Dactylis Glomerata Orchardgrass

Total Page:16

File Type:pdf, Size:1020Kb

Dactylis Glomerata Orchardgrass TREATMENT OPTIONS from the book Weed Control in Natural Areas in the Western United States This does not constitute a formal recommendation. When using herbicides always read the label, and when in doubt consult your farm advisor or county agent. This is an excerpt from the book Weed Control in Natural Areas in the Western United States and is available wholesale through the UC Weed Research & Information Center (wric.ucdavis.edu) or retail through the Western Society of Weed Science (wsweedscience.org) or the California Invasive Species Council (cal-ipc.org). Dactylis glomerata Orchardgrass Family: Poaceae NON-CHEMICAL CONTROL Grazing P Prescribed burning P Mowing and cutting P can stimulate tillering, repeated mowing will suppress Tillage P may spread plant Grubbing, digging or hand pulling G non-spreading bunchgrass can be pulled CHEMICAL CONTROL The following specific use information is based on published papers and reports by researchers and land managers. Other trade names may be available, and other compounds also are labeled for this weed. Directions for use may vary between brands; see label before use. Chlorsulfuron P Clethodim E Fluazifop E Glyphosate E F; Hexazinone E only seedlings Imazapic F only suppression Imazapyr E Rimsulfuron NIA Sethoxydim E Sulfometuron NIA Sulfosulfuron NIA Organic products P* E = Excellent control, generally better than 95% * = Likely based on results of observations of G = Good control, 80-95% related species FLW = flowering F = Fair control, 50-80% NIA = No information available P = Poor control, below 50% Fa = Fall Control includes effects within the season of treatment. Sp = Spring Control is followed by best timing, if known, when efficacy is E or G. Su = Summer RECOMMENDED CITATION: DiTomaso, J.M., G.B. Kyser et al. 2013. Weed Control in Natural Areas in the Western United States. Weed Research and Information Center, University of California. 544 pp. 1 of 1 2013 .
Recommended publications
  • European Dactylis and Festuca Databases
    European Dactylis and Festuca Databases Grzegorz Żurek 1, Włodzimierz Majtkowski 2 Plant Breeding & Acclimatization Instititute, 1 – Department of Grasses, Legumes and Energy Plants, Radzików, 05-870 Błonie, POLAND 2 – National Centre for Plant Genetic Resources, Botanical Garden, 85 – 687 Bydgoszcz, POLAND Major increase in database status was the effect of ECP/GR meeting held in Lindau (Switzerland) at 2005. Now there is 24 256 records in both databases. Table 1. Changes in databases since last report Database No. of records: last update added current status Festuca 8779 3705 12484 Dactylis 8793 2979 11772 Total 17572 6684 24256 Status of both databases by INSTCODE were given in tables 2 and 3. More than 85% of all resources from Dactylis genus was taken directly from wild, while 10.5% originated more or less from commercial breeding. In genus Festuca it is little different - 68.4 and 18.1 %, respectively. As it has been previously reported, records in both databases describe number of taxa, which names were given by data donors and only minor changes (mostly according to authorities names) were added by database managers. Only few records were described by taxa name not existing in any literature source, what is probably the reason of misspelling. Status of both databases by species name were given in tables 4 and 5. MOS identification has been also performed and proposed by managers (if not specified by data donors) (tables 6 and 7). As it can be seen from percentage of given MOS categories, more than 61% of Dactylis resources is held by donor but only 46% of Festuca.
    [Show full text]
  • Plant Fact Sheet
    United States Department of Agriculture NATURAL RESOURCES CONSERVATION SERVICE Forestry Technical Note No. MT-27 April 2006 FORESTRY TECHNICAL NOTE ______________________________________________________________________ Performance Evaluations of Herbaceous Vegetation on Disturbed Forestland in Southeastern Montana Robert Logar, State Staff Forester Larry Holzworth, Plant Material Specialist Summary Information for seeding herbaceous vegetation following forestland disturbance was identified as a conservation need in southeastern Montana. The herbaceous vegetation could be used to control soil erosion, stabilize disturbed sites, manage noxious weeds and provide forage. The Fulton Ranch field evaluation planting (FEP) was established in November 1995 on a disturbed forestland site in southeastern Montana to study the adaptation, performance and use of various grass species. The site, a Ponderosa pine/Idaho fescue habitat-type, had received a light to moderate burn from a wildfire that occurred in August 1994 and was logged the following spring. Nineteen evaluation plots were established to test seventeen different accessions of grasses; two control (unseeded) plots were established. Each plot was one-quarter of an acre in size. Seeded species included ‘Sherman’ big bluegrass, ‘Latar’ orchardgrass, ‘Paiute’ orchardgrass, ‘Manska’ pubescent wheatgrass, ‘Oahe’ intermediate wheatgrass, ‘Rush’ intermediate wheatgrass, ‘Dacotah’ switchgrass, ‘Forestberg’ switchgrass, 9005308 mountain brome, ‘Regar’ meadow brome, ‘Redondo’ Arizona fescue, ‘Whitmar’ beardless wheatgrass, ‘Goldar’ bluebunch wheatgrass, M-1 Nevada bluegrass, ‘Killdeer’ sideoats grama, ‘Pierre’ sideoats grama, and ‘Pryor’ slender wheatgrass. An evaluation of several species for seeding road systems was also conducted as part of this FEP. Road surface, cut and fill slopes were seeded with ‘Luna’ pubescent wheatgrass, ‘Covar’ sheep fescue, ‘Durar’ hard fescue, ‘Critana’ thickspike wheatgrass, ‘Sodar’ streambank wheatgrass, and ‘Rosana’ western wheatgrass.
    [Show full text]
  • Habitat Indicator Species
    1 Handout 6 – Habitat Indicator Species Habitat Indicator Species The species lists below are laid out by habitats and help you to find out which habitats you are surveying – you will see that some species occur in several different habitats. Key: * Plants that are especially good indicators of that specific habitat Plants found in Norfolk’s woodland Common Name Scientific Name Alder Buckthorn Frangula alnus Aspen Populus tremula Barren Strawberry Potentilla sterilis Bird Cherry Prunus padus Black Bryony Tamus communis Bush Vetch Vicia sepium Climbing Corydalis Ceratocapnos claviculata Common Cow-wheat Melampyrum pratense Early dog violet Viola reichenbachiana Early Purple Orchid Orchis mascula * English bluebell Hyacinthoides non-scripta* * Field Maple Acer campestre* Giant Fescue Festuca gigantea * Goldilocks buttercup Ranunculus auricomus* Great Wood-rush Luzula sylvatica Greater Burnet-saxifrage Pimpinella major Greater Butterfly-orchid Platanthera chlorantha Guelder Rose Viburnum opulus Hairy Wood-rush Luzula pilosa Hairy-brome Bromopsis ramosa Hard Fern Blechnum spicant Hard Shield-fern Polystichum aculeatum * Hart's-tongue Phyllitis scolopendrium* Holly Ilex aquifolium * Hornbeam Carpinus betulus* * Midland Hawthorn Crataegus laevigata* Moschatel Adoxa moschatellina Narrow Buckler-fern Dryopteris carthusiana Opposite-leaved Golden-saxifrage Chrysosplenium oppositifolium * Pendulous Sedge Carex Pendula* Pignut Conopodium majus Polypody (all species) Polypodium vulgare (sensulato) * Primrose Primula vulgaris* 2 Handout 6 – Habitat
    [Show full text]
  • The Results of Breeding Perennial Grasses: the Evaluation of Developed Dactylis Glomerata Hybrids
    University of Kentucky UKnowledge International Grassland Congress Proceedings XXIII International Grassland Congress The Results of Breeding Perennial Grasses: The Evaluation of Developed Dactylis glomerata Hybrids Sarmite Rancane LLU Research Institute of Agriculture, Latvia P. Berzins LLU Research Institute of Agriculture, Latvia B. Jansone LLU Research Institute of Agriculture, Latvia Vija Stesele LLU Research Institute of Agriculture, Latvia I. Dzene LLU Research Institute of Agriculture, Latvia See next page for additional authors Follow this and additional works at: https://uknowledge.uky.edu/igc Part of the Plant Sciences Commons, and the Soil Science Commons This document is available at https://uknowledge.uky.edu/igc/23/4-1-3/2 The XXIII International Grassland Congress (Sustainable use of Grassland Resources for Forage Production, Biodiversity and Environmental Protection) took place in New Delhi, India from November 20 through November 24, 2015. Proceedings Editors: M. M. Roy, D. R. Malaviya, V. K. Yadav, Tejveer Singh, R. P. Sah, D. Vijay, and A. Radhakrishna Published by Range Management Society of India This Event is brought to you for free and open access by the Plant and Soil Sciences at UKnowledge. It has been accepted for inclusion in International Grassland Congress Proceedings by an authorized administrator of UKnowledge. For more information, please contact [email protected]. Presenter Information Sarmite Rancane, P. Berzins, B. Jansone, Vija Stesele, I. Dzene, and A. Jansons This event is available at UKnowledge: https://uknowledge.uky.edu/igc/23/4-1-3/2 Paper ID: 452 Theme: 4. Biodiversity, conservation and genetic improvement of range and forage species Sub-Theme: 4.1: Plant genetic resources and crop improvement The results of breeding perennial grasses: the evaluation of developed Dactylis glomerata hybrids Sarmite Rancane*, P.
    [Show full text]
  • Epilobium Hirsutum L. (Onagraceae): a New Distributional Report for Northern Haryana, India
    Journal on New Biological Reports ISSN 2319 – 1104 (Online) JNBR 5(3) 178 – 179 (2016) Published by www.researchtrend.net Epilobium hirsutum L. (Onagraceae): A New Distributional Report for Northern Haryana, India Inam Mohammed & Amarjit Singh* Guru Nanak Khalsa College, Yamuna Nagar,Haryana,India. *Corresponding author: [email protected] | Received: 24 November2016 | Accepted: 26 December 2016 | ABSTRACT The paper presents a taxon namely Epilobium hirsutum L. a showy member of Onagraceae and a Eurasian species collected and identified for the first time from district Yamuna nagar, Nothern Haryana. Key Words: Epilobium, Eurasian, Northern Haryana. INTRODUCTION The genus Epilobium L. with more than 300 specimens from Meerut region near Ganga canal. species occurs in all continents relatively at high Malik et al (2014) collected and identified this altitudes. Clarke (1879) described 12 species under species from district Saharanpur of Uttar Pradesh. the genus Epilobium from East and North- East During the survey of district Yamuna Nagar of Himalaya. Raven (1962) recognized 37 species, Haryana, authors reported three sites of this which include 13 new taxa from the Himalayan species, covering an estimated 325 km square area. region and recorded 31 taxa from India. In the 20th Collected specimens were critically examined with century Peter H. Raven (1976) has researched relevant literature and identified with the help of phylogeny and systematics of willow herbs DD herbarium and BSD herbarium Dehradun. extensively. Giri and Banerjee (1984) wrote Identified specimens have been deposited in identification and distributional note on a few herbarium of Guru Nanak Khalsa College, Yamuna species of Epilobium. In Western Himalayas E.
    [Show full text]
  • Plant Species to AVOID for Landscaping, Revegetation, and Restoration Colorado Native Plant Society Revised by the Horticulture and Restoration Committee, May, 2002
    Plant Species to AVOID for Landscaping, Revegetation, and Restoration Colorado Native Plant Society Revised by the Horticulture and Restoration Committee, May, 2002 The plants listed below are invasive exotic species which threaten or potentially threaten natural areas, agricultural lands, and gardens. This is a working list of species which have escaped from landscaping, reclamation projects, and agricultural activity. All problem plants may not be included; contact the Colorado Dept. of Agriculture for more information (see references below). Some drought resistent, well adapted exotic plants suggested for landscaping survive successfully outside cultivation. If you are unsure about introducing a new plant into your garden or reclamation/restoration plans, maintain a conservative approach. Try to research a new plant thoroughly before using it, or omit it from your plans. While there are thousands of introduced plants which pose no threats, there are some that become invasive, displacing and outcompeting native vegetation, and cost land managers time and money to deal with. If you introduce a plant and notice it becoming aggressive and invasive, remove it and report your experience to us, your county extension agent, and the grower. If you see a plant for sale that is listed on the Colorado Noxious Weed List, please report it to the CO Dept. of Ag. (Jerry Cochran, Nursery Specialist; 303.239.4153). This list will be updated periodically as new information is received. For more information, including a list of suggested native plants for horticultural use, and to contact us, please visit our website at www.conps.org. NOX NE & NRCS INV RMNP WISC CA CoNPS CD PCA UM COMMENTS COMMON NAME SCIENTIFIC NAME* (CO) GP INVASIVE EXOTIC FORBS – Often found in seed mixes or nurseries Baby's breath Gypsophila paniculata X X X X NATIVE ALTERNATIVES: Native penstemon Saponaria officinalis (Lychnis (Penstemon spp.); Rocky Mtn Beeplant (Cleome Bouncing bet, soapwort X X X X X saponaria) serrulata); Native white yarrow (Achillea lanulosa).
    [Show full text]
  • The Three-Dimensional Structure of Cocksfoot Mottle Virus at 2.7 Е
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Elsevier - Publisher Connector Available online at www.sciencedirect.com R Virology 310 (2003) 287–297 www.elsevier.com/locate/yviro The three-dimensional structure of cocksfoot mottle virus at 2.7 Å resolution Kaspars Tars,a,* Andris Zeltins,b and Lars Liljasa a Department of Cell and Molecular Biology, Uppsala University, Box 596, S751 24 Uppsala, Sweden b Biomedical Research and Study Centre, Ratsupites 1, LV 1067, Riga, Latvia Received 3 January 2003; returned to author for revision 21 January 2003; accepted 8 February 2003 Abstract Cocksfoot mottle virus is a plant virus that belongs to the genus Sobemovirus. The structure of the virus has been determined at 2.7 Å resolution. The icosahedral capsid has T ϭ 3 quasisymmetry and 180 copies of the coat protein. Except for a couple of stacked bases, the viral RNA is not visible in the electron density map. The coat protein has a jelly-roll ␤-sandwich fold and its conformation is very similar to that of other sobemoviruses and tobacco necrosis virus. The N-terminal arm of one of the three quasiequivalent subunits is partly ordered and follows the same path in the capsid as the arm in rice yellow mottle virus, another sobemovirus. In other sobemoviruses, the ordered arm follows a different path, but in both cases the arms from three subunits meet and form a similar structure at a threefold axis. A comparison of the structures and sequences of viruses in this family shows that the only conserved parts of the protein–protein interfaces are those that form binding sites for calcium ions.
    [Show full text]
  • Content of Lead and Cadmium in Aboveground Plant Organs of Grasses Growing on the Areas Adjacent to a Route of Big Traffic
    Environ Sci Pollut Res (2015) 22:978–987 DOI 10.1007/s11356-014-3634-9 REVIEW ARTICLE Content of lead and cadmium in aboveground plant organs of grasses growing on the areas adjacent to a route of big traffic K. Jankowski & A. G. Ciepiela & J. Jankowska & W. Szulc & R. Kolczarek & J. Sosnowski & B. Wiśniewska-Kadżajan & E. Malinowska & E. Radzka & W. Czeluściński & J. Deska Received: 4 September 2013 /Accepted: 19 September 2014 /Published online: 8 October 2014 # The Author(s) 2014. This article is published with open access at Springerlink.com Abstract The effect of traffic on the content of lead and selection of grassland sward in areas with a higher risk of cadmium in grass morphological parts—leaves, shoots, and heavy metals associated with dust sedimentation. inflorescences—was studied. The samples were taken on a part of the European route E30 (Siedlce by road). The follow- Keywords Heavy metals . Inflorescence . Distance from . ing plants were tested: Dactylis glomerata, Arrhenatherum Pollution source . Road . Deposition elatius,andAlopecurus pratensis. During the flowering of grasses, the plant material was collected at distances of 1, 5, 10, and 15 m from the edge of the road, on the strip of road Introduction with a length of 9 km. In the collected plant parts, the content of lead and cadmium using the atomic absorption spectrosco- Grasses are typical cover of soils adjacent to the roadway. py (AAS) method was determined. The effect of distance from They are subjected to continuous operation of stressful factors the road on the content of lead and cadmium was evaluated caused by the exploitation of the roads.
    [Show full text]
  • Poaceae: Pooideae) Based on Phylogenetic Evidence Pilar Catalán Universidad De Zaragoza, Huesca, Spain
    Aliso: A Journal of Systematic and Evolutionary Botany Volume 23 | Issue 1 Article 31 2007 A Systematic Approach to Subtribe Loliinae (Poaceae: Pooideae) Based on Phylogenetic Evidence Pilar Catalán Universidad de Zaragoza, Huesca, Spain Pedro Torrecilla Universidad Central de Venezuela, Maracay, Venezuela José A. López-Rodríguez Universidad de Zaragoza, Huesca, Spain Jochen Müller Friedrich-Schiller-Universität, Jena, Germany Clive A. Stace University of Leicester, Leicester, UK Follow this and additional works at: http://scholarship.claremont.edu/aliso Part of the Botany Commons, and the Ecology and Evolutionary Biology Commons Recommended Citation Catalán, Pilar; Torrecilla, Pedro; López-Rodríguez, José A.; Müller, Jochen; and Stace, Clive A. (2007) "A Systematic Approach to Subtribe Loliinae (Poaceae: Pooideae) Based on Phylogenetic Evidence," Aliso: A Journal of Systematic and Evolutionary Botany: Vol. 23: Iss. 1, Article 31. Available at: http://scholarship.claremont.edu/aliso/vol23/iss1/31 Aliso 23, pp. 380–405 ᭧ 2007, Rancho Santa Ana Botanic Garden A SYSTEMATIC APPROACH TO SUBTRIBE LOLIINAE (POACEAE: POOIDEAE) BASED ON PHYLOGENETIC EVIDENCE PILAR CATALA´ N,1,6 PEDRO TORRECILLA,2 JOSE´ A. LO´ PEZ-RODR´ıGUEZ,1,3 JOCHEN MU¨ LLER,4 AND CLIVE A. STACE5 1Departamento de Agricultura, Universidad de Zaragoza, Escuela Polite´cnica Superior de Huesca, Ctra. Cuarte km 1, Huesca 22071, Spain; 2Ca´tedra de Bota´nica Sistema´tica, Universidad Central de Venezuela, Avenida El Limo´n s. n., Apartado Postal 4579, 456323 Maracay, Estado de Aragua,
    [Show full text]
  • Population Biology of Intraspecific Polyploidy in Grasses
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by UNL | Libraries University of Nebraska - Lincoln DigitalCommons@University of Nebraska - Lincoln Faculty Publications in the Biological Sciences Papers in the Biological Sciences 1998 Population biology of intraspecific polyploidy in grasses Kathleen H. Keeler University of Nebraska - Lincoln, [email protected] Follow this and additional works at: https://digitalcommons.unl.edu/bioscifacpub Part of the Botany Commons, Plant Biology Commons, and the Population Biology Commons Keeler, Kathleen H., "Population biology of intraspecific polyploidy in grasses" (1998). Faculty Publications in the Biological Sciences. 296. https://digitalcommons.unl.edu/bioscifacpub/296 This Article is brought to you for free and open access by the Papers in the Biological Sciences at DigitalCommons@University of Nebraska - Lincoln. It has been accepted for inclusion in Faculty Publications in the Biological Sciences by an authorized administrator of DigitalCommons@University of Nebraska - Lincoln. Keeler in "Population Biology of Grasses" (ed., GP Cheplick), Part 1: Population Variation and Life History Patterns, chapter 7. Copyright 1998, Cambridge University Press. Used by permission. 7 Population biology of intraspecific polyploidy In grasses KATHLEEN H. KEELER Polyploidy is the duplication of an entire nuclear genome, whether diploid or higher level (Stebbins, 1971; Thompson & Lumaret, 1992) and a fre­ quent occurrence in plants. Stebbins (1971) estimated that 30-35% of flow­ ering plant species are polyploid, and that many more had a polyploid event in their evolutionary history, including all members of such important fam­ ilies as the Magnoliaceae, Salicaceae, and Ericaceae. Goldblatt (1980) esti­ mated 55%, but probably up to 75%, of monocotyledons had at least one polyploid event in their history, using the criterion that if the species has a base number higher than n=13 it is derived from a polyploid.
    [Show full text]
  • Pollen Morphology of Poaceae (Poales) in the Azores, Portugal
    See discussions, stats, and author profiles for this publication at: http://www.researchgate.net/publication/283696832 Pollen morphology of Poaceae (Poales) in the Azores, Portugal ARTICLE in GRANA · OCTOBER 2015 Impact Factor: 1.06 · DOI: 10.1080/00173134.2015.1096301 READS 33 4 AUTHORS, INCLUDING: Vania Gonçalves-Esteves Maria A. Ventura Federal University of Rio de Janeiro University of the Azores 86 PUBLICATIONS 141 CITATIONS 43 PUBLICATIONS 44 CITATIONS SEE PROFILE SEE PROFILE All in-text references underlined in blue are linked to publications on ResearchGate, Available from: Maria A. Ventura letting you access and read them immediately. Retrieved on: 10 December 2015 Grana ISSN: 0017-3134 (Print) 1651-2049 (Online) Journal homepage: http://www.tandfonline.com/loi/sgra20 Pollen morphology of Poaceae (Poales) in the Azores, Portugal Leila Nunes Morgado, Vania Gonçalves-Esteves, Roberto Resendes & Maria Anunciação Mateus Ventura To cite this article: Leila Nunes Morgado, Vania Gonçalves-Esteves, Roberto Resendes & Maria Anunciação Mateus Ventura (2015) Pollen morphology of Poaceae (Poales) in the Azores, Portugal, Grana, 54:4, 282-293, DOI: 10.1080/00173134.2015.1096301 To link to this article: http://dx.doi.org/10.1080/00173134.2015.1096301 Published online: 04 Nov 2015. Submit your article to this journal Article views: 13 View related articles View Crossmark data Full Terms & Conditions of access and use can be found at http://www.tandfonline.com/action/journalInformation?journalCode=sgra20 Download by: [b-on: Biblioteca do conhecimento
    [Show full text]
  • On the Flora of Australia
    L'IBRARY'OF THE GRAY HERBARIUM HARVARD UNIVERSITY. BOUGHT. THE FLORA OF AUSTRALIA, ITS ORIGIN, AFFINITIES, AND DISTRIBUTION; BEING AN TO THE FLORA OF TASMANIA. BY JOSEPH DALTON HOOKER, M.D., F.R.S., L.S., & G.S.; LATE BOTANIST TO THE ANTARCTIC EXPEDITION. LONDON : LOVELL REEVE, HENRIETTA STREET, COVENT GARDEN. r^/f'ORElGN&ENGLISH' <^ . 1859. i^\BOOKSELLERS^.- PR 2G 1.912 Gray Herbarium Harvard University ON THE FLORA OF AUSTRALIA ITS ORIGIN, AFFINITIES, AND DISTRIBUTION. I I / ON THE FLORA OF AUSTRALIA, ITS ORIGIN, AFFINITIES, AND DISTRIBUTION; BEIKG AN TO THE FLORA OF TASMANIA. BY JOSEPH DALTON HOOKER, M.D., F.R.S., L.S., & G.S.; LATE BOTANIST TO THE ANTARCTIC EXPEDITION. Reprinted from the JJotany of the Antarctic Expedition, Part III., Flora of Tasmania, Vol. I. LONDON : LOVELL REEVE, HENRIETTA STREET, COVENT GARDEN. 1859. PRINTED BY JOHN EDWARD TAYLOR, LITTLE QUEEN STREET, LINCOLN'S INN FIELDS. CONTENTS OF THE INTRODUCTORY ESSAY. § i. Preliminary Remarks. PAGE Sources of Information, published and unpublished, materials, collections, etc i Object of arranging them to discuss the Origin, Peculiarities, and Distribution of the Vegetation of Australia, and to regard them in relation to the views of Darwin and others, on the Creation of Species .... iii^ § 2. On the General Phenomena of Variation in the Vegetable Kingdom. All plants more or less variable ; rate, extent, and nature of variability ; differences of amount and degree in different natural groups of plants v Parallelism of features of variability in different groups of individuals (varieties, species, genera, etc.), and in wild and cultivated plants vii Variation a centrifugal force ; the tendency in the progeny of varieties being to depart further from their original types, not to revert to them viii Effects of cross-impregnation and hybridization ultimately favourable to permanence of specific character x Darwin's Theory of Natural Selection ; — its effects on variable organisms under varying conditions is to give a temporary stability to races, species, genera, etc xi § 3.
    [Show full text]