DOCSLIB.ORG

George Argus's List of Salix References

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
George Argus's List of Salix References University of Connecticut OpenCommons@UConn Plant Science Articles Department of Plant Science Winter 12-11-2020 George Argus’s list of Salix references YULIA KUZOVKINA-EISCHEN [email protected] Follow this and additional works at: https://opencommons.uconn.edu/plsc_articles Part of the Agriculture Commons, Biodiversity Commons, and the Biology Commons Recommended Citation KUZOVKINA-EISCHEN, YULIA, "George Argus’s list of Salix references" (2020). Plant Science Articles. 29. https://opencommons.uconn.edu/plsc_articles/29 List of Salix References Complied by George W. Argus, last revised 4 Oct. 2016 Edited and updated by Yulia A. Kuzovkina 8 Dec. 2020 Notes: 1. References mainly pertain to Salix. 2. This list was transcribed from hundereds of hand-written or typed index cards written by me or, sometimes, by my assistants. As this was done over period of many years and because some of the handwritten cards were difficult to read some typographical errors may have been introduced. Complete standardization of the style of citation was not attempted. The original cards were discarded after transcription and proofreading. Key: [C] = A reprint, photocopy, or a note is available at the Canadian Museum of Nature, Botany Dvision. Diacritical marks: In searching for an author whose surname contains diacritical marks the first time such a name appears it is preceded by a name in parentheses without diacritical marks. Thus searching can be done without using diacritical marks. NB: Because of computer dificulties some later entries may lack diacritical marks. Abalos, M.I. Romero. 2002. Silviculture y producción sauce-mimbre Salix spp. Santiago, Chile: FONDEF/FDI/INFOR/CORFO Abalos, M.I. Romero. 2005. Towards development of the Chilean basket willow sector. Unasylva 221, 56: 40-46. (Salix viminalis) Abbe, E.C. 1974. Flowers and inflorescences of the “Amentiferae.” Bot. Rev. 40: 159- 261. Abbott, P. 2002. Montane willows in mid-west Yorkshire. BSBI News. 89: 22. Abbott, R.J. and C. Brochmann. 2003. History and evolution of the arctic flora: in the footsteps of Eric Hultén. Molecular Ecology 32: 299-313. [C] Abdollahzadeh, A. Kazempour Osaloo, S. and A.A. Maasoumi. 2011. Molecular phylogeny of the genus Salix (Salicaceae) with an emphasize to its species in Iran. Iran. J. Bot. 17 (2): 244-253. [C] Achremowicz, J. 1960. Investigations on Chrysomelidae insect pests of cultivated willows (Polish) with English summary). Rocz. Nauk Roln. 80-A-4: 753-782. Ackery, P.R. 1988. Host plants and classification: a review of nymphalid butterflies. Biol. Jour. Linnaean Soc. 33: 95-203. [C] Adams, R.J. and J.K. Morton 1972. An atlas of pollen of the trees and shrubs of eastern Canada and adjacent United States. Pt. 1. Gymnosperms to Fagaceae. Univ. of Waterloo, Biology Ser. 8: 1-52. [C] Ager, T.A. 2003. Late Quaternary vegetation and climate history of the central Bering land bridge from St. Michael Island, western Alaska. Quaternary Research 60: 19-32. 1 Ager, T.A. and R. L. Phillips. 2008. Pollen evidence for Late Pleistocene Bering land and bridge environments from Norton Sound, northeastern Bering Sea, Alaska. Arctic, Antarctic, and Alpine Research 40: 451-461. [C] Agriculture & Resource Management Council of Australia & New Zealand, Australian & New Zealand Environment Conservation Council, and Forestry Ministers. 2000. Weeds of National Significance. Willows (Salix taxa excluding S. babylonica, S. × calodendron and S.× reichardtii) Strategic Plan. National Weeds Strategy Executive Committee, Launceston. Ahmadi, A.D. Azadfar and A. Jafari Mofidabadi. 2008. Embryo culture as a tool in intergeneric hybridization of Salicaceae (Salix alba × Populus caspica). Iranian Journal of Rangelands and Forests Plant Breeding and Genetic Research Summer 2008; 16(2 (32 149-157. Abst. [C] Ahmadi, A.D. Azadfar and A. Jafari Mofidabadi. 2011. Study of inter-generic hybridization possibility between Salix aegyptica and Populus caspica to achieve new hybrids. International Journal of Plant Production 4(2): 143-147. (Ahman) Ǻhman, I. 1997. Growth, herbivory and disease in relation to gender in Salix viminalis L. Oecologia 111: 61-68. Aiken, S.G. M.J. Dallwitz, L. L. Consaul, C. L. McJannet, R. L. Boles, G. W. Argus, J.M. Gillett, P.J. Scott, R Elven, M. C. LeBlanc, L. J. Gillespie, A. K. Brystring, H. Solstad and J. G. Harris. 2007. Flora of the Canadian Arctic Archipelago: Descriptions, Illustrations, Identification, and Information Retrieval. NRC Research Press, National Research Council of Canada, Ottawa. Ainsworth, C. 2000. Boys and Girls Come Out to Play: The Molecular Biology of Dioecious Plants. Annales of Botany 86: 211-221. [C] Aiton, W. 1789. Hortus kewensis. Vol. 5. Longman, Hurst, Rees, Orme, and Brown, London. 586 pp. Albee, B.J., L.M. Shultz and S. Goodrich. 1988. Atlas of the vascular plants of Utah. Salt Lake City: Utah Museum of Natural History. Salix pp. 552-557. [C] Al-Bermani, A.-K.K.A., K.I.A. Al-Shammary, R.J. Gornall and J.P. Bailey. 1993. Contributions to a cytological catalogue of the British and Irish flora. 3. Watsonia 19: 169-171. Al-Bermani, A.-K.K.A., Al-Shammary, K.I.A., Gornall, R.J. and Bailey, J.P. 1993. Contributions to a cytological catalogue of the British and Irish flora. 3. Watsonia 19: 269-278. [C] Albrectsen, B.R., H. Gardfjell, C.M. Orians, B. Murrayand R.S. Fritz. 2004. Slugs, willow seedlings and nutrient fertilization: intrinsic vigor inversely affects palatability. OIKOS 105: 268-278. ([Salix eriocephala, S. sericea, S. discolor, S. bebbiana.) [C] Alford, Mac Haverson. 2005. Systematic studies in Flacourtiaceae. Dissertation Presented to Cornell University . [C] Ali, S.I. 2001. Salicaceae. Flora of Pakistan 203:1-60. Dept. of Botany, Univ. of Karachi, Pakistan and Missouri Botanical Garden Press, St. Louis, Missouri. [See also Ali 2005. Flora of Pakistan. (www.efloras.org) [C] Allard, H.A. and E. Leonard. 1952. The Canaan and the Stony river valleys of West Virginia. Castanea 17: 1-60. 2 Allen, A.W. 1983. Habitat suitability index models: beaver.FWS/OBS-82/10.30 (Revised). Washington, DC: U.S. Department of the Interior, Fish and Wildlife Service. 20 p. Allen, C.E. 1940. The genotypic basis of sex-expression in Angiosperms. Bot. Rev. 6: 227-300. Alliende, M.C. and J.L. Harper. 1989. Demographic studies of a dioecious tree. I. Colonization, sex, and age structure of a population of Salix cinerea. Journal of Ecology 77 : 1029-1047. [C] Almeida, J.L.F. De. 1946. Sorbe a cariologia de Salix salviifolia Brot. E S. babylonica L. Soc. Broteriana. B. (ser. 2) 20: 201-242. Al-Qura’n, S. 2007. Ethnobotany of folk medicinal aquatic plants in Jordan. Bot.. Rev. 73: 51-65. Alsos, I.G., P.B. Eidesen, D. Ehrich, I. Skrede, K. Westergaard, G.H. Jacobsen, J.Y. Landvik, P. Taberlet and C. Brochmann 2007. Frequent long-distance plant colonization in the changing Arctic. Science 316: 1606-1609. (AFLP polymorphism Salix herbacea) Alsos, I.G., T. Alm, S. Normand and C. Brochmann, 2009. Past and future range shifts and loss of diversity in dwarf willow (Salix herbacea L.) inferred from genetics, fossils and modeling. Global Ecol. Biogeogr. 18: 223-239. (Alstrom-Rapaport) Alström-Rapaport, C., M. Lascoux and U. Gullerg. 1997. Sex determination and sex ratio in the dioecious shrub Salix viminalis L. Theoretical and Applied Genetics 94: 493-497. Alström-Rapaport, M. Lascoux, YC Wang, G. Roberts,and G.A. Tuskan. 1998. Identification of a RAPD marker linked to sex determination in the basket willow (Salix viminalis) Journal of Heredity 89: 44-49. [C] Amlin, N.M. and S.B. Rood. 2002. Comparative tolerances of riparian willows and cottonwoods to water-table decline. Wetlands 22: 338-346. [C ] An, S., Cheng, X., Sun, S., Wang, Y. and Li, J. 2003. Composition change and vegetation degradation of riparian forests in the Atai Plain, NW China. Vegetatio 164: 75-84. Anderson, C.L. 1850. A monoecious willow. Zoe 1: 41-42. Anderson, E.W. and T.E. Bedell, 1987. Northwest common-name check list of plants. Special Report 786. Corvallis, OR: Oregon State University, Agricultural Experiment Station. 45 p. Anderson, J.H. 1970. A geobotanical study in the Atlin region in northwestern British Columbia and southcentral Yukon. PhD. Thesis, Univ. Michigan. Anderson, J.P. 1939. Plants used by the Eskimo of the northern Bering Sea and arctic regions of Alaska. Amer. J. Bot. 26: 714-716. [C] Anderson, P.M., P.J. Bartlein and L.B. Brubaker. 1994. Late Quaternary history of tundra vegetation in northwestern Alaska. Quaternary Research 41: 306-315. Andersson, N.J. (as Anderson) 1845. Salices Lapponicae. Upsaliae, Wahlstrom & Co. [C] Andersson, N.J. 1858a. Bidrag till kannendomen om de i Nordamerika forekommande pilarter (Salices). Öfvers. Förh. Kongl. Svenska Vetensk.-Akad. 15: 109-133. [C] Andersson, N.J. 1858b. Salices Boreali-Americanae. A synopsis of North American willows. Cambridge: Metcalf and Co. [C] Andersson, N.J. 1858c. Salices e Japonica, quas descriptsit N. J. Andersson Holmiensis.. In Appendix to “On the Botany of Japan.” Mem. Amer. Acad. Arts n.s., 6:450-452. 3 Andersson, N.J. 1860. On East Indian Salices. J. Linn. Soc. 4: 39-58. [C] Andersson, N.J. 1866. Om slägtet Salix, isynnerhet dess nordiska former. Botaniska Notiser 1868 (8): 1290149. [C] Andersson, N.J. 1867. Monographia Salicum. Pars 1. Kongl. Svenska Vetens. Akad. Handl. II. 180 pp. [C] Andersson, N.J. 1868. Salicineae. In Prodromus systematis naturalis regni vegetabilis, by A. P. de Candolle, 16(2): 190--331. Paris: Treuttel et Würtz. [C] Andersson, N.J. 1874. Salix. In Norges Flora, by A. Blytt, 2: 418-484. Oslo: Brogger and Christie. Andersson, N.J. 1910. Vier Briefe N.J. Andersson an A. Kerner. Salicologische Mitteilungen 3: 123-129. [C] Andreev, A.A., C. Siegert, V.A. Klimanov, A.Yu Drevyagin, G.N.
Load more

Recommended publications
  • Two New Species of Hiptage (Malpighiaceae) from Yunnan, Southwest of China
    A peer-reviewed open-access journal PhytoKeys 110: 81–89 (2018) Two new species of Hiptage... 81 doi: 10.3897/phytokeys.110.28673 RESEARCH ARTICLE http://phytokeys.pensoft.net Launched to accelerate biodiversity research Two new species of Hiptage (Malpighiaceae) from Yunnan, Southwest of China Bin Yang1,2, Hong-Bo Ding1,2, Jian-Wu Li1,2, Yun-Hong Tan1,2 1 Southeast Asia Biodiversity Research Institute, Chinese Academy of Sciences, Yezin, Nay Pyi Taw 05282, Myanmar 2 Centre for Integrative Conservation, Xishuangbanna Tropical Botanical Garden, Chinese Aca- demy of Sciences, Menglun, Mengla, Yunnan 666303, PR China Corresponding author: Yun-Hong Tan ([email protected]) Academic editor: Alexander Sennikov | Received 27 July 2018 | Accepted 30 September 2018 | Published 5 November 2018 Citation: Yang B, Ding H-B, Li J-W, Tan Y-H (2018) Two new species of Hiptage (Malpighiaceae) from Yunnan, Southwest of China. PhytoKeys 110: 81–89. https://doi.org/10.3897/phytokeys.110.28673 Abstract Hiptage pauciflora Y.H. Tan & Bin Yang and Hiptage ferruginea Y.H. Tan & Bin Yang, two new species of Malpighiaceae from Yunnan, South-western China are here described and illustrated. Morphologically, H. pauciflora Y.H. Tan & Bin Yang is similar to H. benghalensis (L.) Kurz and H. multiflora F.N. Wei; H. ferruginea Y.H. Tan & Bin Yang is similar to H. calcicola Sirirugsa. The major differences amongst these species are outlined and discussed. A diagnostic key to the two new species of Hiptage and their closely related species is provided. Keywords Hiptage, Malpighiaceae, samara, Yunnan, China Introduction Hiptage Gaertn. (Gaertner 1791) is one of the largest genera of Malpighiaceae with about 30 species of woody lianas and shrubs growing in forests of tropical South Asia, Indo-China Peninsula, Indonesia, Philippines and Southern China, including Hainan and Taiwan islands (Chen and Funston 2008, Ren et al.
    [Show full text]
  • The Vascular Plants of Massachusetts
    The Vascular Plants of Massachusetts: The Vascular Plants of Massachusetts: A County Checklist • First Revision Melissa Dow Cullina, Bryan Connolly, Bruce Sorrie and Paul Somers Somers Bruce Sorrie and Paul Connolly, Bryan Cullina, Melissa Dow Revision • First A County Checklist Plants of Massachusetts: Vascular The A County Checklist First Revision Melissa Dow Cullina, Bryan Connolly, Bruce Sorrie and Paul Somers Massachusetts Natural Heritage & Endangered Species Program Massachusetts Division of Fisheries and Wildlife Natural Heritage & Endangered Species Program The Natural Heritage & Endangered Species Program (NHESP), part of the Massachusetts Division of Fisheries and Wildlife, is one of the programs forming the Natural Heritage network. NHESP is responsible for the conservation and protection of hundreds of species that are not hunted, fished, trapped, or commercially harvested in the state. The Program's highest priority is protecting the 176 species of vertebrate and invertebrate animals and 259 species of native plants that are officially listed as Endangered, Threatened or of Special Concern in Massachusetts. Endangered species conservation in Massachusetts depends on you! A major source of funding for the protection of rare and endangered species comes from voluntary donations on state income tax forms. Contributions go to the Natural Heritage & Endangered Species Fund, which provides a portion of the operating budget for the Natural Heritage & Endangered Species Program. NHESP protects rare species through biological inventory,
    [Show full text]
  • Improving Habitat Restoration for Native Pollinators in San Francisco Tyrha Delger [email protected]
    The University of San Francisco USF Scholarship: a digital repository @ Gleeson Library | Geschke Center Master's Projects and Capstones Theses, Dissertations, Capstones and Projects Spring 5-18-2018 Improving Habitat Restoration for Native Pollinators in San Francisco Tyrha Delger [email protected] Follow this and additional works at: https://repository.usfca.edu/capstone Recommended Citation Delger, Tyrha, "Improving Habitat Restoration for Native Pollinators in San Francisco" (2018). Master's Projects and Capstones. 739. https://repository.usfca.edu/capstone/739 This Project/Capstone is brought to you for free and open access by the Theses, Dissertations, Capstones and Projects at USF Scholarship: a digital repository @ Gleeson Library | Geschke Center. It has been accepted for inclusion in Master's Projects and Capstones by an authorized administrator of USF Scholarship: a digital repository @ Gleeson Library | Geschke Center. For more information, please contact [email protected]. This Master’s Project Improving Habitat Restoration for Native Pollinators in San Francisco by Tyrha Delger is submitted in partial fulfillment of the requirements or the degree of Master of Science in Environmental Management at the University of San Francisco Submitted: Received: ……………………………. …………………………….... Your Name Date Allison Luengen, Ph.D. Date Name: Tyrha Delger USF MSEM Master’s Project Spring 2018 Final Paper Table of Contents List of Tables………………………………………………………………………………………....1 List of Figures………………………………………………………………………………………..2 Abstract……………………………………………………………………………………………….3
    [Show full text]
  • Ecological Survey of Land at Beesley Green, Salford, Greater Manchester
    Peel Investments (North) Ltd ECOLOGICAL SURVEY OF LAND AT BEESLEY GREEN, SALFORD, GREATER MANCHESTER DRAFT V1 SEPTEMBER 2013 ESL (Ecological Services) Ltd, 1 Otago House, Allenby Business Village, Crofton Road, Lincoln, LN3 4NL Ecological Survey of Land at Beesley Green, Salford, Greater Manchester SCS.PH Peel Investments (North) Ltd DOCUMENT CONTROL TITLE: Ecological Survey of Land at Beesley Green, Salford, Greater Manchester VERSION: Draft V1 DATE: September 2013 ISSUED BY: Brian Hedley AUTHORS: Brian Hedley, Emily Cook, Pete Morrell, Jackie Nicholson and Andy Jukes CHECKED BY: Andrew Malkinson APPROVED BY: Vanessa Tindale ISSUED TO: Peel Investments (North) Ltd Peel Dome The Trafford Centre Manchester M17 8PL This report has been prepared by ESL with all reasonable skill, care and diligence, within the terms of the contract with the Client. The report is confidential to the Client. ESL accepts no responsibility of whatever nature to third parties to whom this report may be made known. No part of this document may be reproduced without the prior written approval of ESL. ESL (Ecological Services) Ltd, 1 Otago House, Allenby Business Village, Crofton Road, Lincoln, LN3 4NL Ecological Survey of Land at Beesley Green, Salford, Greater Manchester SCS.PH Peel Investments (North) Ltd CONTENTS Page 1 INTRODUCTION 1 2 INITIAL SCOPING STUDY 1 2.1 Desk-based Study 1 2.2 Walkover Survey 3 2.3 Summary of Walkover and Recommendations for Further Survey 4 3 HABITATS, PLANT COMMUNITIES AND SPECIES 6 3.1 Survey Methods 6 3.2 Results 6 3.3 Discussion
    [Show full text]
  • Biology and Feeding Potential of Galerucella Placida Baly (Coleoptera: Chrysomelidae), a Weed Biocontrol Agent for Polygonum Hydropiper Linn
    Journal of Biological Control, 30(1): 15-18, 2016 Research Article Biology and feeding potential of Galerucella placida Baly (Coleoptera: Chrysomelidae), a weed biocontrol agent for Polygonum hydropiper Linn. D. DEY*, M. K. GUPTA and N. KARAM1 Department of Entomology, College of Agriculture, Central Agricultural University, Imphal-795004, India. 1Directorate of Research, Central Agricultural University, Imphal-795004, India. Corresponding author Email: [email protected] ABSTRACT: Galerucella placida Baly is a small leaf beetle belonging to the family Chrysomelidae. which feeds on aquatic weed Polygonum hydropiper Linn. The insect was reported from various regions of India during 1910-1936. Investigation on some biological parameters of G. placida and feeding of the P. hydropiper by G. placida was conducted in laboratory. The results indicated the fecundity of G. placida was 710-1210 eggs per female. Eggs were markedly bright yellow, pyriform basally rounded and oval at tip. It measured 0.67 mm in length and 0.46 mm in width. Average incubation period was 3.80 days. Larvae of G. placida underwent three moults. The first instar larva was yellow in colour and measured 1.26 mm in length and 0.40 mm in width. The second instar was yellowish in colour but after an hour of feeding, the colour of the grub changes to blackish brown from yellow. It measured 2.64 mm in length and 0.77 mm in width. The third instar measured 5.59 mm in length and 1.96 mm in width. The average total larval duration of G. placida was 13.30 days. The fully developed pupa looked black in colour and measured 4.58 mm in length and 2.37 mm in width.
    [Show full text]
  • View of the Study Organisms Galerucella Sagittariae and Larvae on Potentilla Palustris (L.) Scop, One of the Main Its Host Plant Potentilla Palustris
    Verschut and Hambäck BMC Ecol (2018) 18:33 https://doi.org/10.1186/s12898-018-0187-7 BMC Ecology RESEARCH ARTICLE Open Access A random survival forest illustrates the importance of natural enemies compared to host plant quality on leaf beetle survival rates Thomas A. Verschut* and Peter A. Hambäck Abstract Background: Wetlands are habitats where variation in soil moisture content and associated environmental condi- tions can strongly afect the survival of herbivorous insects by changing host plant quality and natural enemy densi- ties. In this study, we combined natural enemy exclusion experiments with random survival forest analyses to study the importance of local variation in host plant quality and predation by natural enemies on the egg and larval survival of the leaf beetle Galerucella sagittariae along a soil moisture gradient. Results: Our results showed that the exclusion of natural enemies substantially increased the survival probability of G. sagittariae eggs and larvae. Interestingly, the egg survival probability decreased with soil moisture content, while the larval survival probability instead increased with soil moisture content. For both the egg and larval survival, we found that host plant height, the number of eggs or larvae, and vegetation height explained more of the variation than the soil moisture gradient by itself. Moreover, host plant quality related variables, such as leaf nitrogen, carbon and phosphorus content did not infuence the survival of G. sagittariae eggs and larvae. Conclusion: Our results suggest that the soil moisture content is not an overarching factor that determines the interplay between factors related to host plant quality and factors relating to natural enemies on the survival of G.
    [Show full text]
  • ITS Secondary Structure Reconstruction to Resolve Taxonomy and Phylogeny of the Betula L
    ITS secondary structure reconstruction to resolve taxonomy and phylogeny of the Betula L. genus Andrii S. Tarieiev1, Oliver Gailing1,2 and Konstantin V. Krutovsky1,2,3,4,5 1 Department of Forest Genetics and Forest Tree Breeding, Georg-August University of Göttingen, Göttingen, Germany 2 Center for Integrated Breeding Research, Georg-August University of Göttingen, Göttingen, Germany 3 Laboratory of Forest Genomics, Genome Research and Education Center, Institute of Fundamental Biology and Biotechnology, Siberian Federal University, Krasnoyarsk, Russia 4 Laboratory of Population Genetics, N.I. Vavilov Institute of General Genetics, Russian Academy of Sciences, Moscow, Russia 5 Department of Ecosystem Science and Management, Texas A&M University, College Station, TX, United States of America ABSTRACT The taxonomy and phylogeny of the Betula L. genus remain unresolved and are very difficult to assess due to several factors, especially because of frequent hybridization among different species. In the current study, we used nucleotide sequences of two internal transcribed spacer regions (ITS1 and ITS2), which are commonly used as phylogenetic markers. In addition to their nucleotide variation we reconstructed their secondary structure and used it to resolve phylogenetic relationships of some birch species. We explored whether consideration of secondary structure in phylogenetic analyses based on neighbor-joining, maximum parsimony, maximum likelihood, and Bayesian inference methods would help us obtain more solid support of the reconstructed phylogenetic trees. The results were not unambiguous. There were only a few clades with higher support when secondary structure was included into analysis. The phylogenetic trees generated using different methods were mostly in agreement Submitted 16 October 2020 with each other.
    [Show full text]
  • Poplars and Willows: Trees for Society and the Environment / Edited by J.G
    Poplars and Willows Trees for Society and the Environment This volume is respectfully dedicated to the memory of Victor Steenackers. Vic, as he was known to his friends, was born in Weelde, Belgium, in 1928. His life was devoted to his family – his wife, Joanna, his 9 children and his 23 grandchildren. His career was devoted to the study and improve- ment of poplars, particularly through poplar breeding. As Director of the Poplar Research Institute at Geraardsbergen, Belgium, he pursued a lifelong scientific interest in poplars and encouraged others to share his passion. As a member of the Executive Committee of the International Poplar Commission for many years, and as its Chair from 1988 to 2000, he was a much-loved mentor and powerful advocate, spreading scientific knowledge of poplars and willows worldwide throughout the many member countries of the IPC. This book is in many ways part of the legacy of Vic Steenackers, many of its contributing authors having learned from his guidance and dedication. Vic Steenackers passed away at Aalst, Belgium, in August 2010, but his work is carried on by others, including mem- bers of his family. Poplars and Willows Trees for Society and the Environment Edited by J.G. Isebrands Environmental Forestry Consultants LLC, New London, Wisconsin, USA and J. Richardson Poplar Council of Canada, Ottawa, Ontario, Canada Published by The Food and Agriculture Organization of the United Nations and CABI CABI is a trading name of CAB International CABI CABI Nosworthy Way 38 Chauncey Street Wallingford Suite 1002 Oxfordshire OX10 8DE Boston, MA 02111 UK USA Tel: +44 (0)1491 832111 Tel: +1 800 552 3083 (toll free) Fax: +44 (0)1491 833508 Tel: +1 (0)617 395 4051 E-mail: [email protected] E-mail: [email protected] Website: www.cabi.org © FAO, 2014 FAO encourages the use, reproduction and dissemination of material in this information product.
    [Show full text]
  • Climatic Change Can Influence Species Diversity Patterns and Potential Habitats of Salicaceae Plants in China
    Article Climatic Change Can Influence Species Diversity Patterns and Potential Habitats of Salicaceae Plants in China WenQing Li 1, MingMing Shi 1, Yuan Huang 2, KaiYun Chen 1, Hang Sun 1 and JiaHui Chen 1,* 1 CAS Key Laboratory for Plant Diversity and Biogeography of East Asia, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, Yunnan 650201, China; [email protected] (W.L.); [email protected] (M.S.); [email protected] (K.C.); [email protected] (H.S.) 2 School of Life Sciences, Yunnan Normal University, Kunming, Yunnan 650092, China; [email protected] * Correspondence: [email protected] (J.C.) Received: 18 January 2019; Accepted: 25 February 2019; Published: 1 March 2019 Abstract: Salicaceae is a family of temperate woody plants in the Northern Hemisphere that are highly valued, both ecologically and economically. China contains the highest species diversity of these plants. Despite their widespread human use, how the species diversity patterns of Salicaceae plants formed remains mostly unknown, and these may be significantly affected by global climate warming. Using past, present, and future environmental data and 2673 georeferenced specimen records, we first simulated the dynamic changes in suitable habitats and population structures of Salicaceae. Based on this, we next identified those areas at high risk of habitat loss and population declines under different climate change scenarios/years. We also mapped the patterns of species diversity by constructing niche models for 215 Salicaceae species, and assessed the driving factors affecting their current diversity patterns. The niche models showed Salicaceae family underwent extensive population expansion during the Last Inter Glacial period but retreated to lower latitudes during and since the period of the Last Glacial Maximum.
    [Show full text]
  • Early Ontogeny of Jurassic Bakevelliids and Their Bearing on Bivalve Evolution
    Early ontogeny of Jurassic bakevelliids and their bearing on bivalve evolution NIKOLAUS MALCHUS Malchus, N. 2004. Early ontogeny of Jurassic bakevelliids and their bearing on bivalve evolution. Acta Palaeontologica Polonica 49 (1): 85–110. Larval and earliest postlarval shells of Jurassic Bakevelliidae are described for the first time and some complementary data are given concerning larval shells of oysters and pinnids. Two new larval shell characters, a posterodorsal outlet and shell septum are described. The outlet is homologous to the posterodorsal notch of oysters and posterodorsal ridge of arcoids. It probably reflects the presence of the soft anatomical character post−anal tuft, which, among Pteriomorphia, was only known from oysters. A shell septum was so far only known from Cassianellidae, Lithiotidae, and the bakevelliid Kobayashites. A review of early ontogenetic shell characters strongly suggests a basal dichotomy within the Pterio− morphia separating taxa with opisthogyrate larval shells, such as most (or all?) Praecardioida, Pinnoida, Pterioida (Bakevelliidae, Cassianellidae, all living Pterioidea), and Ostreoida from all other groups. The Pinnidae appear to be closely related to the Pterioida, and the Bakevelliidae belong to the stem line of the Cassianellidae, Lithiotidae, Pterioidea, and Ostreoidea. The latter two superfamilies comprise a well constrained clade. These interpretations are con− sistent with recent phylogenetic hypotheses based on palaeontological and genetic (18S and 28S mtDNA) data. A more detailed phylogeny is hampered by the fact that many larval shell characters are rather ancient plesiomorphies. Key words: Bivalvia, Pteriomorphia, Bakevelliidae, larval shell, ontogeny, phylogeny. Nikolaus Malchus [[email protected]], Departamento de Geologia/Unitat Paleontologia, Universitat Autòno− ma Barcelona, 08193 Bellaterra (Cerdanyola del Vallès), Spain.
    [Show full text]
  • Oregon Invasive Species Action Plan
    Oregon Invasive Species Action Plan June 2005 Martin Nugent, Chair Wildlife Diversity Coordinator Oregon Department of Fish & Wildlife PO Box 59 Portland, OR 97207 (503) 872-5260 x5346 FAX: (503) 872-5269 [email protected] Kev Alexanian Dan Hilburn Sam Chan Bill Reynolds Suzanne Cudd Eric Schwamberger Risa Demasi Mark Systma Chris Guntermann Mandy Tu Randy Henry 7/15/05 Table of Contents Chapter 1........................................................................................................................3 Introduction ..................................................................................................................................... 3 What’s Going On?........................................................................................................................................ 3 Oregon Examples......................................................................................................................................... 5 Goal............................................................................................................................................................... 6 Invasive Species Council................................................................................................................. 6 Statute ........................................................................................................................................................... 6 Functions .....................................................................................................................................................
    [Show full text]
  • Introgression in Betula Species of Different Ploidy Levels and the Analysis of the Betula Nana Genome
    Introgression in Betula Species of Different Ploidy Levels and the Analysis of the Betula nana Genome JASMIN ZOHREN School of Biological and Chemical Sciences Queen Mary University of London Mile End Road London E1 4NS Supervisors: Dr Richard J. A. Buggs Prof Richard A. Nichols November 2016 Submitted in partial fulfilment of the requirements of the Degree of Doctor of Philosophy 1 Statement of Originality I, Jasmin Zohren, confirm that the research included within this thesis is my own work or that where it has been carried out in collaboration with, or supported by others, that this is duly acknowledged below and my contribution indicated. Previously published material is also acknowledged below. I attest that I have exercised reasonable care to ensure that the work is original, and does not to the best of my knowledge break any UK law, infringe any third party’s copyright or other Intellectual Property Right, or contain any confidential material. I accept that the College has the right to use plagiarism detection software to check the electronic version of the thesis. I confirm that this thesis has not been previously submitted for the award of a degree by this or any other university. The copyright of this thesis rests with the author and no quotation from it or information derived from it may be published without the prior written consent of the author. Signature: Date: Details of collaboration and publications Chapter 2 is published in Zohren et al. (2016): Zohren J, Wang N, Kardailsky I, Borrell JS, Joecker A, Nichols RA, Buggs RJA (2016).
    [Show full text]