Latin Common

Total Page:16

File Type:pdf, Size:1020Kb

Latin Common Latin Common Perennials Actea pachypoda Dolls Eyes Allium tricocum Wild Leek Amsonia hubrichtii Threadleaf Bluestar Amsonia tabernaemontana Bluestar Aquilegia canadensis Columbine Arisaema dracontium Green Dragon Aruncus dioica Goats Beard Asarum canadense Native Wild Ginger Asarum europeum European Ginger Asclepias incarnata Swamp Milkweed Asclepias tuberosa Butterfly Weed Aster shortii Short's Aster Baptisia australis False Indigo Baptisia tinctoria Yellow False Indigo Callirhoe invloucrata Wine Cups Caulophyllum thalictroides Blue Cohosh Chelone glabra White Turtlehead Chelone lyonii Pink Turtlehead Chrysogonum virginianum Green and Gold Cimicifuga racemosa Snakeroot Coreopsis rosea Pink Tickseed Coreopsis verticillata Threadleaf Tickseed Crambe maritima Sea Kale Dicentra eximia Wild Bleeding Heart Echinacea purpurea Purple Cone Flower Erigeron pulchellus Robin's Plantain Eryngium yuccifolium Rattlesnake Master Eupatorium coelestinum Blue Mistflower Eupatorium maculatum Spotted Joe Pye Weed Eupatorium purpureum Purple Joe Pye Weed Eurybia divaricatus White Wood Aster Fragaria 'Scarlet Runner' Scarlet Runner Strawberry Gentiana 'Little Pink' Little Pink Gentian Geranium maculatum Wild Geranium Helianthus angustifolius Swamp Sunflower Helianthus divaricatus Woodland Sunflower Helenium flexuosum 'Tiny Dancer' Sneezeweed Heliopsis helianthoides Ox-eye Hepatica acutiloba Sharp Lobed Hepatica Heuchera americana Coral Bells Halberd-leaved Rose Hibiscus laevis Mallow Hibiscus moscheutos Rose Mallow Hydrastis canadensis Golden Seal Hydrophyllum virginianum Virginia Waterleaf Iberis sempervirens Candytuft Iris cristata Dwarf Crested Iris Iris virginica 'Shrevei' Virginia Iris Jeffersonia diphylla Twin Leaf Lavendula 'Hidcote' Lavender Liatris micrcephala Dwarf Blazing Star Liatris spicata Gayfeather Lilium superbum Turks Cap Lily Lobelia cardinalis Cardinal Flower Lobelia syphilitica Great Blue Lobelia Maianthemum canadensis Canada Mayflower Maianthemum racemosa False Solomon's Seal Manfreda virginica Virginia Aloe Marshallia grandiflora Barbara's Buttons Mertensia virginica Virginia Blue Bells Monarda bradburiana Bee Balm Monarda didyma 'Raspberry Wine' Raspberry Wine Bee Balm Monarda fistulosa Wild Bergamot Napea dioica Glade Mallow Oenothera fruticosa Sundrops Oenothera grandiflora Evening Primrose Eastern Prickly Pear Opuntia humifusa Cactus Penstemon digitalis Beard-tongue Penstemon digitalis 'Husker Red' Husker Red Beard Tongue Podophyllum peltatum Mayapple Polemonium reptans Jacob's Ladder Polygonatum biflorum Solomon's Seal Phlox caroliniana Carolina Phlox Phlox divaricata 'London Grove' Woodland Phlox Phlox maculata Wild Sweet William Phlox paniculata 'David' Garden Phlox Phlox subulata Moss Phlox Physostegia virginiana Obedient Plant Pycnanthemum flexuosum Mountain Mint Rudbeckia hirta Black Eyed Susan Rudbeckia triloba Brown Eyed Susan Sanguinaria canadensis Bloodroot Sedum ternatum Wild Stonecrop Silene carolina Wild Pink Silene virginica Fire Pink Solidago caesia Blue Stem Goldenrod Solidago flexicaulis ZigZag Goldenrod Solidago odora Fragrant Goldenrod Solidago rugosa 'fireworks' Fireworks Goldenrod Solidago speciosa Showy Goldenrod Spigelia marilandica Indian Pink Stokesia laevis Stokes Aster Stylophorum diphyllum Celandine Wood Poppy Symphyotrichum cordifolium Blue Wood Aster Symphyotrichum novae-angliae New England Aster Symphotrichum novae-belgii New York Aster Thalictrum thalictroides Meadow Rue Tiarella cordifolia Foamflower Tradescantia ohioensis Spiderwort Trillium cernuum Nodding Trillium Trillium erectum Red Trillium Trillium luteum Yellow Toad Shade Trillium recurvum Prairie Trillium Uvularia grandiflora Merry Bells Uvularia perfoliata Bellwort Vernonia glauca Tawny Ironweed Vernonia lettermanii 'Iron Butterfly' Ironweed Viola striata Striped Violet Grasses and Sedges Carex appalachica Appalachian Sedge Chasmanthium latifolium Wild Oats Carex plantagea Seersucker Sedge Eragrostis spectabalis Purple Love Grass Schizachyrium scoparium Little Blue Stem Ferns Adiantum pedatum Maiden Hair Fern Matteuccia struthiopteris Ostrich Fern Osmunda cinnamomea Cinnamon Fern Osmunda regalis var. spectabilis Royal Fern Polystichum acrostichroides Christmas Fern Aquatic Plants Acorus calamus Sweet Flag Nelumbo lutea American Lotus Nymphaea odorata Fragrant Water Lily Pontederia cordata Pickerel Weed Sarracenium flava Yellow Pitcher Plant Sarracenium purpurea Purple Pitcher Plant Thalia dialbata Powdery Alligator Flag Annuals selection of seed grown annual flowers Herbs Different species and varieties of Herbs to select Vegetables Assortment of heirloom Peppers and Tomatoes Assorted vegetables from the Bartram Farm Trees Acer rubrum Red Maple Aesculus pavia Dwarf Red Buckeye Amelanchier canadensis Serviceberry Asiminia triloba Paw Paw-Tree Betula lenta Sweet Birch Betula nigra River Birch Buxus sempervirens Historic Tree Box Carpinus caroliniana Hornbeam Celtis occidentalis Hackberry Chamaecyparis thyoides Atlantic White Cedar Chionanthus virginica Fringe Tree Cladrastis kentuckea Yellowwood Cornus florida Flowering Dogwood Franklinia alatamaha Franklin Tree Ficus carica Fig Gleditsia triacanthos Honeylocust Magnolia virginiana Sweetbay Magnolia Magnolia tripetela Umbrella Magnolia Ptelia trifoliata Wafer Ash Punica granatum Pomegranite Quercus bicolor Swamp White Oak Quercus palustrus Pin Oak Taxodium distichum Bald Cypress Viburnum prunifolium Black Haw Zanthoxylum americanum Toothache Tree Shrubs Aesculus parviflora Bottlebrush Buckeye Aronia arbutifolia Red Chokeberry Aronia melanocarpa Black Chokeberry Callicarpa americana American Beauty Berry Calycanthus floridus Sweet Shrub Cephalanthus occidentalis Buttonbush Clethra alnifolia Summer Sweet Cornus amomum Silky Dogwood Cornus racemosa Grey Dogwood Cornus sericea Red-osier Dogwood Euonymous americana Strawberry Shrub Fothergilla gardenii Witch Alder Fothergilla gardenii 'Mount Airy' Witch Alder Hamamelis virginiana Witch Hazel Hydrangea arborescens Annabelle Hydrangea Hydrangea quercifolia Oakleaf Hydrangea Hypericum prolificum St Johns Wort Winterberry Holly Ilex verticillata (female) Winterberry Holly Ilex verticillata (male) Itea virginica Sweetspire Mountain Laurel Kalmia latifolia Varieties Leucothoe axillaris Leucothoe Myrica pennsylvanica Bayberry Rhododendron maximum Rosebay Rhododendron spp. R. alabmense Alabama Azalea R. arborescens Sweet Azalea R. atlanticum Coast Azalea R. canescens Piedmont Azalea R. periclymenoides Pinxterbloom Azalea R. prinophylum Plum leaf Azalea R. shlippenbachii Royal Azalea R. vaseyi Pinkshell Azalea R. viscosum Swamp Azalea Rhus aromatica Fragrant Sumac Purple Flowering Rubus odorata Raspberry Spiraea latifolia Meadow-sweet Spirea tomentosa Steeple-bush Vaccinium V. Bluecrop High bush V. corymbosum Highbush Blueberry V. corymbosum 'Duke' Early Season Fruiting V. corymbosum 'Rubel' Mid Season fruiting Vaccinium 'Jersey' Highbush Blueberry Viburnum dentatum Southern Arrowwood Yucca filamentosa 'Hairy' Hairy Adam's Needle Zenobia pulverulenta Dusty Zenobia Vines Campsis radicans Trumpet Vine Clematis virginiana Clematis Gelsemium sempervirens Carolina Jessamine Lonicera sempervirens Honeysuckle Wisteria frutescens American Wisteria Rose Species and Varieties Rosa mundi Rosa 'Old Blush' Rosa 'Slater's Crimson'.
Recommended publications
  • Fair Use of This PDF File of Herbaceous
    Fair Use of this PDF file of Herbaceous Perennials Production: A Guide from Propagation to Marketing, NRAES-93 By Leonard P. Perry Published by NRAES, July 1998 This PDF file is for viewing only. If a paper copy is needed, we encourage you to purchase a copy as described below. Be aware that practices, recommendations, and economic data may have changed since this book was published. Text can be copied. The book, authors, and NRAES should be acknowledged. Here is a sample acknowledgement: ----From Herbaceous Perennials Production: A Guide from Propagation to Marketing, NRAES- 93, by Leonard P. Perry, and published by NRAES (1998).---- No use of the PDF should diminish the marketability of the printed version. This PDF should not be used to make copies of the book for sale or distribution. If you have questions about fair use of this PDF, contact NRAES. Purchasing the Book You can purchase printed copies on NRAES’ secure web site, www.nraes.org, or by calling (607) 255-7654. Quantity discounts are available. NRAES PO Box 4557 Ithaca, NY 14852-4557 Phone: (607) 255-7654 Fax: (607) 254-8770 Email: [email protected] Web: www.nraes.org More information on NRAES is included at the end of this PDF. Acknowledgments This publication is an update and expansion of the 1987 Cornell Guidelines on Perennial Production. Informa- tion in chapter 3 was adapted from a presentation given in March 1996 by John Bartok, professor emeritus of agricultural engineering at the University of Connecticut, at the Connecticut Perennials Shortcourse, and from articles in the Connecticut Greenhouse Newsletter, a publication put out by the Department of Plant Science at the University of Connecticut.
    [Show full text]
  • The American Mayapple and Its Potential for Podophyllotoxin Production*
    Reprinted from: Trends in new crops and new uses. 2002. J. Janick and A. Whipkey (eds.). ASHS Press, Alexandria, VA. The American Mayapple and its Potential for Podophyllotoxin Production* Rita M. Moraes, Hemant Lata, Ebru Bedir, Muhammad Maqbool, and Kent Cushman INTRODUCTION Podophyllotoxin is the starting material for the semi-synthesis of the anti-cancer drugs etoposide, teniposide and etopophos. These compounds have been used for the treatment of lung and testicular cancers as well as certain leukemias. It is also the precursor to a new derivative CPH 82 that is being tested for rheumatoid arthritis in Europe, and it is the precursor to other derivatives used for the treatment of psoriasis and malaria. Several podophyllotoxin preparations are on the market for dermatological use to treat genital warts. Since the total synthesis of podophyllotoxin is an expensive process, availability of the compound from natural re- newable resources is an important issue for pharmaceutical companies that manufacture these drugs. Currently, the commercial source of podophyllotoxin is the rhizomes and roots of Podophyllum emodi Wall. (syn. P. hexandrum Royle), Berberidaceae, an endangered species from the Himalayas. In recent stud- ies, we concluded that the leaf blades of the North American mayapple (P. peltatum L.) may serve as an alter- native source of podophyllotoxin production. Since leaves are renewable organs that store lignans as glucopyranosides, podophyllotoxin can be obtained by conversion of podophyllotoxin 4-O-β-D-glucopyranoside into the aglycone using our buffer extraction procedure. This extraction procedure of P. peltatum leaves yields podophyllotoxin in amounts similar to the ethanol extraction of P.
    [Show full text]
  • Berberine: Botanical Occurrence, Traditional Uses, Extraction Methods, and Relevance in Cardiovascular, Metabolic, Hepatic, and Renal Disorders
    REVIEW published: 21 August 2018 doi: 10.3389/fphar.2018.00557 Berberine: Botanical Occurrence, Traditional Uses, Extraction Methods, and Relevance in Cardiovascular, Metabolic, Hepatic, and Renal Disorders Maria A. Neag 1, Andrei Mocan 2*, Javier Echeverría 3, Raluca M. Pop 1, Corina I. Bocsan 1, Gianina Cri¸san 2 and Anca D. Buzoianu 1 1 Department of Pharmacology, Toxicology and Clinical Pharmacology, “Iuliu Hatieganu” University of Medicine and Pharmacy, Cluj-Napoca, Romania, 2 Department of Pharmaceutical Botany, “Iuliu Hatieganu” University of Medicine and Pharmacy, Cluj-Napoca, Romania, 3 Department of Environmental Sciences, Universidad de Santiago de Chile, Santiago de Chile, Chile Edited by: Berberine-containing plants have been traditionally used in different parts of the world for Anna Karolina Kiss, the treatment of inflammatory disorders, skin diseases, wound healing, reducing fevers, Medical University of Warsaw, Poland affections of eyes, treatment of tumors, digestive and respiratory diseases, and microbial Reviewed by: Pinarosa Avato, pathologies. The physico-chemical properties of berberine contribute to the high diversity Università degli Studi di Bari Aldo of extraction and detection methods. Considering its particularities this review describes Moro, Italy various methods mentioned in the literature so far with reference to the most important Sylwia Zielinska, Wroclaw Medical University, Poland factors influencing berberine extraction. Further, the common separation and detection *Correspondence: methods like thin layer chromatography, high performance liquid chromatography, and Andrei Mocan mass spectrometry are discussed in order to give a complex overview of the existing [email protected] methods. Additionally, many clinical and experimental studies suggest that berberine Specialty section: has several pharmacological properties, such as immunomodulatory, antioxidative, This article was submitted to cardioprotective, hepatoprotective, and renoprotective effects.
    [Show full text]
  • Reproductive Biology of the Rare Plant, Dysosma Pleiantha (Berberidaceae): Breeding System, Pollination and Implications for Conservation
    Pak. J. Bot ., 47(3): 951-957, 2015. REPRODUCTIVE BIOLOGY OF THE RARE PLANT, DYSOSMA PLEIANTHA (BERBERIDACEAE): BREEDING SYSTEM, POLLINATION AND IMPLICATIONS FOR CONSERVATION XI GONG 1, BI-CAI GUAN 2, *, SHI-LIANG ZHOU 3 AND GANG GE 2 1State Key Laboratory of Food Science and Technology, College of Life Science and Food engineering, Nanchang University, Nanchang 330047, China 2Jiangxi Key Laboratory of Plant Resources, Nanchang University, Nanchang 330031, China. 3State Key Laboratory of Systematic and Evolutionary Botany, Institute of Botany, Chinese Academy of Sciences, Beijing 100093, China. *Corresponding author e-mail: [email protected], Tel.: +86 0791 83969530) Abstract Dysosma pleiantha is an endangered and endemic species in China. We have reported the flowering phenology, breeding system and pollinator activity of the species distributed in Tianmu Mountain (Zhejiang Province) nature reserves. Flowering occurred during the months of early April to late May, with the peak in the middle of the April, and was synchronous across all four subpopulations. The anthesis of an intact inflorescence lasted from sixteen to twenty-three days with eight to eleven days blossom of an individual flower. In D. pleiantha , the morphological development of flowers and fruit leading to the development of mature seeds takes place over a period 3–5 months from flowering. The average of pollen-ovule ratio (P/O) was 18 898.7. The pollen transfer in this species was mainly performed by flies, Hydrotaea chalcogaster (Muscidae). Controlled pollination experiments indicated D. pleiantha was obligate xenogamyous and self- incompatible, and pollination was pollinator-dependent. Controlled pollination experiments showed that the mean fruit set (%) under the natural condition (17.1%) was markedly lower than that of manual cross-pollination (75.6%).
    [Show full text]
  • Early Diverging Eudicots
    1/31/20 Berberidaceae - barberry family • widespread in temperate regions of Northern hemisphere - ArctoTertiary relict distribution • 3 native genera to Wisconsin + Berberis • small shrubs (Berberis) or herbs (rest of family). CA 3+3 CO 3+3 A 12-18 G 1 [monocarpic] Early Berberis thunbergii Diverging Japanese barberry Eudicots 1 2 Berberidaceae - barberry family Berberidaceae - barberry family Berberis thunbergii Japanese barberry • Puccinia graminis Fruits = berry Berberis vulgaris Berberis vulgaris Common barberry Common barberry • alternate host of the stem rust of wheat • alternate host of the stem rust of wheat • programs to irradicate plant in midwest • programs to irradicate plant in midwest 3 4 1 1/31/20 Berberidaceae - barberry family Berberidaceae - barberry family Caulophyllum thalictroides - Blue cohosh Jeffersonia diphylla - twinleaf • leaves 3X compound • Special concern species in Wisconsin. One species in • developing ovules break ovary wall so are Eastern North America and one species in Eastern Asia. naked seeds with fleshy blue seed coats • medicinally important for North American • Only member of the family that is 4-merous rather than 3- native Americans merous 5 6 Berberidaceae - barberry family Berberidaceae - barberry family Forms large colonies of deeply lobed, May-apple and other members of the peltate leaves whose umbrella like family are attacked by the same family aspect is emphasized as they emerge of rusts - Pucciniaceae. from the ground, slits in anthers Podophyllum peltatum Podophyllum peltatum May-apple
    [Show full text]
  • Native Plants for Wildlife Habitat and Conservation Landscaping Chesapeake Bay Watershed Acknowledgments
    U.S. Fish & Wildlife Service Native Plants for Wildlife Habitat and Conservation Landscaping Chesapeake Bay Watershed Acknowledgments Contributors: Printing was made possible through the generous funding from Adkins Arboretum; Baltimore County Department of Environmental Protection and Resource Management; Chesapeake Bay Trust; Irvine Natural Science Center; Maryland Native Plant Society; National Fish and Wildlife Foundation; The Nature Conservancy, Maryland-DC Chapter; U.S. Department of Agriculture, Natural Resource Conservation Service, Cape May Plant Materials Center; and U.S. Fish and Wildlife Service, Chesapeake Bay Field Office. Reviewers: species included in this guide were reviewed by the following authorities regarding native range, appropriateness for use in individual states, and availability in the nursery trade: Rodney Bartgis, The Nature Conservancy, West Virginia. Ashton Berdine, The Nature Conservancy, West Virginia. Chris Firestone, Bureau of Forestry, Pennsylvania Department of Conservation and Natural Resources. Chris Frye, State Botanist, Wildlife and Heritage Service, Maryland Department of Natural Resources. Mike Hollins, Sylva Native Nursery & Seed Co. William A. McAvoy, Delaware Natural Heritage Program, Delaware Department of Natural Resources and Environmental Control. Mary Pat Rowan, Landscape Architect, Maryland Native Plant Society. Rod Simmons, Maryland Native Plant Society. Alison Sterling, Wildlife Resources Section, West Virginia Department of Natural Resources. Troy Weldy, Associate Botanist, New York Natural Heritage Program, New York State Department of Environmental Conservation. Graphic Design and Layout: Laurie Hewitt, U.S. Fish and Wildlife Service, Chesapeake Bay Field Office. Special thanks to: Volunteer Carole Jelich; Christopher F. Miller, Regional Plant Materials Specialist, Natural Resource Conservation Service; and R. Harrison Weigand, Maryland Department of Natural Resources, Maryland Wildlife and Heritage Division for assistance throughout this project.
    [Show full text]
  • The Acquisition of Medicinal Plant Knowledge: a Cross-Cultural Survey
    University of Tennessee, Knoxville TRACE: Tennessee Research and Creative Exchange Masters Theses Graduate School 5-1990 The Acquisition of Medicinal Plant Knowledge: A Cross-Cultural Survey Anna Ruth Dixon University of Tennessee, Knoxville Follow this and additional works at: https://trace.tennessee.edu/utk_gradthes Part of the Anthropology Commons Recommended Citation Dixon, Anna Ruth, "The Acquisition of Medicinal Plant Knowledge: A Cross-Cultural Survey. " Master's Thesis, University of Tennessee, 1990. https://trace.tennessee.edu/utk_gradthes/4163 This Thesis is brought to you for free and open access by the Graduate School at TRACE: Tennessee Research and Creative Exchange. It has been accepted for inclusion in Masters Theses by an authorized administrator of TRACE: Tennessee Research and Creative Exchange. For more information, please contact [email protected]. To the Graduate Council: I am submitting herewith a thesis written by Anna Ruth Dixon entitled "The Acquisition of Medicinal Plant Knowledge: A Cross-Cultural Survey." I have examined the final electronic copy of this thesis for form and content and recommend that it be accepted in partial fulfillment of the requirements for the degree of Master of Arts, with a major in Anthropology. Michael H. Logan, Major Professor We have read this thesis and recommend its acceptance: Benita Howell, Jefferson Chapman Accepted for the Council: Carolyn R. Hodges Vice Provost and Dean of the Graduate School (Original signatures are on file with official studentecor r ds.) To the Graduate Council: I am submitting herewith a thesis written by Anna Ruth Dixon entitled "The Acquisition of Medicinal Plant Knowledge: a Cross-Cultural Survey." I have examined the final copy of this thesis for form and content and recommend tht it be accepted in partial fulfillment of the requirements for the degree of Master of Arts, with a major in Anthropology.
    [Show full text]
  • Common Name: TWINLEAF Scientific Name: Jeffersonia Diphylla
    Common Name: TWINLEAF Scientific Name: Jeffersonia diphylla (Linnaeus) Persoon Other Commonly Used Names: none Previously Used Scientific Names: Podophyllum diphyllum Linnaeus Family: Berberidaceae (barberry) Rarity Ranks: G5/S1 State Legal Status: Rare Federal Legal Status: none Federal Wetland Status: none Description: Perennial herb, 4 - 16 inches (10 - 40 cm) tall, with an underground stem (rhizome) that sends up 4 - 8 leaves each year and no aboveground stem. Leaves up to 7 inches (18 cm) long, with 2 spreading, wing-like leaflets that continue to enlarge after the plant flowers; waxy, blue-green above, whitish beneath, with smooth or slightly wavy edges; leaf stalks 6 - 12 inches (15 - 30) long. Flowers up to 1½ inch (1.5 - 4 cm) across, held at the top of leafless stalks; with 7 - 9 white petals and 8 white stamens (with yellow anthers) at the center of the flower. Fruit an erect, pear-shaped pod, about 1 inch (2 cm) tall, the top quarter opening back like a lid, exposing the seeds, which fall out as the pod tips over. Each seed has a fleshy, white outgrowth that attracts ants, which disperse the seeds. Similar Species: Bloodroot (Sanguinaria canadensis) leaves are waxy, blue-green, and often deeply lobed but never divided into two equal halves; the leaf stalks exude red juice if broken; its flower has 8 - 16 petals and the stamens are bright gold; the fruit pod splits along 2 vertical seams. Habitat: Moist, deciduous hardwood forests over limestone. Life History: Twinleaf reproduces sexually as well as vegetatively by branching of its rhizome. The rhizome branches produce new plants, with the older portions of the rhizome decaying away.
    [Show full text]
  • Berberis Thunbergii Japanese Barberry Berberidaceae - Barberry Family
    Early Diverging Eudicots Berberidaceae - barberry family • widespread in temperate regions of Northern hemisphere - ArctoTertiary relict distribution • 3 native genera to Wisconsin + Berberis • small shrubs (Berberis) or herbs (rest of family). CA 3+3 CO 3+3 A 12-18 G 1 [monocarpic] Berberis thunbergii Japanese barberry Berberidaceae - barberry family Berberis thunbergii Japanese barberry Fruits = berry Berberis vulgaris Common barberry • alternate host of the stem rust of wheat • programs to irradicate plant in midwest Berberidaceae - barberry family • Puccinia graminis Berberis vulgaris Common barberry • alternate host of the stem rust of wheat • programs to irradicate plant in midwest Berberidaceae - barberry family Caulophyllum thalictroides - Blue cohosh • leaves 3X compound • developing ovules break ovary wall so are naked seeds with fleshy blue seed coats • medicinally important for North American native Americans Berberidaceae - barberry family Jeffersonia diphylla - twinleaf • Special concern species in Wisconsin. One species in Eastern North America and one species in Eastern Asia. • Only member of the family that is 4-merous rather than 3- merous Berberidaceae - barberry family Forms large colonies of deeply lobed, peltate leaves whose umbrella like aspect is emphasized as they emerge from the ground, slits in anthers Podophyllum peltatum May-apple Berberidaceae - barberry family May-apple and other members of the family are attacked by the same family of rusts - Pucciniaceae. Podophyllum peltatum May-apple Berberidaceae -
    [Show full text]
  • Fraser's Thimble Farms
    Fraser’s Thimble Farm 175 Arbutus Rd. Salt Spring Island, B.C. V8K 1A3 Canada Ph/ Fax(250) 537-5788 Specializing in Native, Rare and Unusual Plants at www.thimblefarms.com Hours of Operation: Open 9am-4:30pm daily February 14th through August September through January open Tuesday through Saturday 9am-4:30pm Welcome to our 2017 catalogue. Generally, from necessity, we’re the type of people who stick to our own little world, growing our plants and minding our own business. As other gardeners are well aware, especially in spring, there’s not a lot of time for much else. With our recent water issues, we’ve had to come out of our comfort zone and focus on this huge issue. We’ve had to ask for help, primarily in the form of asking people to sign our petition. We now have over 2000 signatures between our online and physical petitions. Our topic of conversation for months has been water. We’ve been absolutely overwhelmed by your respone to our situation and it’s hard to adequately express our gratitude. We’d like to send a huge thank you to everybody for your support. It’s an ongoing issue and we’ll try to keep you updated on our facebook page. We’d especially like to thank the “Friends of Thimble Farms” for all your efforts on our behalf…we’re at a loss for words and get quite emotional just thinking about what you’ve done for us. As a result of our unusually cold winter, we’re a bit behind our winter schedule.
    [Show full text]
  • Pilgrimage 2009 Main Docfinal.Indd
    40TH ANNUAL Mertensia virginica SPRING WILDFLOWER 2009 Pilgrimage PILGRIMAGE GEORGIA April 03 - 05, 2009 BOTANICAL Rome SOCIETY Floyd County, Georgia Rome, Georgia Stylophorum Northwest Georgia is home to some of the most spectacular wild- diphyllum fl ower displays in Georgia and in fact, in the whole southeastern United States. In particular, the areas blessed with limestone derived Trillium decumbens sweet soils, such as Black's Bluff, Whitmore's Bluff, Carter's Lake, the foot of Cloudland Canyon and Pigeon Mountain, are rewarded with a suite of plants that put on a tremendous show in early spring. We will also visit other great wildfl ower displays from sites with more acidic soils, such as Little River Canyon, the upper portion of Cloudland Canyon, Pocket Recreation Area, Keown Falls and John's Mountain. And, who knows what they'll fi nd on the exploration trip to the Horn mountain "pocket" formation above the Girl's Scout Camp in northern Floyd County. In fact we will be visiting all the great early spring wildfl ower locations in northwest Georgia and northeast Alabama. All of this awaits you at the 40th Annual Spring Wildfl ower Pilgrimage in Rome. Please come and join in the fun! Pilgrimage Schedule Friday, April 3 9:30 am - 3:30 pm Cloudland Canyon State Park, led by Rich Reaves. 5:00 pm - 7:00 pm Registration and welcoming social - Trinity Methodist Church, Rome. 7:30 pm - 9:00 pm Evening presentation at Trinity Methodist Church Fellowship Hall: "Northwest Georgia - A Dendrologist’s Lure" by Ron Lance. 9:30 pm Late Registration.
    [Show full text]
  • Georgia's Natural Communities and Associated Rare Plant and Animal Species: Thumbnail Accounts
    Georgia's Natural Communities and Associated Rare Plant and Animal Species: Thumbnail Accounts Written by Linda Chafin and based on "Guide to the Natural Communities of Georgia," by Leslie Edwards, Jon Ambrose, and Katherine Kirkman, 2013, University of Georgia Press. Version of 2011 Georgia Nongame Conservation Section Wildlife Resources Division Georgia Department of Natural Resources CONTENTS BLUE RIDGE ECOREGION Upland Forests of the Blue Ridge Blue Ridge northern hardwood and boulderfield forests Blue Ridge montane oak forests Blue Ridge cove forests–fertile variant Blue Ridge cove forests–acidic variant Blue Ridge low to mid-elevation oak forests Blue Ridge pine-oak woodlands Blue Ridge ultramafic barrens and woodlands Glades, Barrens, and Rock Outcrops of the Blue Ridge Ecoregion Blue Ridge rocky summits Blue Ridge cliffs Blue Ridge mafic domes, glades, and barrens Wetlands of the Blue Ridge Ecoregion Blue Ridge mountain bogs Blue Ridge seepage wetlands Blue Ridge spray cliffs Blue Ridge floodplains and bottomlands Aquatic Environments of the Blue Ridge Ecoregion Blue Ridge springs, spring runs, and seeps Blue Ridge small streams Blue Ridge medium to large rivers CUMBERLAND PLATEAU AND RIDGE & VALLEY ECOREGIONS Upland Forests of the Cumberland Plateau and Ridge & Valley Ecoregions Cumberland Plateau and Ridge & Valley mesic forests Cumberland Plateau and Ridge & Valley dry calcareous forests Cumberland Plateau and Ridge & Valley dry oak - pine - hickory forests Cumberland Plateau and Ridge & Valley pine - oak woodlands and forests
    [Show full text]