DOCSLIB.ORG

Michal Yakir Wondrous Order Reading Excerpt Wondrous Order of Michal Yakir Publisher: Narayana Verlag

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

Michal Yakir Wondrous Order Reading excerpt Wondrous Order of Michal Yakir Publisher: Narayana Verlag https://www.narayana-verlag.com/b13827 In the Narayana webshop you can find all english books on homeopathy, alternative medicine and a healthy life. Copyright: Â Narayana Verlag GmbH, Blumenplatz 2, D-79400 Kandern, Germany Tel. +49 7626 9749 700 Email [email protected] https://www.narayana-verlag.com Narayana Verlag is a publishing company for books on homeopathy, alternative medicine and a healthy life. We publish books of top-class and innovative authors like Rosina Sonnenschmidt, Rajan Sankaran, George Vithoulkas, Douglas M. Borland, Jan Scholten, Frans Kusse, Massimo Mangialavori, Kate Birch , Vaikunthanath Das Kaviraj, Sandra Perko, Ulrich Welte, Patricia Le Roux, Samuel Hahnemann, Mohinder Singh Jus, Dinesh Chauhan. Narayana Verlag organises Homeopathy Seminars. Worldwide known speakers like Rosina Sonnenschmidt, Massimo Mangialavori, Jan Scholten, Rajan Sankaran & Louis Klein inspire up to 300 participants. CONTENTS Words of Thanks ............................ ii Foreword by Dr Mahesh Gandhi .............. vii PART A · INTRODUCTIONS AND GATEWAYS Sources, structure and usage of the Table ...... 1 Introduction · The structure of the Table of Plants and how to use it ...................... 7 Foreword · Why, How and What .............. 3 PART B · A GATEWAY TO BASIC BOTANY AND SYSTEMATICS The Table Botanic ............................ 11 Taxonomy, the Table and basic botanic division ..................................... 17 Introduction to Botany ....................... 13 PART C · THE TABLE OF PLANTS – OVERVIEW AND THEORY The Table psychology and developmental Column Three · The Hero · Immersion vs aspects ...................................... 25 separation · Struggle for independence ........ 50 Definitions of psychological terms used in Column Four · Maturity and nurturing · the book .................................... 27 Separation from mother and family ........... 58 Developmental aspects of the Table of Plants – Column Five · Split · The Other ............... 66 an overview .................................. 29 Column Six · Me vs the world · Struggle for one’s Column One · Pre-separation · Primal, place in the world ............................ 77 boundless, indiscriminate, pre-Ego ............ 35 Column Seven · The Sabbath · Reflections on Column Two · Here or there · Seeking one’s the essence of the Table of Plants . 93 strength, small or big, in-between. Boundaries .. 42 The Rows · Development and maturation within the columns ................................. 95 PART D · MATERIA MEDICA DICOTYLEDONS · 109 Column One · Magnoliidae · Column Two · Hamamelidae · (Pre-separation) · Themes ............... 111 (Here or there) · Themes ................ 177 Magnoliales ................................... 114 Urticales ..................................... 181 Nymphaeales ................................. 120 Hamamelidales ............................... 196 Illiciales ...................................... 127 Juglandales . 198 Piperales ..................................... 129 Myricales .................................... 202 Laurales ..................................... 135 Fagales ...................................... 204 Aristolochiales ................................. 139 Non-plant remedies ............................ 211 Ranunculales ................................. 143 Papaverales ................................... 167 v Yakir_Wondrous_i-034_Intro-1_210803.indd 5 03.08.2021 15:09:16 Column Three · Caryophyllidae · (The Hero · Fabales (Leguminales) .......................... 373 The struggle for individuality) · Themes ... 215 Malpighiales .................................. 395 Caryophyllales ................................ 216 Euphorbiales .................................. 407 Plumbaginales ................................ 243 Sapindales .................................... 418 Polygonales ................................... 244 Cornales ..................................... 450 Rhamnales ................................... 451 Column Four · Dilleniidae · (Maturity and Santalales (parasitic plants) .................... 455 nurturing) · Themes ..................... 249 Celastrales .................................... 468 Theales ...................................... 252 Apiales (Umbelliferales) ......................... 472 Dilleniales .................................... 257 Ebenales ..................................... 259 Column Six · Asteridae · Sarraceniales ................................. 262 (Me vs the Group) · Themes ............. 495 Malvales ..................................... 268 Polemoniales (Solanales) ........................ 501 Primulales .................................... 282 Gentianales ................................... 526 Cucurbitales .................................. 288 Scrophulariales ................................ 545 Ericales ...................................... 295 Rubiales ..................................... 572 Salicales ..................................... 305 Plantaginales ................................. 583 Capparales ................................... 310 Labiales (Lamiales) ............................ 584 Dipsacales .................................... 612 Column Five · Rosidae · (Encounter with Campanulales ................................. 620 the Other) · Themes..................... 327 Asterales (Compositales) ........................ 623 Rosales ...................................... 331 Myrtales ..................................... 358 MONOCOTYLEDONS · 669 Monocots vs Dicots .................... 671 Column Four · Commelinidae · (Support, stability, family relationships) · Themes ... 703 Column One · Alismatidae · (Beginning) · Poales ....................................... 704 Themes ................................ 675 Commelinales ................................. 730 Alismatales ................................... 676 Juncales ...................................... 733 Potamogetonales ............................... 678 Cyperales ..................................... 734 Column Two · Arecidae · (Here or there) · Zingiberales .................................. 735 Themes ................................ 679 Bromeliales ................................... 741 Arecales (the palms) .......................... 682 Column Five-Six · Liliidae · (Me and the Arales ....................................... 688 Others) · Themes ....................... 743 Typhales ..................................... 701 Orchidales .................................... 744 Liliales ....................................... 764 Agavaceae .................................... 809 Dioscoreales .................................. 811 PART E · APPENDIX Bibliography and References . 817 Common Names ............................ 843 Contributing Practitioners .................... 821 Concise Lists of Plant Remedies . 849 Repertory of Themes from the Table of Plants... 823 About the Author ............................ 852 Photo Credits ................................ 829 The Table Schema · General Overview ...inner cover Index of Remedies ........................... 831 Other indexes ................................ 836 Family Names .............................. 836 Latin Names ............................... 838 vi Yakir_Wondrous_i-034_Intro-1_210803.indd 6 03.08.2021 15:09:17 Taxonomy, the Table and basic botanic division Botanical order: Phylogenetic systematics evolution of species within the plant kingdom Systematics describes patterns and paths of evolution The Table of Plants is based mostly on the evolution- by sorting plants into groups according to molecular ary order of Species, Families and Orders within it, so and morphological information, thereby establishing understanding the way plants developed is quite essential. a developmental tendency that displays the proximity As plants evolved, some species remained closely re- of different Species, Families and higher groupings in a lated, while others developed in diverse directions. While developmental sequence. on this route they changed: their chemical and physical The structure of flower and fruit provides the base components, the structure of their flowers, their fruit, for plant systematics. The more pronounced the flower’s their seeds and their pollen became different from those stability and uniformity, the more advanced the plant is of their ancestors. As shape and structure changed and considered to be. For example, when the number of the became differentiated, species drifted away, groups dis- flower’s parts is fixed, its method of pollination is more sociated from one another, initiating their own lines of effective. evolution, while other groups withered and became ex- Systematics uses symptoms of the flower and fruit tinct. In this way, a multi-branched, tree-like process of structure to construct an evolutionary developmental evolution was sketched out over history (Fig. 1). sequence. This sequence enables plants to be organised as a ‘flow chart’ where groups can be hierarchically placed. The current evolutionary picture of plants: Since many This hierarchal order has direction; therefore, it can be of the old, primitive species are now extinct, what remains arranged as a table with two axes and used to describe visible from the multi-branched, treelike evolutionary stages and processes for homeopathic purposes. process is primarily its tips; that is, nowadays remain- ing plants (like islands
Recommended publications
  • Vascular Plant and Vertebrate Inventory of Montezuma Castle National Monument Vascular Plant and Vertebrate Inventory of Montezuma Castle National Monument

    Vascular Plant and Vertebrate Inventory of Montezuma Castle National Monument Vascular Plant and Vertebrate Inventory of Montezuma Castle National Monument

    Schmidt, Drost, Halvorson In Cooperation with the University of Arizona, School of Natural Resources Vascular Plant and Vertebrate Inventory of Montezuma Castle National Monument Vascular Plant and Vertebrate Inventory of Montezuma Castle National Monument Plant and Vertebrate Vascular U.S. Geological Survey Southwest Biological Science Center 2255 N. Gemini Drive Flagstaff, AZ 86001 Open-File Report 2006-1163 Southwest Biological Science Center Open-File Report 2006-1163 November 2006 U.S. Department of the Interior U.S. Geological Survey National Park Service In cooperation with the University of Arizona, School of Natural Resources Vascular Plant and Vertebrate Inventory of Montezuma Castle National Monument By Cecilia A. Schmidt, Charles A. Drost, and William L. Halvorson Open-File Report 2006-1163 November, 2006 USGS Southwest Biological Science Center Sonoran Desert Research Station University of Arizona U.S. Department of the Interior School of Natural Resources U.S. Geological Survey 125 Biological Sciences East National Park Service Tucson, Arizona 85721 U.S. Department of the Interior Dirk Kempthorne, Secretary U.S. Geological Survey Mark Myers, Director U.S. Geological Survey, Reston, Virginia: 2006 Note: This document contains information of a preliminary nature and was prepared primarily for internal use in the U.S. Geological Survey. This information is NOT intended for use in open literature prior to publication by the investigators named unless permission is obtained in writing from the investigators named and from the Station Leader. Suggested Citation Schmidt, C. A., C. A. Drost, and W. L. Halvorson 2006. Vascular Plant and Vertebrate Inventory of Montezuma Castle National Monument. USGS Open-File Report 2006-1163.
  • (12) Patent Application Publication (10) Pub. No.: US 2009/0263516 A1 CYR (43) Pub

    (12) Patent Application Publication (10) Pub. No.: US 2009/0263516 A1 CYR (43) Pub

    US 20090263516A1 (19) United States (12) Patent Application Publication (10) Pub. No.: US 2009/0263516 A1 CYR (43) Pub. Date: Oct. 22, 2009 (54) PLANT EXTRACT COMPOSITION AND Publication Classification THEIR USE TO MODULATE CELLULAR (51) Int. Cl. ACTIVITY A636/8962 (2006.01) A636/00 (2006.01) (75) Inventor: Benoit CYR, St. Augustin de A6IP35/00 (2006.01) Desmaures (CA) CI2N 5/06 (2006.01) Correspondence Address: A6IR 36/3 (2006.01) SHEPPARD, MULLIN, RICHTER & HAMPTON A 6LX 36/899 (2006.01) LLP (52) U.S. Cl. ......... 424/754; 424/725; 435/375; 424/774; 990 Marsh Road 424/779; 424/755; 424/750; 424/777 Menlo Park, CA 94025 (US) (57) ABSTRACT (73) Assignee: Biopharmacopae Design Extracts from plant material, or semi-purified/purified mol International Inc., Saint-Foy (CA) ecules or compounds prepared from the extracts that demon strate the ability to modulate one or more cellular activities (21) Appl. No.: 12/263,114 are provided. The extracts are capable of slowing down, inhibiting or preventing cell migration, for example, the (22) Filed: Oct. 31, 2008 migration of endothelial cells or neoplastic cells and thus, the use of the extracts to slow down, inhibit or prevent abnormal Related U.S. Application Data cell migration in an animal is also provided. Methods of selecting and preparing the plant extracts and methods of (63) Continuation of application No. 10/526,387, filed on screening the extracts to determine their ability to modulate Oct. 6, 2005, now abandoned, filed as application No. one or more cellular activity are described. The purification or PCT/CA03/01284 on Sep.
  • (Dr. Sc. Nat.) Vorgelegt Der Mathematisch-Naturwissenschaftl

    (Dr. Sc. Nat.) Vorgelegt Der Mathematisch-Naturwissenschaftl

    Zurich Open Repository and Archive University of Zurich Main Library Strickhofstrasse 39 CH-8057 Zurich www.zora.uzh.ch Year: 2012 Flowers, sex, and diversity: Reproductive-ecological and macro-evolutionary aspects of floral variation in the Primrose family, Primulaceae de Vos, Jurriaan Michiel Posted at the Zurich Open Repository and Archive, University of Zurich ZORA URL: https://doi.org/10.5167/uzh-88785 Dissertation Originally published at: de Vos, Jurriaan Michiel. Flowers, sex, and diversity: Reproductive-ecological and macro-evolutionary aspects of floral variation in the Primrose family, Primulaceae. 2012, University of Zurich, Facultyof Science. FLOWERS, SEX, AND DIVERSITY. REPRODUCTIVE-ECOLOGICAL AND MACRO-EVOLUTIONARY ASPECTS OF FLORAL VARIATION IN THE PRIMROSE FAMILY, PRIMULACEAE Dissertation zur Erlangung der naturwissenschaftlichen Doktorwürde (Dr. sc. nat.) vorgelegt der Mathematisch-naturwissenschaftliche Fakultät der Universität Zürich von Jurriaan Michiel de Vos aus den Niederlanden Promotionskomitee Prof. Dr. Elena Conti (Vorsitz) Prof. Dr. Antony B. Wilson Dr. Colin E. Hughes Zürich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s ist ein zentrales Ziel in der Evolutionsbiologie, die Muster der Vielfalt und die Prozesse, die sie erzeugen, zu verstehen.
  • Peter Schönswetter – Complete List of Publications

    Peter Schönswetter – Complete List of Publications

    Peter Schönswetter – Complete List of Publications A1) Peer-Reviewed Journal Articles 1. Schönswetter, P., Tribsch, A., Barfuss, M., & Niklfeld, H. (2002). Several Pleistocene refugia detected in the high alpine plant Phyteuma globulariifolium in the European Alps. Molecular Ecology, 11, 2637–2647. 2. Tribsch, A., Schönswetter, P., & Stuessy, T.F. (2002). Saponaria pumila (Caryophyllaceae) and the ice-age in the Eastern Alps. American Journal of Botany, 89, 2024–2033. 3. Schönswetter, P., Paun, O., Tribsch, A., & Niklfeld, H. (2003). Out of the Alps: Colonisation of the Arctic by East Alpine populations of Ranunculus glacialis (Ranunculaceae) Molecular Ecology, 12, 3371–3381. 4. Schönswetter, P., Tribsch, A., & Niklfeld, H. (2003). Phylogeography of the high alpine cushion-plant Androsace alpina (Primulaceae) in the European Alps. Plant Biology, 5, 623–630. 5. Schönswetter, P., Tribsch, A., Schneeweiss, G.M., & Niklfeld, H. (2003). Disjunctions in relict alpine plants: phylogeography of Androsace brevis and A. wulfeniana (Primulaceae). Botanical Journal of the Linnean Society, 141, 437–446. 6. Tribsch, A., & Schönswetter P. (2003). Patterns of endemism and comparative phylogeography confirm palaeo-environmental evidence for Pleistocene refugia in the Eastern Alps. Taxon, 52, 477– 497. 7. Schneeweiss, G.M., Schönswetter, P., Kelso, S., & Niklfeld, H. (2004). Complex biogeographic patterns in Androsace (Primulaceae) and related genera: evidence from phylogenetic analyses of nuclear ITS and plastid trnL-F sequences. Systematic Biology, 53, 856–876. 8. Schönswetter, P., Tribsch, A., & Niklfeld, H. (2004). Amplified Fragment Length Polymorphism (AFLP) reveals no genetic divergence of the Eastern Alpine endemic Oxytropis campestris subsp. tiroliensis (Fabaceae) from widespread subsp. campestris. Plant Systematics and Evolution, 244, 245– 255.
  • Grasslands of Eastern Europe

    Grasslands of Eastern Europe

    Grasslands of Eastern Europe Péter Török, MTA-DE Lendület Functional and Restoration Ecology Research Group, Debrecen, Hungary Iwona Dembicz, Botanical Garden Center for Biological Diversity Conservation in Powsin, Polish Academy of Sciences, Warsaw, Poland; Department of Plant Ecology and Environmental Conservation, Faculty of Biology, University of Warsaw, Warsaw, Poland Zora Dajic-Stevanovic, Department of Botany, Faculty of Agriculture, University of Belgrade, Belgrade, Republic of Serbia Anna Kuzemko, M.G. Kholodny Institute of Botany, National Academy of Sciences of Ukraine, Kyiv, Ukraine © 2019 Elsevier Inc. All rights reserved. This chapter was solicited and edited by Jürgen Dengler and Péter Török on behalf of the Eurasian Dry Grassland Group (EDGG). Delimitation and Physiogeography 1 Origin and Biodiversity of Grasslands 2 Typology of Grasslands 3 Steppes and Steppe Grasslands in Forest Steppe Mosaics 4 Alpine Grasslands 5 Azonal and Extrazonal Grasslands 5 Coastal and inland saline grasslands 5 Sand steppes and coastal sand grasslands 5 Grasslands on shallow rocky substrates 5 Dry and Semi-Dry Grasslands 5 Mesic to Wet Grasslands 6 Ecology and Biodiversity Patterns 6 Ecosystem Services and Threats 7 Area Loss 7 Changes in Management: Intensification and Abandonment 7 Invasive Species Encroachment 8 Climate Change 8 Some Further Drivers of Grassland Biodiversity 8 Conservation, Sustainable Management and Restoration 8 Conservation 8 Sustainable Grassland Management and Restoration 9 Acknowledgments 9 References 9 Abstract Grasslands
  • Samenkatalog Graz 2016.Pdf

    Samenkatalog Graz 2016.Pdf

    SAMENTAUSCHVERZEICHNIS Index Seminum Seed list Catalogue de graines des Botanischen Gartens der Karl-Franzens-Universität Graz Ernte / Harvest / Récolte 2016 Herausgegeben von Christian BERG, Kurt MARQUART & Jonathan WILFLING ebgconsortiumindexseminum2012 Institut für Pflanzenwissenschaften, Januar 2017 Botanical Garden, Institute of Plant Sciences, Karl- Franzens-Universität Graz 2 Botanischer Garten Institut für Pflanzenwissenschaften Karl-Franzens-Universität Graz Holteigasse 6 A - 8010 Graz, Austria Fax: ++43-316-380-9883 Email- und Telefonkontakt: [email protected], Tel.: ++43-316-380-5651 [email protected], Tel.: ++43-316-380-5747 Webseite: http://garten.uni-graz.at/ Zitiervorschlag : BERG, C., MARQUART, K. & Wilfling, J. (2017): Samentauschverzeichnis – Index Seminum – des Botanischen Gartens der Karl-Franzens-Universität Graz, Samenernte 2016. – 54 S., Karl-Franzens-Universität Graz. Personalstand des Botanischen Gartens Graz: Institutsleiter: Ao. Univ.-Prof. Mag. Dr. Helmut MAYRHOFER Wissenschaftlicher Gartenleiter: Dr. Christian BERG Gartenverwalter: Jonathan WILFLING, B. Sc. Gärtnermeister: Friedrich STEFFAN GärtnerInnen: Doris ADAM-LACKNER Viola BONGERS Magarete HIDEN Franz HÖDL Kurt MARQUART Franz STIEBER Ulrike STRAUSSBERGER Monika GABER Gartenarbeiter: Philip FRIEDL René MICHALSKI Oliver KROPIWNICKI Gärtnerlehrlinge: Gabriel Buchmann (1. Lehrjahr) Bahram EMAMI (3. Lehrjahr) Mario MARX (3. Lehrjahr) 3 Inhaltsverzeichnis / Contents / Table des matières Abkürzungen / List of abbreviations / Abréviations
  • Effect of Plant Community on Recruitment of Pulsatilla Pratensis in Dry Grassland*

    Effect of Plant Community on Recruitment of Pulsatilla Pratensis in Dry Grassland*

    EFFECT OF PLANT COMMUNITY ON RECRUITMENT OF PULSATILLA PRATENSIS IN DRY GRASSLAND* M. Bochenková1, M. Hejcman2, P. Karlík1 1Czech University of Life Sciences Prague, Faculty of Forestry and Wood Sciences, Department of Dendrology and Forest Breeding, Prague, Czech Republic 2Czech University of Life Sciences Prague, Faculty of Environmental Sciences, Department of Ecology, Prague, Czech Republic The most critical life phase of many plant species is seedlings recruitment. We investigated emergence and survival of seed- lings of endangered Pulsatila pratensis subsp. bohemica on dry grassland close to Prague (Czech Republic). We asked: (1) How are the field emergence and survival of seedlings affected by different plant communities? (2) Is the in situ seeding of lo- cal seeds a perspective method for the reinforcement of the declining population? In May 2010, we selected plots with domi- nant Festuca pallens (Festuca treatment), Geranium sanguineum accompanied by Festuca rupicola (Geranium treatment), and plots without any vegetation (Control treatment) and sewed 1350 seeds of P. pratensis. In October 2010, field emergence was 1.7, 2.6, and 1.3% in Festuca, Geranium, and Control treatments. In March 2011, only 4 and 3 seedlings were recorded in Festuca and Control treatments and no seedlings survived in Geranium treatment. By the end of 2011, only one seedling was alive in Control treatment and this seedling survived till October 2012. We concluded that in situ seeding was not an effective method for reinforcement of P. pratensis populations because of very low emergence rate and following survival of seedlings. field emergence; germination; pasqueflower; steppe plant communities INTRODUCTION improved by the mycorrhizal colonization (M o o r a et al., 2004).
  • Pinal AMA Low Water Use/Drought Tolerant Plant List

    Pinal AMA Low Water Use/Drought Tolerant Plant List

    Arizona Department of Water Resources Pinal Active Management Area Low-Water-Use/Drought-Tolerant Plant List Official Regulatory List for the Pinal Active Management Area Fourth Management Plan Arizona Department of Water Resources 1110 West Washington St. Ste. 310 Phoenix, AZ 85007 www.azwater.gov 602-771-8585 Pinal Active Management Area Low-Water-Use/Drought-Tolerant Plant List Acknowledgements The Pinal Active Management Area (AMA) Low-Water-Use/Drought-Tolerant Plants List is an adoption of the Phoenix AMA Low-Water-Use/Drought-Tolerant Plants List (Phoenix List). The Phoenix List was prepared in 2004 by the Arizona Department of Water Resources (ADWR) in cooperation with the Landscape Technical Advisory Committee of the Arizona Municipal Water Users Association, comprised of experts from the Desert Botanical Garden, the Arizona Department of Transporation and various municipal, nursery and landscape specialists. ADWR extends its gratitude to the following members of the Plant List Advisory Committee for their generous contribution of time and expertise: Rita Jo Anthony, Wild Seed Judy Mielke, Logan Simpson Design John Augustine, Desert Tree Farm Terry Mikel, U of A Cooperative Extension Robyn Baker, City of Scottsdale Jo Miller, City of Glendale Louisa Ballard, ASU Arboritum Ron Moody, Dixileta Gardens Mike Barry, City of Chandler Ed Mulrean, Arid Zone Trees Richard Bond, City of Tempe Kent Newland, City of Phoenix Donna Difrancesco, City of Mesa Steve Priebe, City of Phornix Joe Ewan, Arizona State University Janet Rademacher, Mountain States Nursery Judy Gausman, AZ Landscape Contractors Assn. Rick Templeton, City of Phoenix Glenn Fahringer, Earth Care Cathy Rymer, Town of Gilbert Cheryl Goar, Arizona Nurssery Assn.
  • Jan S U D a Citační Ohlasy

    Jan S U D a Citační Ohlasy

    Jan Suda Podklady ke jmenovacímu řízení – Citační ohlasy JAN S U D A CITAČNÍ OHLASY Citační ohlasy (s vyloučením autocitací) podle Web of Science k 1. 5. 2013 Celkový počet: 818 (včetně semiautocitací) / 670 (bez semiautocitací) (semiautocitace vyznačeny kurzivou) ----------------------------------------------------------------------------------------------------------------- Title: Estimation of nuclear DNA content in plants using flow cytometry Authors: Dolezel, J; Greilhuber, J; Suda, J Source: NATURE PROTOCOLS Volume: 2 Issue: 9 Pages: 2233-2244 DOI: 10.1038/nprot.2007.310 Published: 2007 1. Title: Role of adaptive and non-adaptive mechanisms forming complex patterns of genome size variation in six cytotypes of polyploid Allium oleraceum (Amaryllidaceae) on a continental scale Author(s): Duchoslav, Martin; Safarova, Lenka; Jandova, Michaela Source: ANNALS OF BOTANY Volume: 111 Issue: 3 Pages: 419-431 DOI: 10.1093/aob/mcs297 Published: MAR 2013 2. Title: Cellular aggregation is a key parameter associated with long term variability in paclitaxel accumulation in Taxus suspension cultures Author(s): Patil, Rohan A.; Kolewe, Martin E.; Roberts, Susan C. Source: PLANT CELL TISSUE AND ORGAN CULTURE Volume: 112 Issue: 3 Pages: 303-310 DOI: 10.1007/s11240-012-0237-3 Published: MAR 2013 3. Title: Chromosome counts and genome size of Leontopodium species (Asteraceae: Gnaphalieae) from south-western China Author(s): Russell, Anton; Safer, Stefan; Weiss-Schneeweiss, Hanna; et al. Source: BOTANICAL JOURNAL OF THE LINNEAN SOCIETY Volume: 171 Issue: 3 Pages: 627-636 DOI: 10.1111/boj.12011 Published: MAR 2013 4. Title: Nuclear genome size estimation and karyotype analysis of Lycium species (Solanaceae) Author(s): Chen, Jianjun; Liu, Xiaoli; Zhu, Linyao; et al. Source: SCIENTIA HORTICULTURAE Volume: 151 Pages: 46-50 DOI: 10.1016/j.scienta.2012.12.004 Published: FEB 28 2013 5.
  • Curriculum Vitae

    Curriculum Vitae

    CURRICULUM VITAE 1. PERSONAL INFORMATION Name: William Edward Rogers Rank: Professor Campus Address: Department of Ecology & Conservation Biology Texas A&M University 1537 TAMU, College Station, TX 77843-1537 Office room: Wildlife, Fisheries, and Ecological Sciences Building Room 378 Research Labs: WFES 422 & 507 Office phone: (979) 845-0317 Email: [email protected] Webpage: https://agrilife.org/wrogers/ 2. EDUCATION Undergraduate: Gustavus Adolphus College, St. Peter, MN Chemistry, B.A.; Biology minor September 1987 - May 1991 Biology, B.A. September - December 1991 Graduate: Kansas State University, Manhattan, KS Biology, Ph.D.; Ecology emphasis January 1993 - December 1998 Post-doctoral: Rice University, Houston, TX Ecology and Evolutionary Biology January 1999 - July 1999 3. PROFESSIONAL EXPERIENCE 3.1 Current Position September 2014-present Texas A&M University, College Station, Texas. Full Professor, Department of Ecosystem Science and Management on a nine-month academic appointment with responsibilities including Teaching, Research, Professional and University Service and Administrative Duties. Salary sources include the College of Agriculture and Life Sciences at Texas A&M University and Texas A&M Agrilife Research. In addition to the nine month academic appointment, soft dollar support must be obtained from contracts and grants to receive salary during June, July and August. a) General position description Full Professor with tenure in the Department of Ecosystem Science and Management, Texas A&M University, College Station, Texas. Establish and conduct teaching and research programs in plant ecology, invasive species biology and ecological restoration. William E. Rogers, 2021, pg.2 b) Specific Duties i) Teaching Teach an introductory, 3-credit undergraduate lecture course in terrestrial ecosystem restoration and management (ESSM 320) and co-teach a 3-credit writing-intensive, capstone course in advanced ecological restoration (ESSM 430) each spring.
  • Annotated Checklist of the Vascular Plant Flora of Grand Canyon-Parashant National Monument Phase II Report

    Annotated Checklist of the Vascular Plant Flora of Grand Canyon-Parashant National Monument Phase II Report

    Annotated Checklist of the Vascular Plant Flora of Grand Canyon-Parashant National Monument Phase II Report By Dr. Terri Hildebrand Southern Utah University, Cedar City, UT and Dr. Walter Fertig Moenave Botanical Consulting, Kanab, UT Colorado Plateau Cooperative Ecosystems Studies Unit Agreement # H1200-09-0005 1 May 2012 Prepared for Grand Canyon-Parashant National Monument Southern Utah University National Park Service Mojave Network TABLE OF CONTENTS Page # Introduction . 4 Study Area . 6 History and Setting . 6 Geology and Associated Ecoregions . 6 Soils and Climate . 7 Vegetation . 10 Previous Botanical Studies . 11 Methods . 17 Results . 21 Discussion . 28 Conclusions . 32 Acknowledgments . 33 Literature Cited . 34 Figures Figure 1. Location of Grand Canyon-Parashant National Monument in northern Arizona . 5 Figure 2. Ecoregions and 2010-2011 collection sites in Grand Canyon-Parashant National Monument in northern Arizona . 8 Figure 3. Soil types and 2010-2011 collection sites in Grand Canyon-Parashant National Monument in northern Arizona . 9 Figure 4. Increase in the number of plant taxa confirmed as present in Grand Canyon- Parashant National Monument by decade, 1900-2011 . 13 Figure 5. Southern Utah University students enrolled in the 2010 Plant Anatomy and Diversity course that collected during the 30 August 2010 experiential learning event . 18 Figure 6. 2010-2011 collection sites and transportation routes in Grand Canyon-Parashant National Monument in northern Arizona . 22 2 TABLE OF CONTENTS Page # Tables Table 1. Chronology of plant-collecting efforts at Grand Canyon-Parashant National Monument . 14 Table 2. Data fields in the annotated checklist of the flora of Grand Canyon-Parashant National Monument (Appendices A, B, C, and D) .
  • Juskiewicz Tuexenia 30 26.05.10 11:36 Seite 457

    Juskiewicz Tuexenia 30 26.05.10 11:36 Seite 457

    Juskiewicz_Tuexenia 30 26.05.10 11:36 Seite 457 Tuexenia 30: 457–466. Göttingen 2010. Population structure of Pulsatilla patens in relation to the habitat quality – Barbara Juśkiewicz-Swaczyna – Abstract This paper presents a study on a population of Pulsatilla patens conducted in 2009 in the Natura 2000 wildlife refuge called “Grasslands in the Military Training Grounds in Orzysz” in the Masurian Lake District (NE Poland). The purpose of the study was to determine the population structure of Pul- satilla patens, especially with regard to abundance, density, and percentage of life cycle stages in the total population. Correlations were examined between these population features and selected environmental characteristics including cover of phanerogams, cryptogams, litter, and bare soil. For the evaluation of the linear relationship between the variables, Spearman’s correlation coefficient was used. In order to identify the factors that have significant influence on the values of the dependent variables, a multiple regression analysis was performed. In total, 316 individuals of Pulsatilla patens were recorded: 62 flower ing adults, 202 vegetative adults and 52 juveniles. The number of flowers per individual varied from one to 12, the average being three flowers. Most individuals occurred in dry heath, and the small- est number of individuals was found in pine forest. The mean density per habitat ranged from one to 11 individuals per 4 m2. Increased cover of phanerogams and cryptogams caused a decrease in the density of Pulsatilla patens individuals. Zusammenfassung: Populationstruktur von Pulsatilla patens in Abhängigkeit von der Habitatqualität Diese Veröffentlichung stellt die Forschungsergebnisse zur Population der Finger-Kuhschelle (Pulsa- tilla patens) dar, die 2009 in dem Natura-2000-Gebiet „Graslandgesellschaften auf dem Truppenübungs- platz Orzysz“ auf der Masurischen Seenplatte (NE Poland) durchgeführt wurden.