cane cuttings. Two- or three inch cut sections of the cane can be placed vertically or horizontally in the pre-moistened rooting media. Be sure that each cane section has at least two nodes. Vertical Stand the cane in rooting media. New leaf clumps will form at the exposed nodes and roots will form at the buried nodes. Horizontal Lay the cane horizontally, making sure that half is buried in rooting media. New leaves and shoots will form at the exposed nodes while roots will form at the buried nodes. Leaf Cuttings Leaf cuttings consist of the leaf, or the leaf blade and petiole. This type of cutting must initiate both roots and shoots and usually takes longer to develop a mature plant than a stem cutting. For plants with fleshy leaves such as jade, simply insert the leaf into the pre-moistened rooting media. For plants with thick and fleshy petioles such as African violets, insert the petiole into the pre-moistened media. Then cover with a clear plastic bag and move to bright, but indirect light. New plants will form at the base of the leaf or petiole. The old leaf can be cut away and discarded. Rex Begonia and other fibrous begonias will develop young plants from their primary leaf veins. Make a cut through the major veins and lay the entire leaf on the rooting media. Use a pin to hold the leaves in place. New plants will form at the wounds. For Sansevieria, cut the long leaf blades into 3-4 inch sections. Cutting must be properly oriented in the rooting media. To avoid a mix-up or confusion, notch the terminal edge. Then insert the cuttings, notch-end up, into the pre-moistened rooting media. When the new plant has formed, the old leaf section can be cut away and discarded. Leaf-bud Cuttings Leaf-bud cuttings consist of a leaf blade, petiole, and a portion of the stem containing a bud. This type of cutting is useful for plants that will not initiate shoots from a leaf cutting, and also allows many cuttings to be made from a small amount of plant material. University of Illinois ~ U.S. Department of Agriculture ~ Local Extension Councils Cooperating University of Illinois Extension provides equal opportunities in programs and employment. .
Load more

Recommended publications
  • Ornamental Garden Plants of the Guianas, Part 3
    ; Fig. 170. Solandra longiflora (Solanaceae). 7. Solanum Linnaeus Annual or perennial, armed or unarmed herbs, shrubs, vines or trees. Leaves alternate, simple or compound, sessile or petiolate. Inflorescence an axillary, extra-axillary or terminal raceme, cyme, corymb or panicle. Flowers regular, or sometimes irregular; calyx (4-) 5 (-10)- toothed; corolla rotate, 5 (-6)-lobed. Stamens 5, exserted; anthers united over the style, dehiscing by 2 apical pores. Fruit a 2-celled berry; seeds numerous, reniform. Key to Species 1. Trees or shrubs; stems armed with spines; leaves simple or lobed, not pinnately compound; inflorescence a raceme 1. S. macranthum 1. Vines; stems unarmed; leaves pinnately compound; inflorescence a panicle 2. S. seaforthianum 1. Solanum macranthum Dunal, Solanorum Generumque Affinium Synopsis 43 (1816). AARDAPPELBOOM (Surinam); POTATO TREE. Shrub or tree to 9 m; stems and leaves spiny, pubescent. Leaves simple, toothed or up to 10-lobed, to 40 cm. Inflorescence a 7- to 12-flowered raceme. Corolla 5- or 6-lobed, bluish-purple, to 6.3 cm wide. Range: Brazil. Grown as an ornamental in Surinam (Ostendorf, 1962). 2. Solanum seaforthianum Andrews, Botanists Repository 8(104): t.504 (1808). POTATO CREEPER. Vine to 6 m, with petiole-tendrils; stems and leaves unarmed, glabrous. Leaves pinnately compound with 3-9 leaflets, to 20 cm. Inflorescence a many- flowered panicle. Corolla 5-lobed, blue, purple or pinkish, to 5 cm wide. Range:South America. Grown as an ornamental in Surinam (Ostendorf, 1962). Sterculiaceae Monoecious, dioecious or polygamous trees and shrubs. Leaves alternate, simple to palmately compound, petiolate. Inflorescence an axillary panicle, raceme, cyme or thyrse.
    [Show full text]
  • Additions to the Flora of Panama, with Comments on Plant Collections and Information Gaps
    15 4 NOTES ON GEOGRAPHIC DISTRIBUTION Check List 15 (4): 601–627 https://doi.org/10.15560/15.4.601 Additions to the flora of Panama, with comments on plant collections and information gaps Orlando O. Ortiz1, Rodolfo Flores2, Gordon McPherson3, Juan F. Carrión4, Ernesto Campos-Pineda5, Riccardo M. Baldini6 1 Herbario PMA, Universidad de Panamá, Vía Simón Bolívar, Panama City, Panama Province, Estafeta Universitaria, Panama. 2 Programa de Maestría en Biología Vegetal, Universidad Autónoma de Chiriquí, El Cabrero, David City, Chiriquí Province, Panama. 3 Herbarium, Missouri Botanical Garden, 4500 Shaw Boulevard, St. Louis, Missouri, MO 63166-0299, USA. 4 Programa de Pós-Graduação em Botânica, Universidade Estadual de Feira de Santana, Avenida Transnordestina s/n, Novo Horizonte, 44036-900, Feira de Santana, Bahia, Brazil. 5 Smithsonian Tropical Research Institute, Luis Clement Avenue (Ancón, Tupper 401), Panama City, Panama Province, Panama. 6 Centro Studi Erbario Tropicale (FT herbarium) and Dipartimento di Biologia, Università di Firenze, Via La Pira 4, 50121, Firenze, Italy. Corresponding author: Orlando O. Ortiz, [email protected]. Abstract In the present study, we report 46 new records of vascular plants species from Panama. The species belong to the fol- lowing families: Anacardiaceae, Apocynaceae, Aquifoliaceae, Araceae, Bignoniaceae, Burseraceae, Caryocaraceae, Celastraceae, Chrysobalanaceae, Cucurbitaceae, Erythroxylaceae, Euphorbiaceae, Fabaceae, Gentianaceae, Laciste- mataceae, Lauraceae, Malpighiaceae, Malvaceae, Marattiaceae, Melastomataceae, Moraceae, Myrtaceae, Ochnaceae, Orchidaceae, Passifloraceae, Peraceae, Poaceae, Portulacaceae, Ranunculaceae, Salicaceae, Sapindaceae, Sapotaceae, Solanaceae, and Violaceae. Additionally, the status of plant collections in Panama is discussed; we focused on the areas where we identified significant information gaps regarding real assessments of plant biodiversity in the country.
    [Show full text]
  • Study of Stomata in Some Species of Alocasia and Syngonium of Family Araceae Juss
    www.ijapbc.com IJAPBC – Vol. 5(2), Apr - Jun, 2016 ISSN: 2277 - 4688 INTERNATIONAL JOURNAL OF ADVANCES IN PHARMACY, BIOLOGY AND CHEMISTRY Research Article Study of Stomata in some species of Alocasia and Syngonium of family Araceae juss. Meenakshi Vaidya S.V.K.M’s Mithibai College, Vile-Parle West, Mumbai 400056 ABSTRACT Araceae, a tropical family consisting of 109 genera and about 2,239 species. Plants are mostly herbaceous, habit rarely aquatic. Rootstock is rhizomatous or tuberous or cornous. Leaves are simple or compound, parallel or net veined. Laticifers are common. Silica bodies lacking, oxalate raphides present. Inflorescence is simple spadix with a spathe. Flowers are minute, sessile bisexual or more commonly unisexual with reduced perianth or without perianth. Stamens are six in a flower. Carpels are three, syncarpous. Ovules one - many on axile or parietal or basal or peudulous placenta. Fruit is berry. There are several genera belonging to Araceae whose taxonomic position is not clear. Stomata in Dieffenbachia, Scindapsus, Arisaema, Lysichiton and few species of Araceae stated that family is characterised by possession of 4 or more than 4 subsidiary cells in majority of its members representing the primitive status of the family within monocotyledons. So, stomatal complexes study in two genera and 11 species was undertaken in the present work to understand the taxonomic position of these members of Araceae and also to determine taxonomic utility of anatomical characters. Key words: Alocasia, Syngonium, paracytic, amphibrachyparacytic, brachyparatetracyctic, paratetracytic, cyclocytic, and brachyparacytic. INTRODUCTION Engler1 determined that if Araceae were to be Maharashtra. The details are as follows. The classified as a natural group, flower structure aloone arrangement of species is followed as recognized by was insufficient.
    [Show full text]
  • Syngonium Podophyllum1
    Fact Sheet FPS-566 October, 1999 Syngonium podophyllum1 Edward F. Gilman2 Introduction This rapidly-growing evergreen vine produces a multitude of variegated, bright green, arrow-shaped leaves on climbing and trailing stems (Fig. 1). If allowed to climb, Nephthytis develops large tropical leaves and wrist-thick stems. When kept from climbing, it quickly provides a green mat of six-inch high foliage, creating an excellent groundcover. It can become weedy, much the same as English ivy does, and will require regular trimming along the edges of the bed. It will also grow up into shrubs and look messy so it is best located in front of a shrub area, or out by itself in the landscape. General Information Scientific name: Syngonium podophyllum Pronunciation: sin-GO-nee-um poe-doe-FILL-lum Common name(s): Syngonium, Nephthytis Family: Araceae Plant type: ground cover; herbaceous USDA hardiness zones: 10B through 11 (Fig. 2) Planting month for zone 10 and 11: year round Figure 1. Syngonium. Origin: native to North America Uses: mass planting; container or above-ground planter; suitable for growing indoors; hanging basket; cascading down Description a wall Height: depends upon supporting structure Availablity: generally available in many areas within its Spread: depends upon supporting structure hardiness range Plant habit: prostrate (flat) Plant density: moderate Growth rate: fast Texture: medium 1.This document is Fact Sheet FPS-566, one of a series of the Environmental Horticulture Department, Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida. Publication date: October, 1999 Please visit the EDIS Web site at http://edis.ifas.ufl.edu.
    [Show full text]
  • Common Epiphytes and Lithophytes of BELIZE 1 Bruce K
    Common Epiphytes and Lithophytes of BELIZE 1 Bruce K. Holst, Sally Chambers, Elizabeth Gandy & Marilynn Shelley1 David Amaya, Ella Baron, Marvin Paredes, Pascual Garcia & Sayuri Tzul2 1Marie Selby Botanical Gardens, 2 Ian Anderson’s Caves Branch Botanical Garden © Marie Selby Bot. Gard. ([email protected]), Ian Anderson’s Caves Branch Bot. Gard. ([email protected]). Photos by David Amaya (DA), Ella Baron (EB), Sally Chambers (SC), Wade Coller (WC), Pascual Garcia (PG), Elizabeth Gandy (EG), Bruce Holst (BH), Elma Kay (EK), Elizabeth Mallory (EM), Jan Meerman (JM), Marvin Paredes (MP), Dan Perales (DP), Phil Nelson (PN), David Troxell (DT) Support from the Marie Selby Botanical Gardens, Ian Anderson’s Caves Branch Jungle Lodge, and many more listed in the Acknowledgments [fieldguides.fieldmuseum.org] [1179] version 1 11/2019 TABLE OF CONTENTS long the eastern slopes of the Andes and in Brazil’s Atlantic P. 1 ............. Epiphyte Overview Forest biome. In these places where conditions are favorable, epiphytes account for up to half of the total vascular plant P. 2 .............. Epiphyte Adaptive Strategies species. Worldwide, epiphytes account for nearly 10 percent P. 3 ............. Overview of major epiphytic plant families of all vascular plant species. Epiphytism (the ability to grow P. 6 .............. Lesser known epiphytic plant families as an epiphyte) has arisen many times in the plant kingdom P. 7 ............. Common epiphytic plant families and species around the world. (Pteridophytes, p. 7; Araceae, p. 9; Bromeliaceae, p. In Belize, epiphytes are represented by 34 vascular plant 11; Cactaceae, p. 15; p. Gesneriaceae, p. 17; Orchida- families which grow abundantly in many shrublands and for- ceae, p.
    [Show full text]
  • 61 Floristic and Phytogeographic Aspects of Araceae in Cerro Pirre
    FLORISTIC AND PHYTOGEOGRAPHIC ASPECTS OF ARACEAE IN CERRO PIRRE (DARIÉN, PANAMA) ORLANDO O. ORTIZ 1, MARÍA S. DE STAPF 1, 2, RICCARDO M. BALDINI 3 AND THOMAS B. CROAT 4 1Herbario PMA, Universidad de Panamá, Estafeta Universitaria, Ciudad de Panamá, Panamá. 2Departamento de Botánica, Universidad de Panamá, Estafeta Universitaria, Ciudad de Panamá, Panamá. 3Centro Studi Erbario Tropicale (FT herbarium) and Dipartimento di Biologia, Università di Firenze, Via La Pira 4, 50121, Firenze, Italy 4Missouri Botanical Garden, 4344 Shaw Blvd., St. Louis, MO 63110, USA. Correspondence author: Orlando O. Ortiz, [email protected] SUMMARY The aroid flora in Panama includes 436 described species in 26 genera, representing the richest country of Araceae in Central America. Much of the existing knowledge of the Panamanian aroids has been generated in the last 50 years, mainly due to extensive taxonomic studies and, to a lesser extent, by floristic studies. Floristic studies generated valuable information to better understand biodiversity, especially in the poorly- explored areas. For this reason, the main objective of this work is to study the floristic composition of the aroids of a botanically important region: Cerro Pirre (Darién Province). As a result, 430 specimens were Scientia, Vol. 28, N° 2 61 studied, comprising 94 species in 12 genera. The Aroid flora of Cerro Pirre is formed by species of wide geographic distribution (53%) and, to a lesser extent, endemic species (27%). Of the total species, approximately 43% are nomadic vines, 33% epiphytes, 23% terrestrial and a single species epilithic (1%). Ten new records for the flora of Cerro Pirre were recorded and one new record for Panama.
    [Show full text]
  • Light and Moisture Requirements for Selected Indoor Plants
    Light and Moisture Requirements For Selected Indoor Plants The following list includes most of the indoor plants that you will be growing. This list contains information on how large the plant will get at maturity, which light level is best for good growth, how much you should be feeding your indoor plants and how much water is required for healthy growth. The list gives the scientific name and, in parenthesis, the common name. Always try to remember a plant by its scientific name, because some plants have many common names but only one scientific name. The following descriptions define the terms used in the following material. Light Levels Low - Minimum high level of 25-foot candles, preferred level of 75- to 200-foot candles. Medium - Minimum of 75- to 100-foot candles, preferred level of 200- to 500-foot candles. High - Minimum of 200-foot candles, preferred level of 500- to 1,000-foot candles. Very High - Minimum of 1,000-foot candles, preferred level of over 1,000-foot candles. Water Requirements Dry - Does not need very much water and can stand low humidity. Moist - Requires a moderate amount of water and loves some humidity in the atmosphere. Wet -- Usually requires more water than other plants and must have high humidity in its surroundings. Fertility General Rule - One teaspoon soluble house plant fertilizer per gallon of water or follow recommendations on package. Low - No application in winter or during dormant periods. Medium - Apply every other month during winter and every month during spring and summer. High - Apply every month during winter and twice each month during the spring and summer.
    [Show full text]
  • Nursery Eligible Plant List and Inventory Software for 2003 Crop Year
    Farm and Foreign Agricultural Services Risk Management Agency August 16, 2002 INFORMATIONAL MEMORANDUM: R&D-02-036 TO: All Reinsured Companies All Risk Management Agency Field Offices All Other Interested Parties FROM: Tim B. Witt /s/ Tim B. Witt Deputy Administrator SUBJECT: Nursery Eligible Plant List and Inventory Software for 2003 Crop Year BACKGROUND: Each container grown plant on the Nursery Eligible Plant List and Plant Price Schedule (EPLPPS) is assigned one or more hardiness zones that delineate those counties in which the plant is insurable. In addition to the hardiness zone(s), the EPLPPS also designates a storage key (cold protection measures required for cold to be an insurable cause of loss) for each plant. The initial release of the 2003 EPLPPS for Alabama, Arkansas, Florida, Georgia, Kentucky, Louisiana, Mississippi, South Carolina, and Tennessee and Nursery Inventory Software incorrectly listed or omitted: 1) hardiness zones that affect insurability of 233 plants in select counties; and 2) changes to storage keys for 4 plants. ACTION: The Risk Management Agency (RMA) has revised and reissued the 2003 crop year EPLPPS and Nursery Inventory Software to reflect the correct hardiness zones and storage keys for the plants listed in the attachment to this memorandum. Insurance providers, agents, and nursery growers 1400 Independence Ave., SW $ Stop 0801$ Washington, DC 20250-0805 The Risk Management Agency Administers and Oversees All Programs Authorized Under the Federal Crop Insurance Corporation An Equal Opportunity Employer INFORMATIONAL MEMORANDUM: R&D-02-036 2 in the listed States should replace the original versions of the EPLPPS and Nursery Inventory Software with the updated versions labeled as “(Revised 08-02).” In all other States, either the original or updated versions of the Nursery Inventory Software may be used.
    [Show full text]
  • Syngonium Podophyllum (American Evergreen, Arrowhead Vine) Arrowhead Vine Is an Evergreen Vine That Grows Both Outdoor and Indoor
    Syngonium podophyllum (American Evergreen, Arrowhead Vine) Arrowhead Vine is an evergreen vine that grows both outdoor and indoor. It grows mainly in partial sun areas, in well drained soils. Grows on trees as a vine, or coud be used as a ground cover also. Landscape Information Pronounciation: sin-GO-nee-um po-do-FIL-um Plant Type: Vine Origin: Mexico, Central America, South America, Brazil Heat Zones: 9, 10, 11, 12, 13, 14, 15 Hardiness Zones: 9, 10, 11, 12, 13 Uses: Indoor, Container, Ground cover Size/Shape Growth Rate: Fast Tree Shape: Spreading Canopy Texture: Coarse Height at Maturity: 0.5 to 1 m, 1 to 1.5 m, 1.5 to 3 m, 3 to 5 m, 5 to 8 m, 8 to 15 m, 15 to 23 m, Plant Image Over 23 Syngonium podophyllum (American Evergreen, Arrowhead Vine) Botanical Description Foliage Leaf Venation: Pinnate Leaf Persistance: Evergreen Leaf Type: Simple Leaf Blade: 20 - 30 Leaf Shape: Sagittate - Arrow Leaf Margins: Entire Leaf Textures: Glossy Leaf Scent: No Fragance Color(growing season): Green, Variegated Color(changing season): Green Flower Flower Showiness: True Flower Size Range: 10 - 20 Flower Scent: No Fragance Flower Color: White Trunk Trunk Esthetic Values: Smooth, Colored Fruit Fruit Type: Berry Fruit Showiness: False Flower Image Fruit Colors: Brown, Red, Black Syngonium podophyllum (American Evergreen, Arrowhead Vine) Horticulture Management Tolerance Frost Tolerant: Yes Heat Tolerant: Yes Requirements Soil Requirements: Loam, Sand Soil Ph Requirements: Acidic, Neutral Water Requirements: Moderate Light Requirements: Full, Part, Shade Management Invasive Potential: Yes Pruning Requirement: Little needed, to develop a strong structure Diseases: Leaf Spots Edible Parts: None Pests: Mites, Scales, Aphids, Mealy-Bug Plant Propagations: Cutting, Layering, Division Leaf Image MORE IMAGES Fruit Image Bark Image.
    [Show full text]
  • Poisonous Plants His Publication Describes Typical Adverse Symptoms and Health Effects JUDITH A
    ANR Publication 8560 | April 2016 www.anrcatalog.ucanr.edu Poisonous Plants his publication describes typical adverse symptoms and health effects JUDITH A. ALSOP, Director, Tthat selected common poisonous plants and plant parts can cause in Sacramento Division California Poison Control System (retired); people. It also includes a table of poisonous plants commonly found around Clinical Professor of Medicine, VCF, the home and garden and explains how to make a plant identification file. UC Davis School of Medicine; and Plants associated with poisonings and other health problems that have been Health Sciences Clinical Professor, frequently reported throughout the state to the California Poison Control UC San Francisco School of System are listed. Plant species that can cause dermatitis Pharmacy; and JOHN F. KARLIK, Advisor, (an inflammation or swelling of the skin) or other form of Environmental Horticulture and poisoning, as reported by other reliable sources, are also included. Environmental Science, University The table in this publication lists plants alphabetically by scientific name to of California Cooperative avoid confusion that sometimes occurs with use of common names. We include Extension, Kern County common names of plants and, for most plants, the following toxicity information: the name of the toxin, which part of the plant contains the toxin, and the human body part or parts that are affected by the toxin. Note that the publication does not include all known poisonous plants that could be found in California gardens or landscapes, only those commonly found in these settings and that are toxic in some way to people. Some of the plants listed in this publication are quite toxic to animals.
    [Show full text]
  • Syngonium Podophyllum Click on Images to Enlarge
    Species information Abo ut Reso urces Hom e A B C D E F G H I J K L M N O P Q R S T U V W X Y Z Syngonium podophyllum Click on images to enlarge Family Araceae Scientific Name Syngonium podophyllum Schott Schott, H.W. (1851) Bot. Zeit. 9: 85. Type: Mexico. Common name Inflorescence. Copyright CSIRO American Evergreen; Evergreen, American Weed * Stem Vine stem diameters to 3 cm recorded. Leaves Inflorescence. Copyright CSIRO Leaves pedately compound or pedately lobed. Leaflet blades up to 30 x 11 cm, leaflet stalks usually absent. Compound leaf petioles up to 50 cm long, the winged, i.e. basal, section up to 25 cm long. Petioles produce a milky exudate when cut. Intramarginal vein usually well inside the leaflet blade margin, more so on one side than the other. Flowers Up to 8 inflorescences produced in a leaf axil. Flowers produced in a spike, male flowers on the upper part, female flowers on the lower part of the spike. Male section of the spike about 4.5 cm long, female section about 2 cm long. Spathe enveloping the inflorescence, lower part of the spathe green, upper part cream. Spathe constricted between the two zones. Stigma capitate, finely hairy. Fruit Fruit. Copyright CSIRO Fruits about 4-5 x 2-3 cm, enclosed in the lower part of the persistent spathe. Spathe pink to red, about 6-7 cm long on a stalk about 17 cm long. Seeds about 5 x 3 mm, each seed enclosed in a thin sarcotesta? The whole embryo appears to be composed of a cotyledon? Seedlings One pale sheath-like cataphyll.
    [Show full text]
  • A Revision of Syngonium (Araceae) Author(S): Thomas B
    A Revision of Syngonium (Araceae) Author(s): Thomas B. Croat Source: Annals of the Missouri Botanical Garden, Vol. 68, No. 4 (1981), pp. 565-651 Published by: Missouri Botanical Garden Press Stable URL: http://www.jstor.org/stable/2398892 Accessed: 21-04-2017 16:22 UTC JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive. We use information technology and tools to increase productivity and facilitate new forms of scholarship. For more information about JSTOR, please contact [email protected]. Your use of the JSTOR archive indicates your acceptance of the Terms & Conditions of Use, available at http://about.jstor.org/terms Missouri Botanical Garden Press is collaborating with JSTOR to digitize, preserve and extend access to Annals of the Missouri Botanical Garden This content downloaded from 192.104.39.2 on Fri, 21 Apr 2017 16:22:37 UTC All use subject to http://about.jstor.org/terms A REVISION OF SYNGONIUM (ARACEAE) THOMAS B. CROAT1' 2 ABSTRACT Thirty-three species are recognized for Syngonium in this first published revision since that of Engler and Krause in 1920. Syngonium (now including Porphyrospatha) is the only member of the tribe Syngonieae (Araceae). The genus includes 4 newly described sections, sect. Oblongatum Croat, sect. Cordatum Croat, sect. Pinnatilobum Croat, and sect. Syngonium Croat, defined by leaf mor- phology, namely by blades basically oblong, cordate, pinnately lobed, and pedately lobed, respec- tively. Eleven new species are described: S. chocoanum (Colombia: Choc6), S. dodsonianum (Ec- uador: Los Rios), S.
    [Show full text]