DOCSLIB.ORG

Wild Goose Plum Prunus Hortulana ILLINOIS RANGE Tree in Flower

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Wild Goose Plum Prunus Hortulana ILLINOIS RANGE Tree in Flower wild goose plum Prunus hortulana Kingdom: Plantae FEATURES Division/Phylum: Magnoliophyta Wild goose plum is a small tree that may attain a Class: Magnoliopsida height of 20 feet and a trunk diameter of eight Order: Rosales inches. Its gray or brown bark becomes scaly at maturity. Twigs are slender, red-brown and smooth. Family: Rosaceae The ovoid, red-brown buds are about one-fourth ILLINOIS STATUS inch in length. Leaves are arranged alternately along the stem. These simple, oblong to oval leaves may common, native be as much as six inches long and two inches wide. Each leaf is finely-toothed along the edges. Each tooth has a gland at its tip. The leaf is green and smooth on the upper surface and pale and sometimes hairy on the lower surface. Flowers develop in clusters, up to one inch wide. The five- petaled, white flowers appear after the leaves are partly grown. The fruit is a drupe (a seed enclosed in a hard, dry material that in turn is covered with a fleshy material). The drupe is nearly spherical and up to one inch in diameter. This red, fleshy fruit is hard, bitter and contains one seed. BEHAVIORS © Guy Sternberg Wild goose plum may be found in the southern one- half of Illinois. It grows in wood edges and thickets. tree in flower Flowers are produced from March through April. The wood is hard and brown. ILLINOIS RANGE © Guy Sternberg flowering branches © Illinois Department of Natural Resources. 2021. Biodiversity of Illinois. Unless otherwise noted, photos and images © Illinois Department of Natural Resources. Aquatic Habitats none Woodland Habitats none Prairie and Edge Habitats edge © Illinois Department of Natural Resources. 2021. Biodiversity of Illinois. Unless otherwise noted, photos and images © Illinois Department of Natural Resources..
Load more

Recommended publications
  • Plum Crazy: Rediscovering Our Lost Prunus Resources W.R
    Plum Crazy: Rediscovering Our Lost Prunus Resources W.R. Okie1 U.S. Department of Agriculture–Agricultural Research Service, Southeastern Fruit and Tree Nut Research Laboratory, 21 Dunbar Road, Byron, GA 31008 Recent utilization of genetic resources of peach [Prunus persica (‘Quetta’ from India, ‘John Rivers’ from England, and ‘Lippiatts’ (L.) Batsch] and Japanese plum (P. salicina Lindl. and hybrids) has from New Zealand) were critical to the development of modern been limited in the United States compared with that of many crops. nectarines in California (Taylor, 1959). However, most fresh-market Difficulties in collection, importation, and quarantine throughput have peach breeding programs in the United States have used germplasm limited the germplasm available. Prunus is more difficult to preserve developed in the United States for cultivar development (Okie, 1998). because more space is needed than for small fruit crops, and the shorter Only in New Jersey was there extensive hybridization with imported life of trees relative to other tree crops because of disease and insect clones, and most of these hybrids have not resulted in named cultivars problems. Lack of suitable rootstocks has also reduced tree life. The (Blake and Edgerton, 1946). trend toward fewer breeding programs, most of which emphasize In recent years, interest in collecting and utilizing novel germplasm “short-term” (long-term compared to most crops) commercial cultivar has increased. For example, non-melting clingstone peaches from development to meet immediate industry needs, has also contributed Mexico and Brazil have been used in the joint USDA–Univ. of to reduced use of exotic material. Georgia–Univ. of Florida breeding program for the development of Probably all modern commercial peaches grown in the United early ripening, non-melting, fresh-market peaches for low-chill areas States are related to ‘Chinese Cling’, a peach imported from China (Beckman and Sherman, 1996).
    [Show full text]
  • A Checklist of the Vascular Flora of the Mary K. Oxley Nature Center, Tulsa County, Oklahoma
    Oklahoma Native Plant Record 29 Volume 13, December 2013 A CHECKLIST OF THE VASCULAR FLORA OF THE MARY K. OXLEY NATURE CENTER, TULSA COUNTY, OKLAHOMA Amy K. Buthod Oklahoma Biological Survey Oklahoma Natural Heritage Inventory Robert Bebb Herbarium University of Oklahoma Norman, OK 73019-0575 (405) 325-4034 Email: [email protected] Keywords: flora, exotics, inventory ABSTRACT This paper reports the results of an inventory of the vascular flora of the Mary K. Oxley Nature Center in Tulsa, Oklahoma. A total of 342 taxa from 75 families and 237 genera were collected from four main vegetation types. The families Asteraceae and Poaceae were the largest, with 49 and 42 taxa, respectively. Fifty-eight exotic taxa were found, representing 17% of the total flora. Twelve taxa tracked by the Oklahoma Natural Heritage Inventory were present. INTRODUCTION clayey sediment (USDA Soil Conservation Service 1977). Climate is Subtropical The objective of this study was to Humid, and summers are humid and warm inventory the vascular plants of the Mary K. with a mean July temperature of 27.5° C Oxley Nature Center (ONC) and to prepare (81.5° F). Winters are mild and short with a a list and voucher specimens for Oxley mean January temperature of 1.5° C personnel to use in education and outreach. (34.7° F) (Trewartha 1968). Mean annual Located within the 1,165.0 ha (2878 ac) precipitation is 106.5 cm (41.929 in), with Mohawk Park in northwestern Tulsa most occurring in the spring and fall County (ONC headquarters located at (Oklahoma Climatological Survey 2013).
    [Show full text]
  • (Prunus Spp) Using Random Amplified Microsatellite Polymorphism Markers
    Assessment of genetic diversity and relationships among wild and cultivated Tunisian plums (Prunus spp) using random amplified microsatellite polymorphism markers H. Ben Tamarzizt, S. Ben Mustapha, G. Baraket, D. Abdallah and A. Salhi-Hannachi Laboratory of Molecular Genetics, Immunology & Biotechnology, Faculty of Sciences of Tunis, University of Tunis El Manar, El Manar, Tunis, Tunisia Corresponding author: A. Salhi-Hannachi E-mail: [email protected] Genet. Mol. Res. 14 (1): 1942-1956 (2015) Received January 8, 2014 Accepted July 8, 2014 Published March 20, 2015 DOI http://dx.doi.org/10.4238/2015.March.20.4 ABSTRACT. The usefulness of random amplified microsatellite polymorphism markers to study the genetic diversity and relationships among cultivars belonging to Prunus salicina and P. domestica and their wild relatives (P. insititia and P. spinosa) was investigated. A total of 226 of 234 bands were polymorphic (96.58%). The 226 random amplified microsatellite polymorphism markers were screened using 15 random amplified polymorphic DNA and inter-simple sequence repeat primers combinations for 54 Tunisian plum accessions. The percentage of polymorphic bands (96.58%), the resolving power of primers values (135.70), and the polymorphic information content demonstrated the efficiency of the primers used in this study. The genetic distances between accessions ranged from 0.18 to 0.79 with a mean of 0.24, suggesting a high level of genetic diversity at the intra- and interspecific levels. The unweighted pair group with arithmetic mean dendrogram Genetics and Molecular Research 14 (1): 1942-1956 (2015) ©FUNPEC-RP www.funpecrp.com.br Genetic diversity of Tunisian plums using RAMPO markers 1943 and principal component analysis discriminated cultivars efficiently and illustrated relationships and divergence between spontaneous, locally cultivated, and introduced plum types.
    [Show full text]
  • Checklist of Illinois Native Trees
    Technical Forestry Bulletin · NRES-102 Checklist of Illinois Native Trees Jay C. Hayek, Extension Forestry Specialist Department of Natural Resources & Environmental Sciences Updated May 2019 This Technical Forestry Bulletin serves as a checklist of Tree species prevalence (Table 2), or commonness, and Illinois native trees, both angiosperms (hardwoods) and gym- county distribution generally follows Iverson et al. (1989) and nosperms (conifers). Nearly every species listed in the fol- Mohlenbrock (2002). Additional sources of data with respect lowing tables† attains tree-sized stature, which is generally to species prevalence and county distribution include Mohlen- defined as having a(i) single stem with a trunk diameter brock and Ladd (1978), INHS (2011), and USDA’s The Plant Da- greater than or equal to 3 inches, measured at 4.5 feet above tabase (2012). ground level, (ii) well-defined crown of foliage, and(iii) total vertical height greater than or equal to 13 feet (Little 1979). Table 2. Species prevalence (Source: Iverson et al. 1989). Based on currently accepted nomenclature and excluding most minor varieties and all nothospecies, or hybrids, there Common — widely distributed with high abundance. are approximately 184± known native trees and tree-sized Occasional — common in localized patches. shrubs found in Illinois (Table 1). Uncommon — localized distribution or sparse. Rare — rarely found and sparse. Nomenclature used throughout this bulletin follows the Integrated Taxonomic Information System —the ITIS data- Basic highlights of this tree checklist include the listing of 29 base utilizes real-time access to the most current and accept- native hawthorns (Crataegus), 21 native oaks (Quercus), 11 ed taxonomy based on scientific consensus.
    [Show full text]
  • Sand Plums for Home and Commercial Production
    Oklahoma Cooperative Extension Service HLA-6258 Sand Plums for Home and Commercial Production Beth McMahon Oklahoma Cooperative Extension Fact Sheets Research Assistant Oklahoma State University are also available on our website at: http://osufacts.okstate.edu Bruce Dunn Assistant Professor Geyer, 2010). Flowering will last for a couple of weeks and Oklahoma State University either red or yellow fruit will begin to form afterward. Ripening of the fruit occurs from June to early August and are either Sand plums, also known as Chickasaw plum, Cherokee yellow or a bright red. Both colors occur in the same areas plum, or Sandhill plum (Prunus angustifolia Marshall), are native of Oklahoma. Fruit size can range from ¼ inch to 1 inch. It fruit-producing shrubs or small trees in Oklahoma (Figure 1). is recommended that long sleeves be worn while collecting Use of sand plums range from cover for native bird species fruit since the plants may be thorny, depending upon how to making jams, jellies, and wine from the fruit. Commercial damaged they have been by deer and cattle in the past. desire in making jams and jellies has led to a rising interest in cultivating sand plums for home and orchard production. The purpose of this publication is to provide some basic knowledge Selecting Plants on how to identify, propagate, and grow your own sand plums. Besides selecting plants for fruit size and crop load, Sand plums range from 2 feet to 25 feet high, depend- you may also want to consider selecting plants that have ing upon soil and water conditions (Row and Geyer, 2010).
    [Show full text]
  • Botanical Name Common Name
    Approved Approved & as a eligible to Not eligible to Approved as Frontage fulfill other fulfill other Type of plant a Street Tree Tree standards standards Heritage Tree Tree Heritage Species Botanical Name Common name Native Abelia x grandiflora Glossy Abelia Shrub, Deciduous No No No Yes White Forsytha; Korean Abeliophyllum distichum Shrub, Deciduous No No No Yes Abelialeaf Acanthropanax Fiveleaf Aralia Shrub, Deciduous No No No Yes sieboldianus Acer ginnala Amur Maple Shrub, Deciduous No No No Yes Aesculus parviflora Bottlebrush Buckeye Shrub, Deciduous No No No Yes Aesculus pavia Red Buckeye Shrub, Deciduous No No Yes Yes Alnus incana ssp. rugosa Speckled Alder Shrub, Deciduous Yes No No Yes Alnus serrulata Hazel Alder Shrub, Deciduous Yes No No Yes Amelanchier humilis Low Serviceberry Shrub, Deciduous Yes No No Yes Amelanchier stolonifera Running Serviceberry Shrub, Deciduous Yes No No Yes False Indigo Bush; Amorpha fruticosa Desert False Indigo; Shrub, Deciduous Yes No No No Not eligible Bastard Indigo Aronia arbutifolia Red Chokeberry Shrub, Deciduous Yes No No Yes Aronia melanocarpa Black Chokeberry Shrub, Deciduous Yes No No Yes Aronia prunifolia Purple Chokeberry Shrub, Deciduous Yes No No Yes Groundsel-Bush; Eastern Baccharis halimifolia Shrub, Deciduous No No Yes Yes Baccharis Summer Cypress; Bassia scoparia Shrub, Deciduous No No No Yes Burning-Bush Berberis canadensis American Barberry Shrub, Deciduous Yes No No Yes Common Barberry; Berberis vulgaris Shrub, Deciduous No No No No Not eligible European Barberry Betula pumila
    [Show full text]
  • Occurrence of Canker and Wood Rot Pathogens on Stone Fruit Propagation Material and Nursery Stone Fruit Trees
    OCCURRENCE OF CANKER AND WOOD ROT PATHOGENS ON STONE FRUIT PROPAGATION MATERIAL AND NURSERY STONE FRUIT TREES by RHONA VAN DER MERWE Thesis presented in partial fulfilment of the requirements for the degree of Master of Science in the Faculty of AgriSciences at the University of Stellenbosch Supervisor: Prof L Mostert Co-supervisor: Prof F Halleen April 2019 Stellenbosch University https://scholar.sun.ac.za DECLARATION By submitting this thesis/dissertation electronically, I declare that the entirety of the work contained therein is my own, original work, that I am the sole author thereof (save to the extent explicitly otherwise stated), that reproduction and publication thereof by Stellenbosch University will not infringe any third party rights and that I have not previously in its entirety or in part submitted it for obtaining any qualification. Date: 14 February 2019 Sign: Rhona van der Merwe Copyright © 2019 Stellenbosch University All rights reserved II Stellenbosch University https://scholar.sun.ac.za SUMMARY The phytosanitary status of stone fruit propagation material and nursery trees in South Africa are not known. Canker and wood rot pathogens can be present in visibly clean material. Due to stress and other improper cultural practices, symptoms will be expressed and cankers, dieback of parts of the tree and possible death of the trees can be seen. Therefore, the aim of this study was to identify the fungal canker and wood rot pathogens present in propagation material and nursery stone fruit trees. Green scion shoots were collected from three plum and one nectarine cultivars and dormant scion shoots were collected from three plum cultivars.
    [Show full text]
  • Agroforestry News Index Vol 1 to Vol 22 No 2
    Agroforestry News Index Vol 1 to Vol 22 No 2 2 A.R.T. nursery ..... Vol 2, No 4, page 2 Acorns, edible from oaks ..... Vol 5, No 4, page 3 Aaron, J R & Richards: British woodland produce (book review) ..... Acorns, harvesting ..... Vol 5, No 4, Vol 1, No 4, page 34 page 3 Abies balsamea ..... Vol 8, No 2, page Acorns, nutritional composition ..... 31 Vol 5, No 4, page 4 Abies sibirica ..... Vol 8, No 2, page 31 Acorns, removing tannins from ..... Vol 5, No 4, page 4 Abies species ..... Vol 19, No 1, page 13 Acorns, shelling ..... Vol 5, No 4, page 3 Acca sellowiana ..... Vol 9, No 3, page 4 Acorns, utilisation ..... Vol 5, No 4, page 4 Acer macrophyllum ..... Vol 16, No 2, page 6 Acorus calamus ..... Vol 8, No 4, page 6 Acer pseudoplatanus ..... Vol 3, No 1, page 3 Actinidia arguta ..... Vol 1, No 4, page 10 Acer saccharum ..... Vol 16, No 1, page 3 Actinidia arguta, cultivars ..... Vol 1, No 4, page 14 Acer saccharum - strawberry agroforestry system ..... Vol 8, No 1, Actinidia arguta, description ..... Vol page 2 1, No 4, page 10 Acer species, with edible saps ..... Vol Actinidia arguta, drawings ..... Vol 1, 2, No 3, page 26 No 4, page 15 Achillea millefolium ..... Vol 8, No 4, Actinidia arguta, feeding & irrigaton page 5 ..... Vol 1, No 4, page 11 3 Actinidia arguta, fruiting ..... Vol 1, Actinidia spp ..... Vol 5, No 1, page 18 No 4, page 13 Actinorhizal plants ..... Vol 3, No 3, Actinidia arguta, nurseries page 30 supplying ..... Vol 1, No 4, page 16 Acworth, J M: The potential for farm Actinidia arguta, pests and diseases forestry, agroforestry and novel tree ....
    [Show full text]
  • Complete Iowa Plant Species List
    !PLANTCO FLORISTIC QUALITY ASSESSMENT TECHNIQUE: IOWA DATABASE This list has been modified from it's origional version which can be found on the following website: http://www.public.iastate.edu/~herbarium/Cofcons.xls IA CofC SCIENTIFIC NAME COMMON NAME PHYSIOGNOMY W Wet 9 Abies balsamea Balsam fir TREE FACW * ABUTILON THEOPHRASTI Buttonweed A-FORB 4 FACU- 4 Acalypha gracilens Slender three-seeded mercury A-FORB 5 UPL 3 Acalypha ostryifolia Three-seeded mercury A-FORB 5 UPL 6 Acalypha rhomboidea Three-seeded mercury A-FORB 3 FACU 0 Acalypha virginica Three-seeded mercury A-FORB 3 FACU * ACER GINNALA Amur maple TREE 5 UPL 0 Acer negundo Box elder TREE -2 FACW- 5 Acer nigrum Black maple TREE 5 UPL * Acer rubrum Red maple TREE 0 FAC 1 Acer saccharinum Silver maple TREE -3 FACW 5 Acer saccharum Sugar maple TREE 3 FACU 10 Acer spicatum Mountain maple TREE FACU* 0 Achillea millefolium lanulosa Western yarrow P-FORB 3 FACU 10 Aconitum noveboracense Northern wild monkshood P-FORB 8 Acorus calamus Sweetflag P-FORB -5 OBL 7 Actaea pachypoda White baneberry P-FORB 5 UPL 7 Actaea rubra Red baneberry P-FORB 5 UPL 7 Adiantum pedatum Northern maidenhair fern FERN 1 FAC- * ADLUMIA FUNGOSA Allegheny vine B-FORB 5 UPL 10 Adoxa moschatellina Moschatel P-FORB 0 FAC * AEGILOPS CYLINDRICA Goat grass A-GRASS 5 UPL 4 Aesculus glabra Ohio buckeye TREE -1 FAC+ * AESCULUS HIPPOCASTANUM Horse chestnut TREE 5 UPL 10 Agalinis aspera Rough false foxglove A-FORB 5 UPL 10 Agalinis gattingeri Round-stemmed false foxglove A-FORB 5 UPL 8 Agalinis paupercula False foxglove
    [Show full text]
  • Propagation of Sand Plum (Prunus Angustifolia) Marsh.: an Exciting Start to Domestication
    PROPAGATION OF SAND PLUM (PRUNUS ANGUSTIFOLIA) MARSH.: AN EXCITING START TO DOMESTICATION By ELIZABETH ANN MCMAHON Bachelor of Science in Rangeland Management and Horticulture Texas A&M University College Station, TX 2010 Submitted to the Faculty of the Graduate College of the Oklahoma State University in partial fulfillment of the requirements for the Degree of MASTER OF SCIENCE HORTICULTURE July, 2013 ii PROPAGATION OF SAND PLUM (PRUNUS ANGUSTIFOLIA) MARSH.: AN EXCITING START TO DOMESTICATION Thesis Approved: Dr. Bruce Dunn Thesis Adviser Dr. Eric Stafne Dr. Karen R. Hickman ii ACKNOWLEDGMENTS Funding for this grant was provided by the Oklahoma Specialty Crop Research grant through the Oklahoma Department of Agriculture, Food, and Forestry. I would sincerely like to thank them for awarding this grant to my professors, and for giving me the chance to work on this project. I would like to thank Dr. Bruce Dunn for the time that he spent assisting me with my thesis, as well as his advice on my research. Additional thanks are owed to Dr. Karen Hickmann and Dr. Eric Stafne for agreeing to be on my committee and for helping me with abstracts. Thank you to my fellow graduate students: Li Jiang, for your company when I was working on my proposal; Rania, for your help and being someone to talk to about graduate school; and Stephen, for watering my practice grafts and helping me plant at Perkins. Thank you to Leon and Eddy for the use of their land as field plots and a special thanks to Leon for his advice on the sand plums as well as his eagerness to try different graft techniques.
    [Show full text]
  • The Ornamental Trees of South Dakota N.E
    South Dakota State University Open PRAIRIE: Open Public Research Access Institutional Repository and Information Exchange South Dakota State University Agricultural Bulletins Experiment Station 4-1-1931 The Ornamental Trees of South Dakota N.E. Hansen Follow this and additional works at: http://openprairie.sdstate.edu/agexperimentsta_bulletins Recommended Citation Hansen, N.E., "The Ornamental Trees of South Dakota" (1931). Bulletins. Paper 260. http://openprairie.sdstate.edu/agexperimentsta_bulletins/260 This Bulletin is brought to you for free and open access by the South Dakota State University Agricultural Experiment Station at Open PRAIRIE: Open Public Research Access Institutional Repository and Information Exchange. It has been accepted for inclusion in Bulletins by an authorized administrator of Open PRAIRIE: Open Public Research Access Institutional Repository and Information Exchange. For more information, please contact [email protected]. Bulletin 260 April, 1931 The Ornamental Trees of South Dakota Figure I-The May Day Tree. Horticulture Department Agricultural Experiment Station South Dakota State College of Agriculture and Mechanic Arts Brookings, S. Dak. The Ornamental Trees of South Dakota N. E. Hansen This bulletin describes the deciduous trees. By deciduous trees is meant those that shed their leaves in winter. The evergreens of South Dakota are described in bulletin 254, October 1930. A bulletin on "The Ornamental Shrubs of South Dakota" is ready for early publication. The following list should be studied in connection with the trees described in South Dakota bulletin 246, "'The Shade, Windbreak and Timber Trees of South Dakota," 48 pages, March 1930. All the trees in both bulletins have ornamental value in greater or less degree.
    [Show full text]
  • May 10, 1911 Jamaica Plain, Mass
    No. 2 ARNOLD ARBORETUM HARVARD UNIVERSITY BULLETIN OF POPULAR INFORMATION MAY 10, 1911 JAMAICA PLAIN, MASS. BULLETIN NO. 2. One of the most interesting trees now in flower in the Arboretum is Cercidiphyllum japonicum. This is a native of Japan and of western China. In the forests of the northern island of Japan it grows to a larger size than any of the other deciduous-leaved trees of the Empire, often attaining a height of one hundred feet with a cluster of stems eight or ten feet in diameter. In very early spring the nearly round cordate leaves are a deep bronze color and before they fall in the autumn they turn to clear bright yellow. The flowers are inconspicuous, and the male and female flowers are produced on different individuals. They are fur- nished with a small calyx but are without petals and are nearly hidden by the half-grown leaves. The male flowers are composed of numerous stamens with long slender filaments and in the female flowers from four to six small carpels are found which later develop into dry pod-like fruits. Cercidiphyllum has proved a very hardy and generally satisfactory tree in eastern Massachusetts where it was introduced by the Arboretum about thirty years ago. A number of plants can be seen on the Meadow Road not far beyond the Administration Building. In the group on the right-hand side of the road there is a male tree now in flower. Another Japanese plant of the same family, Euptelea polyandra, is flowering in the Arboretum for the first time.
    [Show full text]