DOCSLIB.ORG

Arctic Vegetation Archive (AVA) Workshop Krakow, Poland, April 14-16, 2013 Credits

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Arctic Vegetation Archive (AVA) Workshop Krakow, Poland, April 14-16, 2013 Credits p u o r G C a A or FF Fl CAFF Proceeding Series Report Nr. 10 September 2013 Arctic Vegetation Archive (AVA) Workshop Krakow, Poland, April 14-16, 2013 Credits CAFF Designated Agencies: • Directorate for Nature Management, Trondheim, Norway • Environment Canada, Ottawa, Canada • Faroese Museum of Natural History, Tórshavn, Faroe Islands (Kingdom of Denmark) • Finnish Ministry of the Environment, Helsinki, Finland • Icelandic Institute of Natural History, Reykjavik, Iceland • The Ministry of Housing, Nature and Environment, Government of Greenland • Russian Federation Ministry of Natural Resources, Moscow, Russia • Swedish Environmental Protection Agency, Stockholm, Sweden • United States Department of the Interior, Fish and Wildlife Service, Anchorage, Alaska CAFF Permanent Participant Organizations: • Aleut International Association (AIA) • Arctic Athabaskan Council (AAC) • Gwich’in Council International (GCI) • Inuit Circumpolar Council (ICC) – Greenland, Alaska and Canada • Russian Indigenous Peoples of the North (RAIPON) • Saami Council This publication should be cited as: Walker, D.A. Breen, A.L., Raynolds, M.K. & Walker, M.D. (Ed). 2013. Arctic Vegetation Archive (AVA) Workshop, Krakow, Poland, April 14-16, 2013. CAFF Proceedings Report #10. Akureyri, Iceland. ISBN: 978-9935-431-24-0 Cover photo: Fred Daniëls sampling a wet relevé plot in the high Arctic at Isachsen, Ellef Ringnes Island, Canada. Dominant species in the relevé include Luzula nivalis, Alopecurus alpinus, Schistidium holmenianum, Oncophorus wahlenbergii, Aulacomnium turgidum, Polytrichastrum alpinum, Collema ceraniscum, and Lecidea ramulosa Photo: D.A. Walker, July 2005. Back cover photo: Snowbed vegetation in the high Arctic at Isachsen, Ellef Ringnes Island, Canada. Photo: Fred Daniëls, July 2005. For more information please contact: CAFF International Secretariat Borgir, Nordurslod 600 Akureyri, Iceland Phone: +354 462-3350 Fax: +354 462-3390 Email: [email protected] Internet: www.caff.is Editing: D.A. Walker, A. Breen, M.K. Raynolds, M.D. Walker Layout: Courtney Price ___ CAFF Designated Area ska Ala Geob ot an y C p e n t u e r o r G C a A or l I FF F ns tit gy ute lo of Arctic Bio www.geobotany.uaf.edu 3 Table of Contents Acknowledgements .................................................................................................................................4 Preface ......................................................................................................................................................5 21 years to common ground: protecting our shared biodiversity legacy ...............................................................5 Marilyn D. Walker Introductory talk .....................................................................................................................................6 Overview of the Arctic Vegetation Archive Workshop, 14-16 April, Krakow, Poland ...........................................6 D.A. Walker Keynote address: Some reflections on the realization of an international pan-Arctic vegetation classification ................................................................................................................................................................................ 12 Fred J.A. Daniëls Short and extended abstracts of papers presented at the workshop...............................................17 Toward an Alaska prototype for the Arctic Vegetation Archive ................................................................................17 Amy L. Breen, Martha K. Raynolds, Stephan Hennekans, Marilyn Walker & Donald A. Walker Greenland data stored in the Arctic Vegetation Archive (AVA) in Münster ...........................................................29 Helga Bültmann & Fred J. A. Daniëls Phytosocioloy of the Western Canadian Arctic................................................................................................................33 Fred J.A. Daniëls and Dietbert Thannheiser Yamal and Gydan vegetation datasets ...............................................................................................................................40 Ksenia Ermokhina Vegetation data from boreal tundra of the North Atlantic and North Pacific regions ......................................45 Anna Maria Fosaa, Fred J. A. Daniëls, Starri Heiðmarsson, Ingibjörg S. Jónsdóttir and Stephen S. Talbot Unifying and analyzing vegetation-plot databases in Europe: the European Vegetation Archive (EVA) and the Braun-Blanquet project .......................................................................................................................................... 50 Borja Jiménez-Alfaro et. al. Application of Russian Arctic local flora database to the issues of Arctic biodiversity conservation ..........52 O.V. Khitun, T.M. Koroleva, S.V. Chinenko, V.V. Petrovsky, E.B. Pospelova, A.A Zverev A syntaxonomic analysis of the northwest to southwest vegetation gradient in the western part of European Russia Arctic ............................................................................................................................................................ 57 N. E. Koroleva Vegetation of the Vasyakha River Basin (Yugorsky Peninsula, Pai-Hoy Ridge) – a case study of vegetation diversity in the European sector of the Russian Arctic ...........................................................................60 Ekaterina Kulyugina Spatial vegetation structure of southern tundra from three sectors of the Siberian Arctic ...........................64 Nikolay Lashchinskiy VegBank: a permanent online repository for international plot and relevé data ...............................................66 Michael T. Lee and Robert K. Peet Vegetation data available for classification of Canadian Arctic sites .......................................................................71 Esther Lévesque, William H. MacKenzie, and Greg H.R. Henry A data compilation of Canadian Arctic vegetation relevé data and preliminary classification ....................75 William H. MacKenzie 4 The Russian input to the Arctic Vegetation Archive and an example of the value of plot data for assessing climate change on the Taymyr Peninsula ..................................................................................................... 76 N. V. Matveyeva, M. M. Cherosov, & M. Yu Telyatnikov Phytosociology of the Svalbard Archipelago including Bjørnøya and Jan Mayen .............................................81 Lennart Nilsen and Dietbert Thannheiser Approaches for storing and analyzing geobotanical data ..........................................................................................88 Alexander Novakovskiy The Pan-Arctic Species List (PASL) ........................................................................................................................................92 Martha K. Raynolds, Amy L. Breen, Donald A. Walker, Reidar Elven, René Belland, Nadezda Konstantinova, Hörður Kristinsson & Stephan Hennekens Vegetation datasets for Chukotka (Russia) .......................................................................................................................96 V. Razzhivin Towards assessing biodiversity feedbacks to climate in the Arctic - future application of the AVA .........101 Gabriela Schaepman-Strub, Maitane Iturrate, Reinhard Furrer The Arctic Vegetation Archive as a source for understanding spatial distribution of Arctic biodiversity ................................................................................................................................................................................103 Laerke Stewart, Niels M. Schmidt, Mary S. Wisz and Loïc Pellissier Plant communities of southern hypoarctic tundra of the Anabar River basin (North-West Yakutia) ......108 Mikhail Yu. Telyatnikov, Elena I. Troeva, Mikhail M. Cherosov, Sergey A. Pristyazhnyuk, Paraskovia A. Gogoleva & Lyudmila A. Pestryakova Participants and first authors .............................................................................................................110 Acknowledgements The Krakow workshop was sponsored by a workshop grant from the International Arctic Science Committee (IASC) with additional support provided by the U.S. National Aeronautics and Space Administration (NASA Grants NNX09AK56G and NNX13AM20G). The Conservation of Arctic Flora and Fauna (CAFF), the CAFF Flora Group, and the Institute of Arctic Biology, University of Alaska Fairbanks, provided administrative support for the meeting. We particularly thank CAFF personnel, Tom Barry, Courtney Price, and Kári Fannar Lárusson for their help prior to and during the workshop and for preparation of this proceedings report. We also thank the staff at the Floriańska Guesthouse in Krakow for the excellent lodging and facilities for the meeting. The planning for the Krakow workshop took place at two earlier workshops in 2012 at Aarhus University, Roskilde, Denmark funded by TFI Networks grant to Prof. Chr. Damgaard, “Effect Studies and Adaptation to Climate Change,” under the Norforsk initiative (2011 – 2014). 5 Preface 21 years to common ground: protecting our shared biodiversity legacy Marilyn D. Walker HOMER Energy, Boulder, Colorado, USA, [email protected] AVA’s roots began in Boulder, Colorado, in the Spring of 1992, when I convened the first Circumpolar Arctic Vegetation Workshop, consisting of a small group of dedicated vegetation specialists from the US, Canada, Germany, the Soviet Union, Norway, and Finland.
Load more

Recommended publications
  • Title Post-Soviet Period Changes in Resource Utilization and Their
    Post-Soviet Period Changes in Resource Utilization Title and Their Impact on Population Dynamics: Chukotka Autonomous Okrug Author(s) Litvinenko, Tamara Vitalyevna; Kumo, Kazuhiro Citation Issue Date 2017-08 Type Technical Report Text Version publisher URL http://hdl.handle.net/10086/28761 Right Hitotsubashi University Repository Center for Economic Institutions Working Paper Series No. 2017-3 “Post-Soviet Period Changes in Resource Utilization and Their Impact on Population Dynamics: Chukotka Autonomous Okrug” Tamara Vitalyevna Litvinenko and Kazuhiro Kumo August 2017 Center for Economic Institutions Working Paper Series Institute of Economic Research Hitotsubashi University 2-1 Naka, Kunitachi, Tokyo, 186-8603 JAPAN http://cei.ier.hit-u.ac.jp/English/index.html Tel:+81-42-580-8405/Fax:+81-42-580-8333 Post-Soviet Period Changes in Resource Utilization and Their Impact on Population Dynamics: Chukotka Autonomous Okrug Tamara Vitalyevna Litvinenko Institute of Geography, Russian Academy of Sciences Kazuhiro Kumo Institute of Economic Research, Hitotsubashi University, Japan Abstract This study examines changes that have occurred in the resource utilization sector and the impact of these changes on population dynamics in the Chukotka Autonomous Okrug during the post-Soviet period. This paper sheds light on the sorts of population-dynamics-related differences that have emerged in the region and how these differences relate to the use of natural resources and the ethnic composition of the population. Through this study, it was shown that changes have tended to be small in local areas where indigenous peoples who have engaged in traditional natural resource use for a large proportion of the population, while changes have been relatively large in areas where the proportion of non-indigenous people is high and the mining industry has developed.
    [Show full text]
  • Contemporary State of Glaciers in Chukotka and Kolyma Highlands ISSN 2080-7686
    Bulletin of Geography. Physical Geography Series, No. 19 (2020): 5–18 http://dx.doi.org/10.2478/bgeo-2020-0006 Contemporary state of glaciers in Chukotka and Kolyma highlands ISSN 2080-7686 Maria Ananicheva* 1,a, Yury Kononov 1,b, Egor Belozerov2 1 Russian Academy of Science, Institute of Geography, Moscow, Russia 2 Lomonosov State University, Faculty of Geography, Moscow, Russia * Correspondence: Russian Academy of Science, Institute of Geography, Moscow, Russia. E-mail: [email protected] a https://orcid.org/0000-0002-6377-1852, b https://orcid.org/0000-0002-3117-5554 Abstract. The purpose of this work is to assess the main parameters of the Chukotka and Kolyma glaciers (small forms of glaciation, SFG): their size and volume, and changes therein over time. The point as to whether these SFG can be considered glaciers or are in transition into, for example, rock glaciers is also presented. SFG areas were defined from the early 1980s (data from the catalogue of the glaciers compiled by R.V. Sedov) to 2005, and up to 2017: these data were retrieved from sat- Key words: ellite images. The maximum of the SGF reduction occurred in the Chantalsky Range, Iskaten Range, Chukotka Peninsula, and in the northern part of Chukotka Peninsula. The smallest retreat by this time relates to the gla- Kolyma Highlands, ciers of the southern part of the peninsula. Glacier volumes are determined by the formula of S.A. satellite image, Nikitin for corrie glaciers, based on in-situ volume measurements, and by our own method: the av- climate change, erage glacier thickness is calculated from isogypsum patterns, constructed using DEMs of individu- glacier reduction, al glaciers based on images taken from a drone during field work, and using ArcticDEM for others.
    [Show full text]
  • The Vegetation and Flora of Auyuittuq National Park Reserve, Baffin Island
    THE VEGETATION AND FLORA OF AUYUITTOQ NATIONAL PARK RESERVE, BAFFIN ISLAND ;JAMES E. HINES AND STEVE MOORE DEPARTMENT OF RENEWABLE RESOURCES GOVERNMENT OF THE NORTHWEST TERRITORIES YELLOWKNIFE I NORTHWEST TERRITORIES I XlA 2L9 1988 A project completed under contract to Environment Canada, Canadian Parks Service, Prairie and Northern Region, Winnipeg, Manitoba. 0 ~tona Renewable Resources File Report No. 74 Renewabl• R•sources ~ Government of tha N p .0. Box l 310 Ya\lowknif e, NT XlA 2L9 ii! ABSTRACT The purposes of this investigation were to describe the flora and major types of plant communities present in Auyuittuq National Park Reserve, Baffin Island, and to evaluate factors influencing the distribution of the local vegetation. Six major types of plant communities were recognized based on detailed descriptions of the physical environment, flora, and ground cover of shrubs, herbs, bryophytes, ·and lichens at 100 sites. Three highly interrelated variables (elevation, soil moisture, and texture of surficial deposits) seemed to be important in determining the distribution and abundance of plant communities. Continuous vegetation developed mainly at low elevations on mesic to wet, fine-textured deposits. Wet tundra, characterized by abundant cover of shrubs, grasses, sedges, and forbs, occurred most frequently on wet, fine-textured marine and fluvial sediments. Dwarf shrub-qram.inoid comm.unities were comprised of abundant shrubs, grasses, sedges and forbs and were found most frequently below elevations of 400 m on mesic till or colluvial deposits. Dwarf shrub comm.unities were characterized by abundant dwarf shrub and lichen cover. They developed at similar elevations and on similar types of surficial deposits as dwarf-shrub graminoid communities.
    [Show full text]
  • Lichens and Vascular Plants in Duvefjorden Area on Nordaust- Landet, Svalbard
    CZECH POLAR REPORTS 9 (2): 182-199, 2019 Lichens and vascular plants in Duvefjorden area on Nordaust- landet, Svalbard Liudmila Konoreva1*, Mikhail Kozhin1,2, Sergey Chesnokov3, Soon Gyu Hong4 1Avrorin Polar-Alpine Botanical Garden-Institute of Kola Scientific Centre of RAS, 184250 Kirovsk, Murmansk Region, Russia 2Department of Geobotany, Faculty of Biology, Lomonosov Moscow State University, Leninskye Gory 1–12, GSP–1, 119234 Moscow, Russia 3Komarov Botanical Institute RAS, Professor Popov St. 2, 197376 St. Petersburg, Russia 4Division of Polar Life Sciences, Korea Polar Research Institute, 26, Songdomirae-ro, Yeonsu-gu, Incheon 21900, Republic of Korea Abstract Floristic check-lists were compiled for the first time for Duvefjorden Bay on Nordaust- landet, Svalbard, based on field work in July 2012 and on data from literature and herbaria. The check-lists include 172 species of lichens and 51 species of vascular plants. Several species rare in Svalbard and in the Arctic were discovered: Candelariella borealis was new to Svalbard. 51 lichen species were newly recorded on Nordaustlandet and 131 lichen species were observed in the Duvefjorden area for the first time. Among lichen species rare in Svalbard and in the Arctic the following can be mentioned: Caloplaca magni-filii, C. nivalis, Lecidea silacea, Phaeophyscia nigricans, Polyblastia gothica, Protothelenella sphinctrinoidella, Rinodina conradii, Stenia geophana, and Tetramelas pulverulentus. Two species of vascular plants, Saxifraga svalbardensis and S. hyperborea, were found new to the Duvefjorden area. The investigated flora is represented mostly by species widespread in Svalbard and in the Arctic. Although Duvefjorden area is situated in the northernmost part of Svalbard, its flora is characterized by relatively high diversity of vascular plants and lichens.
    [Show full text]
  • Kenai National Wildlife Refuge Species List, Version 2018-07-24
    Kenai National Wildlife Refuge Species List, version 2018-07-24 Kenai National Wildlife Refuge biology staff July 24, 2018 2 Cover image: map of 16,213 georeferenced occurrence records included in the checklist. Contents Contents 3 Introduction 5 Purpose............................................................ 5 About the list......................................................... 5 Acknowledgments....................................................... 5 Native species 7 Vertebrates .......................................................... 7 Invertebrates ......................................................... 55 Vascular Plants........................................................ 91 Bryophytes ..........................................................164 Other Plants .........................................................171 Chromista...........................................................171 Fungi .............................................................173 Protozoans ..........................................................186 Non-native species 187 Vertebrates ..........................................................187 Invertebrates .........................................................187 Vascular Plants........................................................190 Extirpated species 207 Vertebrates ..........................................................207 Vascular Plants........................................................207 Change log 211 References 213 Index 215 3 Introduction Purpose to avoid implying
    [Show full text]
  • Accepted Version
    This document is the accepted manuscript version of the following article: Kern, R., Hotter, V., Frossard, A., Albrecht, M., Baum, C., Tytgat, B., … Karsten, U. (2019). Comparative vegetation survey with focus on cryptogamic covers in the high Arctic along two differing catenas. Polar Biology, 42(11), 2131-2145. https://doi.org/10.1007/s00300-019-02588-z 1 1 ORIGINAL PAPER 2 Comparative vegetation survey with focus on cryptogamic covers 3 in the high Arctic along two differing catenas 4 5 Ramona Kern1, Vivien Hotter1, Aline Frossard2, Martin Albrecht1, Christel Baum6, 6 Bjorn Tytgat3, Lotte De Maeyer3, David Velazquez4, Christophe Seppey5, Beat Frey2, 7 Michael Plötze7, Elie Verleyen3, Antonio Quesada4, Mette M. Svenning5, Karin Glaser1, 8 Ulf Karsten1* 9 10 1University of Rostock, Institute of Biological Sciences, Applied Ecology and Phycology, D-18059 Rostock, 11 Germany 12 2 Swiss Federal Research Institute WSL, CH-8903 Birmensdorf, Switzerland 13 3Ghent University, Department of Biology, Protistology and Aquatic Ecology, B-9000 Gent, Belgium 14 4Universidad Autónoma de Madrid, Department of Biology, E-28049 Madrid, Spain 15 5UiT The Arctic University of Norway, Department of Arctic and Marine Biology, Faculty of Biosciences, 16 Fisheries and Economics, N-9037 Tromsø, Norway. 17 6University of Rostock, Soil Sciences, Faculty of Agricultural and Environmental Sciences, D-18059 Rostock, 18 Germany 19 7ETH Zurich, Institute for Geotechnical Engineering, ClayLab, CH-8093 Zürich, Switzerland 20 21 22 *Correspondence: 23 Corresponding Author 24 Prof. Dr. Ulf Karsten, email: [email protected] 25 26 27 Keywords 28 Arctic, Svalbard, cryptogamic cover, soil, moisture, tundra, vegetation survey 29 30 31 Abstract 32 Although cryptogamic covers are important ecosystem engineers in high Arctic tundra, they 33 were often neglected in vegetation surveys.
    [Show full text]
  • Non-Causative Effects of Causative Morphology in Chukchi
    Ivan A. Stenin NON-CAUSATIVE EFFECTS OF CAUSATIVE MORPHOLOGY IN CHUKCHI BASIC RESEARCH PROGRAM WORKING PAPERS SERIES: LINGUISTICS WP BRP 59/LNG/2017 This Working Paper is an output of a research project implemented at the National Research University Higher School of Economics (HSE). Any opinions or claims contained in this Working Paper do not necessarily reflect the views of HSE. SERIES: LINGUISTICS Ivan A. Stenin1 NON-CAUSATIVE EFFECTS OF CAUSATIVE MORPHOLOGY IN CHUKCHI2 The paper discusses the main uses of a synthetic causative marker in Chukchi with special reference to non-causative effects of causative morphology. The causative morpheme expresses general causation when attached to patientive intransitive and some agentive intransitive predicates, namely verbs of directed motion, change of posture and ingestion. Other agentive predicates, intransitive as well as transitive, resist causativization and receive some non-causative interpretation if they form causatives. Such causative verbs usually have applicative-like or rearranging functions. JEL Classification: Z. Keywords: causative, applicative, transitivization, rearranging function, Chukchi. 1 National Research University Higher School of Economics. School of Linguistics. Senior Lecturer; E-mail: [email protected]. 2 The paper was prepared within the framework of the Academic Fund Program at the National Research University Higher School of Economics (HSE) in 2017–2018 (grant № 17-05-0043) and by the Russian Academic Excellence Project «5-100». The author is grateful to all Chukchi speakers who have shared their language knowledge for their patience and generosity. 1. Introduction The paper discusses non-causative effects of causative morphology in Chukchi, a Chukotko- Kamchatkan language spoken in the Russian Far East.
    [Show full text]
  • Shrub Tundras Finland Sweden O 0 Iceland B1
    Circumpolar Arctic Vegetation Barrens Prostrate-shrub tundras Finland Sweden o 0 Iceland B1. Cryptogam, P1. Prostrate dwarf- herb barren shrub, herb tundra Dry to wet barren Dry tundra with patchy landscapes with very B1 vegetation. Prostrate P1 sparse, very low-growing North Atlantic Ocean shrubs < 5 cm tall (such as plant cover. Scattered Dryas and Salix arctica) herbs, lichens, mosses, and are dominant, with liverworts. Subzone A and B, Norway graminoids and forbs. some C at higher elevations. Lichens are also common. Eskimonaesset, North Greenland, C. Bay Bunde Fjord, Axel Heiberg Island, Canada. D.A. Walker Bunde Fjord, 45 o Subzones B and C. o W Russia E 45 B2. Cryptogam barren P2. Prostrate/ complex (bedrock) Hemiprostrate Areas of exposed rock and dwarf-shrub tundra lichens interspersed with B2 Moist to dry tundra lakes and more vegetated P2 dominated by prostrate areas, as found on the and hemiprostrate shrubs Canadian Shield. Subzones Barents Pechora R. Greenland < 15 cm tall, particularly C and D. Sea Canada Cassiope. Subzone C. Daring Lake vicinity, Canada. D.A. Walker Daring Lake vicinity, Svalbard Zackenberg, East Greenland, H.H. Christiansen Baffi n B3. Noncarbonate Island B3a mountain complex B3b Mountain vegetation on Erect-shrub tundras Ob R. noncarbonate bedrock. The S1. Erect dwarf- B3c variety and size of plants decrease with elevation and shrub tundra B3d latitude. Hatching color and Tundra dominated by erect code indicate the bioclimate dwarf-shrubs, mostly < 40 Novaya S1 B3e subzone at the mountain cm tall. Subzone D. base. B3a through B3e Daniëls Qingertivaq Fjord, SE Greenland. F.J.A.
    [Show full text]
  • General Ecology and Vascular Plants of the Hazencamp Area* D
    GENERAL ECOLOGY AND VASCULAR PLANTS OF THE HAZENCAMP AREA* D. B. 0. Savile General description AZEN CAMP,at 81”49’N., 71”18W., lies on a small sandy point on the H northwest shore of Lake Hazen, in northeast Ellesmere Island. Lake Hazen stands at 158 m. above sea-level, extends 78 km. ENE to WSW, and has a maximum width of 11 km. It lies at the northern edge of a plateau bounded on the south by the Victoria and Albert Mountains and on the north by the United States Range. The Garfield Range, a southern outlier of the United States Range, extends to within 4 km. of Hazen Camp. The high mountain ranges and icefields, with extensive areas over 2000 m., and smaller hills effectively protect the land about Lake Hazen from incursions of unmodified cold air, and induce a summer climate that is very exceptional for this latitude. On the other hand the lake itself is large enough to keep air temperatures adjacent to the shore appreciably below those prevailing a few kilometres away. The geologyof northeasternEllesmere Island has recently been described by Christie (1962). The lowlands at Hazen Camp are underlain by Mesozoic and Permian sediments, mainly sandstone and shale. These sediments outcrop conspicuously on Blister Hill (altitude 400 m.), 1.5 to 2.7 km. west of the camp; andon a seriesof small but steep foothills running southwest to northeast along a fault and passing 2.5 to 3 kn. northwest of the camp. These rocks weather rapidly. Consequently sand and clay in varying proportions are plentiful in the camp area.
    [Show full text]
  • Summary of Yamal Vegetation and Flora
    SummarySummary ofof YamalYamal vegetationvegetation andand floraflora O. V. Khitun1 and N.G. Moskalenko2 1 Komarov Botanical Institute, St.Petersburg, Russia, [email protected] 2 Earth Cryosphere Institute, Tyumen, Russia, nat-moskalenko@ hotmail.com YAMAL PLANT COMMUNITY MAP: 1:4 000 000 SUBZONE C Kharasavei The map is compiled on a base of space images, landscape map 1:1 000 000, Vegetation map of the USSR (1:4 000 000), vegetation map of Yamal-Gydan district . LEGEND OF PLANT COMMUNITY MAP Map unit Description Communities Zone E Zone B 76 Dry acidic Ledum decumbens - Zone D dwarf shrub - Vaccinium vitis - 9 Moist acidic Aulacomnium turgidum - 43 Dry acidic Salix nummularia sedge -lichen - idaea+Empetrum moss-sedge Carex arctisibirica moss tundra subholarcticum -Cladina tundra dwarf shrub - +Dryas subincisa - lichen tundra Cetraria cucullata mitis 15 Wet acidic moss - Calliergon sarmentosum - 44 Dry acidic Ledum decumbens - Dryas subincisa -Carex sedge mire Carex stans+Eriophorum arctisibirica -Cladina dwarf shrub - Vaccinium minus - polystachion rangiferina+Racomitriu moss -lichen Cetraria cucullata + m lanuginosum tundra Racomitrium 78 Dry Dryas subincisa Zone C lanuginosum nonacidic low +Diapensia lapponica - shrub - Pedicularis sudetica - 24 Dry acidic Salix nummularia -Carex prostrate dwarf arctisibirica -Alectoria prostrate Alectoria ochroleuca + shru b-sedge - ochroleuca dwarf shrub - Racomitrium lichen tundra forb-lichen - lanuginosum Cetraria cucullata - 50 Moist acidic Betula nana -Carex moss tundra Salix glauca+S. lanata
    [Show full text]
  • Post-Soviet Period Changes in Resource Utilization And
    Tamara Litvinenko1*, Kazuhiro Kumo2 1Institute of Geography RAS 2Hitotsubashi University, Institute of Economic Research *Corresponding author; e-mail: [email protected] POST-SOVIET PERIOD CHANGES IN ustainability S RESOURCE UTILIZATION AND THEIR 66 IMPACT ON POPULATION DYNAMICS IN CHUKOTKA AUTONOMOUS OKRUG (RUSSIA) Abstract. This study examines changes that have occurred in the resource utilization sector and the impact of these changes on population dynamics in the Chukotka Autonomous Okrug (Russia) during the post-Soviet period. This paper discuss topics of population-dynamics-related differences that have emerged in the region and impacts of these differences on the use of natural resources and the ethnic composition of the population. Through this study, it was shown that changes have tended to be small in local areas where indigenous peoples who have engaged in traditional natural resource use for a large proportion of the population, while changes have been relatively large in areas where the proportion of non-indigenous people is high and the mining industry has developed. Key WORDS: Chukotka Autonomous Okrug, indigenous people, non-indigenous people, population dynamics, natural resource utilization, human settlements, intra-regional differences, non-renewable mineral resources, renewable natural resources. Citation: Tamara Litvinenko, Kazuhiro Kumo(2017) Post-soviet period changes in resource utilization and their impact on population dynamics in Chukotka autonomous okrug (Russia). Geography, Environment, Sustainability (GES Journal), Vol.11, No 3, p. 66-86 DOI-10.24057/2071-9388-2017-11-3-66-86 Introduction traditional ways has maintained local stability (Mulvihill and Jacobs 1991; Duerden 1992; The demographic economic systems in the Khaknazarov 2013). Nevertheless, it is not yet North are extremely unstable.
    [Show full text]
  • Intorduction: On... Gender Shift
    Introduction: On the Definition, Theory, and Practice of Gender Shift in the North of Russia Olga Povoroznyuk, Joachim Otto Habeck, and Virginie Vaté Abstract The authors of the paper write about the history of this special issue, explain why they have chosen the Russian North as their focus and render their understanding of changing gender relations through the definition of gender shift. Further, they describe multiple interrelated processes of gender shift, or gender shifts, unfolding in demographic, socio-economic, symbolic and cultural, administrative and political spheres. This description is illustrated with references to the diverse contributions to this issue, which represent a wide range of topics and approaches and provide rich empirical material originating from northern indigenous and multiethnic, nomadic, rural and urban communities. Discussions on and interpretations of gender shift are followed by anthropological case studies presented by the three authors on the basis of their research conducted in Zabaikal‟skii Territory, Komi Republic, and Chukotka. Keywords: Gender Shift, Russian North, Demography, Socio-Economic Aspects, Gendered Spaces, Sexuality, Social Institutions, Political Power, Family Split, Social Engineering, Religious Practices In May 2008 the editors of this volume organized in Cesvaine, a small town in Latvia, a workshop entitled “Gender Shift in Northern Communities of Russia,” supported by the Wenner- Gren Foundation for Anthropological Research and the Max Planck Institute for Social Anthropology. Out of the papers presented during this workshop and the intensive discussions that followed each of the presentations grew this special issue. Setting the frame for the articles to come, we would like to explain why we decided to invite a number of specialists to reflect on gender relations in this part of the world (the Russian North1), how we define this notion of “gender shift,” and how each of us individually relates to this notion in our respective research.
    [Show full text]