DOCSLIB.ORG

Cherry Fire Blight

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Cherry Fire Blight ALABAMA A&M AND AUBURN UNIVERSITIES Fire Blight on Fruit Trees and Woody Ornamentals ANR-542 ire blight, caused by the bac- Fterium Erwinia amylovora, is a common and destructive dis- ease of pear, apple, quince, hawthorn, firethorn, cotoneaster, and mountain ash. Many other members of the rose plant family as well as several stone fruits are also susceptible to this disease (Table 1). The host range of the Spur blight on crabapple fire blight pathogen includes cv ‘Mary Potter’. nearly 130 plant species in 40 genera. Badly diseased trees and symptoms are often referred to shrubs are usually disfigured and as blossom blight. The blossom may even be killed by fire blight phase of fire blight affects blight. different host plants to different degrees. Fruit may be infected Symptoms by the bacterium directly through the skin or through the The term fire blight describes stem. Immature fruit are initially Severe fire blight on crabapple the blackened, burned appear- water-soaked, turning brownish- cv ‘Red Jade’. ance of damaged flowers, twigs, black and becoming mummified and foliage. Symptoms appear in as the disease progresses. These Shortly after the blossoms early spring. Blossoms first be- mummies often cling to the trees die, leaves on the same spur or come water-soaked, then wilt, for several months. shoot turn brown on apple and and finally turn brown. These most other hosts or black on Table 1. Plant Genera That Include Fire Blight Susceptible Cultivars. Common Name Scientific Name Common Name Scientific Name Apple, Crabapple Malus Jetbead Rhodotypos Apricot, Cherry, Plum Prunus Kageneckia Kageneckia Avens Geum Loquat Eriobotrya Brambles Rubus Medlar Mespilus Chokeberry Aronia Mountain Ash Sorbus Cinquefoil Potentilla Mountain Avens Dryas Cliff Rose Cowania Ninebark Physocarpus Cotoneaster Cotoneaster Osteomeles Osteomeles Cratnegomespilus Cratnegomespilus Pear Pyrus Creambush Holodiscus Pearlbush Exochorda Dichotomanthes Dichotomanthes Peraphyllum Peraphyllum Docynia Docynia Photinia Photinia False Spirea Sorbaria Quince Cydonia Firethorn Pyracantha Rose Rosa Flowering Quince Chaenomeles Serviceberry Amelanchier Goatsbeard Aruncus Spirea Spiraea Hawthorn Crataegus Stranvaesia Stranvaesia Indian Hawthorn Rhphiolepis Strawberry Fragaria Japanese Rose Kerria Toyon Heteromeles www.aces.edu pear. The stems and midribs of Soft, succulent shoots are very Control diseased leaves often turn black vulnerable to the disease. Mature A control program combining as well. As the twig and leaf apple and pear tissues are much resistant varieties, sound cultural blight phase progresses, leaves more resistant to infection than practices, sanitation, fertilization, die, curl downward, and cling to young tissues. Cultural practices and pesticides is needed to pro- the blighted twigs. Succulent favoring rapid shoot growth in- tect plants from fire blight. Culti- twigs, shoots, and water sprouts crease the plants’ susceptibility to vation and fertilization practices are easily infected. The tips of attack. These practices include se- that produce rank, succulent blighted twigs, shoots, and vere pruning, excessive nitrogen growth increase the possibility sprouts droop, producing the fertilization, and an unbalanced that the disease will develop. Do typical “shepherd’s crook.” fertility program. not cultivate pear and apple or- Leaves may be infected through Warm, moist conditions, par- chards late in the season, and do pores as well as wounds. ticularly during flowering, greatly not severely prune susceptible Cankers form at the base of increase incidence of the disease. cultivars. Regulate plant growth blighted twigs and spurs. The Blight development can occur at and apply fertilizers so that mod- bark surrounding a developing temperatures between 65° and erate shoot growth is maintained. canker first appears water- 95°F, but the 75° to 81°F range is Beginning in late winter to early soaked, then later sunken and most favorable. Temperature ex- spring and continuing through the dry. The surface of bark cover- tremes will slow development of growing season, remove all root ing the canker is usually smooth the disease. In regions with mild sprouts and suckers from trees. and sometimes has a purple winter temperatures, cankers may All diseased tissue (blighted twigs color. Reddish-brown streaks can increase in size during the fall and branches) should be re- be seen in the sapwood under and winter on trees with a sou- moved as soon as possible to the discolored, sunken bark. therly exposure. Rain is critical to slow the spread of the disease. Amber-colored discharge can the spread and development of Prune diseased wood about 12 to often be seen near blighted tis- the disease. Fire blight outbreaks 14 inches below visible cankers sues of the plant at any stage of are encouraged by warm, cloudy during the growing season, and 6 infection. weather following a rain. A to 8 inches below cankers in the humid environment promotes fall or winter months. Clean your Characteristics bacterial growth and spread. tools with a solution of isopropyl Other weather events like frost, alcohol or other disinfectant after The fire blight pathogen, high winds, and hail create Erwinia amylovora, is a rod- each cut to avoid spreading the wounds through which the bacte- bacteria. shaped bacterium that overwinters ria can enter the plant. in tissues around the edge of The first chemicals used for cankers on large branches and the control of fire blight were limbs. A gummy, amber-colored copper fungicides like copper hy- discharge oozes from cankers dur- droxide (Kocide 101 at 2 to 4 ing warm, humid weather. The pounds per 100 gallons of water discharge, which contains bacte- between silver-tip and green tip ria, is dispersed by insects or on apple and pear) and copper splashing rain to blossoms, leaves, sulfate (Tri-Basic Copper Sulfate and shoots (see drawing on next at 1⁄2 pound per 100 gallons of page). Dried bacterial discharge water on pear only). Recommen- often forms strands which are car- ded spray schedules are listed on ried by wind. the product labels. These com- pounds provide effective control Susceptibility to fire blight Typical ‘Shepherds Crook’ often depends on: (1) cultivar charac- under light to moderate disease seen at the end of fire blight- pressure but can cause fruit rus- teristics, (2) maturity of tissue, damaged shoots. The brown color and (3) weather conditions. Pear of the blighted leaves indicates that seting on some apple and pear flowers are invaded very rapidly this blighted shoot is on apple or varieties. Copper fungicides that through nectaries and pistils, crabapple. are cleared for fire blight control which are ideal sites for growth on woody ornamentals may be of the bacteria. Apple flowers phytotoxic to crabapple and are usually invaded through stig- some other plants. mas and anthers. Copper hydroxide (Kocide 2000 T/N/O at 0.75 pounds per 100 gallons of water or 1.5 2 Disease Cycle of Fire Blight Blossom and leaf blight Bacteria enter Bees carry bacteria uncuticularized to blossoms flowering parts Bacteria Primary splashed Secondary Cycle to blossoms cycles and twigs Blighting of twigs and limbs Insects pick up ooze Bacteria oozing from from edge of holdover infected cortex canker Canker at base Bacterial cells of diseased shoot teaspoons per gallon) and cop- Spray (0.5 teaspoon per gallon per sulfate pentahydrate (Phyton of water) are recommended 27 at 20 to 40 fluid ounces per every 4 to 5 days during the 100 gallons of water) will give bloom period. Begin spraying some protecation from fire blight just before the center flower in on woody ornamentals. See the the cluster opens and continue comments for streptomycin sul- applications through petal fall. fate for instructions on optimum For best results, make applica- application timing for the control tions in the late afternoon or of fire blight. Kocide 2000 will early evening because strepto- damage the foliage of crabapple mycin breaks down in sunlight. but is safe to use on Indian Aphids, leafhoppers, flies, hawthorn, loquat, hawthorn, and ants play a major role in photinia, pyracantha, and flow- spreading the bacteria from ering pear. Refer to the label of cankers to blooms and new each fungicide for additional growth in the spring. These in- directions on product use. sects should be monitored and The antibiotic streptomycin controlled with insecticides if (Agrimycin 17) will give better necessary before bloom occurs. control under higher disease The surface of this perennial fire Bees do not feed on bacterial pressure than the copper com- blight canker on the main trunk of ooze but will spread the disease pounds, and does not cause fruit pear is cracked and dry. Note the from infected to noninfected russeting. When using these dead branch stub in the center of blossoms during pollination. products, start spraying as soon the canker. Insecticides used during bloom as bloom begins because strep- will kill the bees, but pollination tomycin is ineffective against fire will also be prevented, greatly blight once infection occurs. reducing fruit set. Protective sprays of Agrimycin Many popular trees and 17 at 100 ppm (8 ounces of for- shrubs are resistant to fire blight. mulated product per 100 gallons Establishment of disease-resistant of water or 1 tablespoon per 21⁄2 plants is an inexpensive, easy, gallons of water) or Fireblight 3 and effective means of control- Resistant firethorn cultivars ling fire blight without the need include Pyracantha coccinea cv. for chemical treatments. Some Sensation, P. koidzumii cv. Santa shrubs and small trees resistant Cruz Prostrata, and hybrids San to fire blight are listed in Table Jose and Shawnee. The firethorn 2. Refer to Table 3 for reaction cultivars Apache, Fire Cascade, of some apple and pear varieties Mohane, Navaho, Pueblo, to fire blight. Rutgers, Shawnee, and Titon are The reaction of selected resistant to both fire blight and crabapple and flowering pear scab. Cotoneaster selections re- Note the reddish-brown discol- cultivars to fire blight is listed in sistant to fire blight include C.
Load more

Recommended publications
  • Draft Final Report
    Draft Saddle Mountain Open Space Preserve Management Plan Initial Study and Proposed Mitigated Negative Declaration Prepared for: Sonoma County Agricultural Preservation and Open Space District 747 Mendocino Avenue Santa Rosa, CA 95401 Prepared by: Prunuske Chatham, Inc. 400 Morris St., Suite G Sebastopol, CA 95472 March 2019 This page is intentionally blank. Sonoma County Agricultural Preservation and Open Space District March 2019 Saddle Mountain Open Space Preserve Management Plan Initial Study/Proposed Mitigated Negative Declaration Table of Contents Page 1 Project Information ................................................................................................................................ 1 1.1 Introduction................................................................................................................................... 2 1.2 California Environmental Quality Act Requirements .................................................................... 3 1.2.1 Public and Agency Review ................................................................................................. 3 2 Project Description ................................................................................................................................. 4 2.1 Project Location and Setting ......................................................................................................... 4 2.2 Project Goals and Objectives ......................................................................................................... 4
    [Show full text]
  • Artemisia Californica Less
    I. SPECIES Artemisia californica Less. [Updated 2017] NRCS CODE: Subtribe: Artemisiinae ARCA11 Tribe: Anthemideae (FEIS CODE: Family: Asteraceae ARCAL) Order: Asterales Subclass: Asteridae Class: Magnoliopsida flowering heads spring growth seedling, March 2009 juvenile plant photos A. Montalvo flowering plant, November 2005 mature plant with flower buds August 2010 A. Subspecific taxa None. Artemisia californica Less. var. insularis (Rydb.) Munz is now recognized as Artemisia nesiotica P.H. Raven (Jepson eFlora 2017). B. Synonyms Artemisia abrotanoides Nuttall; A. fischeriana Besser; A. foliosa Nuttall; Crossostephium californicum (Lessing) Rydberg (FNA 2017). C. Common name California sagebrush. The common name refers to its strong, sage-like aroma and endemism to California and Baja California. Other names include: coastal sage, coast sage, coast sagebrush (Painter 2016). D. Taxonomic relationships The FNA (2017) places this species in subgenus Artemisia . The molecular phylogeny of the genus has improved the understanding of relationships among the many species of Artemisia and has, at times, placed the species in subgenus Tridentadae; morphology of the inflorescences and flowers alone does not place this species with its closest relatives (Watson et al. 2002). The detailed phylogeny is not completely resolved (Hayat et al. 2009). E. Related taxa in region There are 18 species and a total of 31 taxa (including infrataxa) of Artemisia in southern California, all of which differ clearly from A. californica in habitat affinity, structure, or both (Munz 1974, Jepson eFlora 2017). Within subgenus Artemisia (as per FNA 2017), A. nesiotica from the Channel Islands is the most similar and was once considered part of A. californica ; it can be distinguished by its wider leaves with flat leaf margins (not rolled under).
    [Show full text]
  • A Study of the Pollination of the Sour Cherry, Prunus Cerasus Linnaeus
    THE S IS on A STUDY OF THE POLLINATION OF THE SOUR CHERRY PRTJNIJS ERASUS L INNAEUS Submitted to the OREGON AGRICULTURAL COLLEGE In Partial Fulfillment of the Require!rßnte For the Degree of MASTER OF SCIENCE by Loue Arrowood 1etchor May 5, 126. PRQYO: Redacted for privacy £eoc1at ProfEor of In ohare of Major Redacted for privacy 4-.----- - - - - 'j Road of Dopartnent of Redacted for privacy of Redacted for privacy atzn of comi.ttee on Graivate Study. III QNQLEDGE lIE NT The writer wishes to express hie appreciation to Dr. E. M. Harvey of the Research Division, for hie untiring help and many suggestion. which aided greatly in carrying out the following prob- leì; and to Prcfesaor C. E. Schuster, for his critciems and timely suggestions on the field work; and to Mr. R. V. Rogers of Eugene, for use of his trees; and to Professor J. S. Brown, who made this problem poasble. Iv - INDEX- Page. Title Page I Approval Sheet II Acknowledgment III Index IV List of Table. V List of Plates VI Introduction i Review of Literature 3 Methods and Materials 10 Germination Tests 12 Preliminary Survey of Work 14 Sterility Tests 15 Cross Pollination Studies 20 Dicusiion 28 Si.ary 29 Histological Studies 31 Methode and Materials A - Bud Development Studies 31 B - Pieti]. Studies 33 Methods and Materials 33 Diecuseion of Results A - Bud Development Studies 35 B - Pistil Studies 37 Swary 38 Explanation of Plates 39 Platos 42 BiblIography 47 V -LIST OF TABLES- Table No. Pag. I Germination Teats 13 II Sterility Test.
    [Show full text]
  • Phylogeny of Maleae (Rosaceae) Based on Multiple Chloroplast Regions: Implications to Genera Circumscription
    Hindawi BioMed Research International Volume 2018, Article ID 7627191, 10 pages https://doi.org/10.1155/2018/7627191 Research Article Phylogeny of Maleae (Rosaceae) Based on Multiple Chloroplast Regions: Implications to Genera Circumscription Jiahui Sun ,1,2 Shuo Shi ,1,2,3 Jinlu Li,1,4 Jing Yu,1 Ling Wang,4 Xueying Yang,5 Ling Guo ,6 and Shiliang Zhou 1,2 1 State Key Laboratory of Systematic and Evolutionary Botany, Institute of Botany, Chinese Academy of Sciences, Beijing 100093, China 2University of the Chinese Academy of Sciences, Beijing 100043, China 3College of Life Science, Hebei Normal University, Shijiazhuang 050024, China 4Te Department of Landscape Architecture, Northeast Forestry University, Harbin 150040, China 5Key Laboratory of Forensic Genetics, Institute of Forensic Science, Ministry of Public Security, Beijing 100038, China 6Beijing Botanical Garden, Beijing 100093, China Correspondence should be addressed to Ling Guo; [email protected] and Shiliang Zhou; [email protected] Received 21 September 2017; Revised 11 December 2017; Accepted 2 January 2018; Published 19 March 2018 Academic Editor: Fengjie Sun Copyright © 2018 Jiahui Sun et al. Tis is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Maleae consists of economically and ecologically important plants. However, there are considerable disputes on generic circumscription due to the lack of a reliable phylogeny at generic level. In this study, molecular phylogeny of 35 generally accepted genera in Maleae is established using 15 chloroplast regions. Gillenia isthemostbasalcladeofMaleae,followedbyKageneckia + Lindleya, Vauquelinia, and a typical radiation clade, the core Maleae, suggesting that the proposal of four subtribes is reasonable.
    [Show full text]
  • Adenostoma Fasciculatum Profile to Postv2.Xlsx
    I. SPECIES Adenostoma fasciculatum Hooker & Arnott NRCS CODE: ADFA Family: Rosaceae A. f. var. obtusifolium, Ron A. f. var. fasciculatum., Riverside Co., A. Montalvo, RCRCD Vanderhoff (Creative Order: Rosales Commons CC) Subclass: Rosidae Class: Magnoliopsida A. Subspecific taxa 1. Adenostoma fasciculatum var. fasciculatum Hook. & Arn. 1. ADFAF 2. A. f. var. obusifolium S. Watson 2. ADFAO 3. A. f. var. prostratum Dunkle 3. (no NRCS code) B. Synonyms 1. A. f. var. densifolium Eastw. 2. A. brevifolium Nutt. 3. none. Formerly included as part of A. f. var. f. C. Common name 1. chamise, common chamise, California greasewood, greasewood, chamiso (Painter 2016) 2. San Diego chamise (Calflora 2016) 3. prostrate chamise (Calflora 2016) Phylogenetic studies using molecular sequence data placedAdenostoma closest to Chamaebatiaria and D. Taxonomic relationships Sorbaria (Morgan et al. 1994, Potter et al. 2007) and suggest tentative placement in subfamily Spiraeoideae, tribe Sorbarieae (Potter et al. 2007). E. Related taxa in region Adenostoma sparsifolium Torrey, known as ribbon-wood or red-shanks is the only other species of Adenostoma in California. It is a much taller, erect to spreading shrub of chaparral vegetation, often 2–6 m tall and has a more restricted distribution than A. fasciculatum. It occurs from San Luis Obispo Co. south into Baja California. Red-shanks produces longer, linear leaves on slender long shoots rather than having leaves clustered on short shoots (lacks "fascicled" leaves). Its bark is cinnamon-colored and in papery layers that sheds in long ribbons. F. Taxonomic issues The Jepson eFlora and the FNA recognize A. f. var. prostratum but the taxon is not recognized by USDA PLANTS (2016).
    [Show full text]
  • Diseases of Trees in the Great Plains
    United States Department of Agriculture Diseases of Trees in the Great Plains Forest Rocky Mountain General Technical Service Research Station Report RMRS-GTR-335 November 2016 Bergdahl, Aaron D.; Hill, Alison, tech. coords. 2016. Diseases of trees in the Great Plains. Gen. Tech. Rep. RMRS-GTR-335. Fort Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. 229 p. Abstract Hosts, distribution, symptoms and signs, disease cycle, and management strategies are described for 84 hardwood and 32 conifer diseases in 56 chapters. Color illustrations are provided to aid in accurate diagnosis. A glossary of technical terms and indexes to hosts and pathogens also are included. Keywords: Tree diseases, forest pathology, Great Plains, forest and tree health, windbreaks. Cover photos by: James A. Walla (top left), Laurie J. Stepanek (top right), David Leatherman (middle left), Aaron D. Bergdahl (middle right), James T. Blodgett (bottom left) and Laurie J. Stepanek (bottom right). To learn more about RMRS publications or search our online titles: www.fs.fed.us/rm/publications www.treesearch.fs.fed.us/ Background This technical report provides a guide to assist arborists, landowners, woody plant pest management specialists, foresters, and plant pathologists in the diagnosis and control of tree diseases encountered in the Great Plains. It contains 56 chapters on tree diseases prepared by 27 authors, and emphasizes disease situations as observed in the 10 states of the Great Plains: Colorado, Kansas, Montana, Nebraska, New Mexico, North Dakota, Oklahoma, South Dakota, Texas, and Wyoming. The need for an updated tree disease guide for the Great Plains has been recog- nized for some time and an account of the history of this publication is provided here.
    [Show full text]
  • Transmission and Latency of Cherry Necrotic Ring Spot Virus in Prunus Tomentosa Glen Walter Peterson Iowa State College
    Iowa State University Capstones, Theses and Retrospective Theses and Dissertations Dissertations 1958 Transmission and latency of cherry necrotic ring spot virus in Prunus tomentosa Glen Walter Peterson Iowa State College Follow this and additional works at: https://lib.dr.iastate.edu/rtd Part of the Botany Commons Recommended Citation Peterson, Glen Walter, "Transmission and latency of cherry necrotic ring spot virus in Prunus tomentosa " (1958). Retrospective Theses and Dissertations. 1639. https://lib.dr.iastate.edu/rtd/1639 This Dissertation is brought to you for free and open access by the Iowa State University Capstones, Theses and Dissertations at Iowa State University Digital Repository. It has been accepted for inclusion in Retrospective Theses and Dissertations by an authorized administrator of Iowa State University Digital Repository. For more information, please contact [email protected]. TRANSMISSION AND LATENCY OF CHERRY NECROTIC RING SPOT VIRUS IN PRUNUS TOMENTOSA Glenn Walter Peterson A Dissertation Submitted to the Graduate Faculty in Partial Fulfillment of The Requirements for the Degree of DOCTOR OF PHILOSOPHY Major Subject: Plant Pathology Approved: Signature was redacted for privacy. In Charge of Major Work Signature was redacted for privacy. Head of Major Department Signature was redacted for privacy. Iowa State College 1958 il TABLE OF CONTENTS INTRODUCTION 1 REVIEW OF LITERATURE 3 MATERIALS AND METHODS 19 Virus Sources .. 19 Trees 19 Handling of Trees 21 Inoculations 22 EXPERIMENTS 24 Latency 24 Symptom expression of necrotic ring spot virus infected P. tomentosa seedlings one year after inoculation 25 Symptom expression of necrotic ring spot virus infected P. tomentosa seedlings after defoliation 32 Transmission 34 Contact periods required for the transmission of necrotic ring spot virus 35 P.
    [Show full text]
  • Flowering and Fruiting of "Burlat" Sweet Cherry on Size-Controlling Rootstock
    HORTSCIENCE 29(6):611–612. 1994. chart uses eight color chips to assess fruit color: 1 = light red to 8 = very dark, mahogany red. At the end of the growing season, all Flowering and Fruiting of ‘Burlat’ current-season’s shoot growth, >2.5 cm, was measured on each branch unit. Sweet Cherry on Size-controlling We analyzed the data as a factorial, ar- ranged in a completely randomized design, Rootstock with rootstock and age of branch portions as main effects. The least significant difference Frank Kappel was used for mean separation of main effects. Agriculture Canada, Research Station, Summerland, B.C. VOH IZO, Canada Results Jean Lichou The sample branches had similar BCSA, Ctifl, Centre de Balandran, BP 32, 30127 Bellegarde, France with the mean ranging from 3 to 3.7 cm2 for the Additional index words. Prunus avium, Prunus cerasus, Prunus mahaleb, fruit size, fruit branch units of the trees on the three root- stock. The mean for the branch units’ total numbers, dwarfing, Edabriz, Maxma 14, F12/1 shoot length ranged from 339 to 392 cm. Abstract. The effect of rootstock on the flowering and fruiting response of sweet cherries ‘Burlat’ branches on Edabriz had more (Prunus avium L.) was investigated using 4-year-old branch units. The cherry rootstock flowers than ‘Burlat’ branches on F1 2/1 or Edabriz (Prunus cerasus L.) affected the flowering and fruiting response of ‘Burlat’ sweet Maxma 14 when expressed as either total cherry compared to Maxma 14 and F12/1. Branches of trees on Edabriz had more flowers, number of flowers or number standardized by more flowers per spur, more spurs, more fruit, higher yields, smaller fruit, and a reduced shoot length (Table 1).
    [Show full text]
  • Gether with a Significant Increase in the Lag Phase Preceding Plasma Lipid Oxidation [4]
    Journal of Berry Research 6 (2016) 159–173 159 DOI:10.3233/JBR-160127 IOS Press Multi-radical (ORACMR5) antioxidant capacity of selected berries and effects of food processing R.L. Priora,∗, M. Sintarab and T. Changb aDepartment of Food Science, University of Arkansas, Searcy, AR, USA bInternational Chemical Testing, Milford, MA, USA Received 30 December 2015; accepted 12 March 2016 Abstract. BACKGROUND: Fruits and berries are known to contain relatively high amounts of antioxidant/bioactive compounds. Several methods have been used for measurement of antioxidant capacity (AC), but not all methods have direct relevance to in vivo antioxidant status. OBJECTIVE: Determine AC in berry/fruit samples, processed berry products, and purified compounds by utilizing 5 different biologically relevant free radical/oxidant sources. METHODS: Samples were assayed for AC capacity using 5 different free radical/oxidant sources: peroxyl radical (ORAC), hydroxyl radical (HORAC), peroxynitrite (NORAC), superoxide anion (SORAC) and singlet oxygen (SOAC)]. Total AC (sum of AC with 5 individual radicals) was expressed as Oxygen Radical Absorption Capacity using Multiple Radicals (ORACMR5). RESULTS: SOAC contributed more than 60% of ORACMR5 in blackberries, sweet and tart cherries; and no detectable levels of SOAC were found in strawberries, black currants and raspberries. Whole fruit purees of mango, wild blueberry and cherry contained 95, 85 and 67% respectively of total ORACMR5 from SOAC. However, freeze dried wild blueberry powder from same production season had only 28% as SOAC and 42 and 22% as ORAC and HORAC. Blueberry/Pomegranate and Mango/Pineapple smoothies had 67% and 77% of ORACMR5 as SOAC. CONCLUSIONS: The antioxidant quenching potential using 5 different radical/oxidant sources of different berries and fruits varied widely and understanding this variation may be helpful in understanding health benefits of different berries and foods.
    [Show full text]
  • Phylogenetic Inferences in Prunus (Rosaceae) Using Chloroplast Ndhf and Nuclear Ribosomal ITS Sequences 1Jun WEN* 2Scott T
    Journal of Systematics and Evolution 46 (3): 322–332 (2008) doi: 10.3724/SP.J.1002.2008.08050 (formerly Acta Phytotaxonomica Sinica) http://www.plantsystematics.com Phylogenetic inferences in Prunus (Rosaceae) using chloroplast ndhF and nuclear ribosomal ITS sequences 1Jun WEN* 2Scott T. BERGGREN 3Chung-Hee LEE 4Stefanie ICKERT-BOND 5Ting-Shuang YI 6Ki-Oug YOO 7Lei XIE 8Joey SHAW 9Dan POTTER 1(Department of Botany, National Museum of Natural History, MRC 166, Smithsonian Institution, Washington, DC 20013-7012, USA) 2(Department of Biology, Colorado State University, Fort Collins, CO 80523, USA) 3(Korean National Arboretum, 51-7 Jikdongni Soheur-eup Pocheon-si Gyeonggi-do, 487-821, Korea) 4(UA Museum of the North and Department of Biology and Wildlife, University of Alaska Fairbanks, Fairbanks, AK 99775-6960, USA) 5(Key Laboratory of Plant Biodiversity and Biogeography, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming 650204, China) 6(Division of Life Sciences, Kangwon National University, Chuncheon 200-701, Korea) 7(State Key Laboratory of Systematic and Evolutionary Botany, Institute of Botany, Chinese Academy of Sciences, Beijing 100093, China) 8(Department of Biological and Environmental Sciences, University of Tennessee, Chattanooga, TN 37403-2598, USA) 9(Department of Plant Sciences, MS 2, University of California, Davis, CA 95616, USA) Abstract Sequences of the chloroplast ndhF gene and the nuclear ribosomal ITS regions are employed to recon- struct the phylogeny of Prunus (Rosaceae), and evaluate the classification schemes of this genus. The two data sets are congruent in that the genera Prunus s.l. and Maddenia form a monophyletic group, with Maddenia nested within Prunus.
    [Show full text]
  • (Rosaceae), I. Differentiation of Mespilus and Crataegus
    Phytotaxa 257 (3): 201–229 ISSN 1179-3155 (print edition) http://www.mapress.com/j/pt/ PHYTOTAXA Copyright © 2016 Magnolia Press Article ISSN 1179-3163 (online edition) http://dx.doi.org/10.11646/phytotaxa.257.3.1 STUDIES IN MESPILUS, CRATAEGUS, AND ×CRATAEMESPILUS (ROSACEAE), I. DIFFERENTIATION OF MESPILUS AND CRATAEGUS, EXPANSION OF ×CRATAEMESPILUS, WITH SUPPLEMENTARY OBSERVATIONS ON DIFFERENCES BETWEEN THE CRATAEGUS AND AMELANCHIER CLADES JAMES B. PHIPPS Department of Biology, The University of Western Ontario, London, Ontario N6A 5B7, Canada; email: [email protected] Abstract The paper argues the position for retaining a monotypic Mespilus, i.e., in the sense of M. germanica, the medlar. Recent cladistic papers lend support for Mespilus being sister to Crataegus, and there is a clear morphological distinction from Cra- taegus, emphasized by adaptation to carnivore frugivory. Mespilus secured, the paper then treats each of the known hybrids between Mespilus and Crataegus, making the new combination Crataemespilus ×canescens (J.B. Phipps) J.B. Phipps. Keywords: Crataemespilus ×canescens (J.B. Phipps) J.B. Phipps comb. nov.; inflorescence position; medlar; Mespilus a folk-genus; Mespilus distinct from Crataegus; Rosaceae; taxonomic history of Mespilus Introduction The author has a long-standing interest in generic delimitation in the Maloid genera of the Rosaceae (Maleae Small, formerly Maloideae C. Weber, Pyrinae Dumort.), as shown particularly in a series of papers with K. Robertson, J. Rohrer, and P.G. Smith (Phipps et al. 1990, 1991; Robertson at al. 1991, 1992; Rohrer at al. 1991, 1994) which treated all 28 genera of Maleae as recognised by us. There is also a revisionary treatment of New World Heteromeles M.J.
    [Show full text]
  • Mysterious Chokeberries: New Data on the Diversity and Phylogeny of Aronia Medik. (Rosaceae)
    European Journal of Taxonomy 570: 1–14 ISSN 2118-9773 https://doi.org/10.5852/ejt.2019.570 www.europeanjournaloftaxonomy.eu 2019 · Shipunov A. et al. This work is licensed under a Creative Commons Attribution License (CC BY 4.0). Research article Mysterious chokeberries: new data on the diversity and phylogeny of Aronia Medik. (Rosaceae) Alexey SHIPUNOV 1,*, Sofia GLADKOVA 2, Polina TIMOSHINA 3, Hye Ji LEE 4, Jinhee CHOI 5, Sarah DESPIEGELAERE 5 & Bryan CONNOLLY 5 1,4,5,6 Minot State University, Biology, 500 University Ave, Minot, ND, USA. 2,3 Department of Biology, Moscow State University, Russia. 7 Framingham State University, Biology, 100 State St, Framingham, MA, USA. * Corresponding author: [email protected] 2 Email: [email protected] 3 Email: [email protected] 4 Email: [email protected] 5 Email: [email protected] 6 Email: [email protected] 7 Email: [email protected] Abstract. Aronia Medik. (chokeberry, Rosaceae) is a genus of woody shrubs with two or three North American species. Species boundaries and relationships between species of Aronia are frequently under question. The only European species in the genus, A. mitschurinii A.K.Skvortsov & Maitul., is suggested to be an inter-generic hybrid. In order to clarify the relationships between species of Aronia, we performed several morphometric and molecular analyses and found that the molecular and morphological diversity within data on American Aronia is low, and species boundaries are mostly not clearly expressed. Whereas morphology is able to separate American species from A. mitschurinii, there is no support for such discrimination from the molecular data; our analyses did not reveal evidence of A.
    [Show full text]