DOCSLIB.ORG

Climate Change

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Climate Change This “Mongolia Second Assessment Report on Climate Change 2014” (MARCC 2014) has been developed and published by the Ministry of Environment and Green Development of Mongolia with financial support from the GIZ programme “Biodiversity and adaptation of key forest ecosystems to climate change”, which is being implemented in Mongolia on behalf of the German Federal Ministry for Economic Cooperation and Development. Copyright © 2014, Ministry of Environment and Green Development of Mongolia Editors-in-chief: Damdin Dagvadorj Zamba Batjargal Luvsan Natsagdorj Disclaimers This publication may be reproduced in whole or in part in any form for educational or non-profit services without special permission from the copyright holder, provided acknowledgement of the source is made. The Ministry of Environment and Green Development of Mongolia would appreciate receiving a copy of any publication that uses this publication as a source. No use of this publication may be made for resale or any other commercial purpose whatsoever without prior permission in writing from the Ministry of Environment and Green Development of Mongolia. TABLE OF CONTENTS List of Figures . 3 List of Tables . .. 12 Abbreviations . 14 Units . 17 Foreword . 19 Preface . 22 1. Introduction. Batjargal Z. 27 1.1 Background information about the country . 33 1.2 Introductory information on the second assessment report-MARCC 2014 . 31 2. Climate change: observed changes and future projection . 37 2.1 Global climate change and its regional and local implications. Batjargal Z. 39 2.1.1 Observed global climate change as estimated within IPCC AR5 . 40 2.1.2 Temporary slowing down of the warming . 43 2.1.3 Driving factors of the global climate change . 44 2.1.4 Future projection of global climate change as outlined within AR5 . 45 2.1.5 The regional and local consequences of the global scale climate change . 49 2.1.6 Climate of Mongolia in the last centuries . 51 2.1.7 Climate impact mechanism for the territory of Mongolia . 52 2.1.8 Recently observed and projected climate change in Asia, referring to the IPCC reports . 54 2.1.9 Potential impacts of the global climate change within Asian region, including Mongolia . 54 2.2 Climate research and observed climate change in Mongolia. Natsagdorj L., Sarantuya G. 59 2.2.1 Monitoring of the climate system . 59 2.2.2 Climate research . 63 2.2.3 Climate regime . 66 2.2.4 Observed climate variability and change . 69 2.3 Future climate change projection in Mongolia. Gomboluudev P. 72 2.3.1 Review on previous study . 73 2.3.2 Climate change projections . 73 2.4 Concluding remarks . 78 3 3. Climate change impacts and exposure . 85 3.1 Climate change impacts on the environmental components . 87 3.1.1 Soil and pasture. Erdenetsetseg B. 87 3.1.2 Forest ecosystem. Dorjsuren Ch. 94 3.1.3 Fauna. Enkhbileg D. 100 3.1.4 Water resources, glacier and permafrost. Davaa G., Jambaljav Ya. 109 3.1.5 Natural disaster. Doljinsuren M. 127 3.1.6 Land degradation and desertification. Mandakh N. 132 3.1.7 Dust/sand storm. Jugder D. 139 3.2 Climate change impact on society and economy . 143 3.2.1 Animal husbandry. Bolortsetseg B., Radnaa G. 143 3.2.2 Arable farming production. Davaadorj G., Gantsetseg B. 148 3.2.3 Poverty and human development. Battsetseg Ts. 155 3.2.4 Infrastructure. Battsetseg Ts. 160 3.2.5 Human health. Burmaajav B. 165 3.3 Vulnerability and risk assessment. Natsagdorj L. 170 4. Climate change adaptation strategy and measures. Natsagdorj L. 181 4.1 Justification for climate change adaptation . .. 183 4.2 Possible adaptation options for vulnerable sectors . 184 4.2.1 Animal husbandry . 184 4.2.2 Arable farming . 187 4.2.3 Water resource . .. 188 4.2.4 Forest resource . .. 190 4.3 Standing against climate change and achieving green development . 197 4.4 Adaptation means . 198 4.4.1 Adaptation strategy . 199 4.4.2 Possible challenges and constraints in implementing climate change adaptation measures and activities . 200 5. Greenhouse gas monitoring and inventory . 203 5.1 Greenhouse gas monitoring. Oyunchimeg D. 205 5.2 Greenhouse gas inventory . .. 207 5.2.1 Energy sector. Tegshjargal B. 207 5.2.2 Industrial sector. Tegshjargal B. 212 5.2.3 Agricultural sector. Sanaa E. .. 215 5.2.4 Waste sector. Sanaa E.. 217 5.2.5 Net greenhouse gas emissions in Mongolia . 220 4 6. Climate change mitigation strategy and measures. 225 6.1 Projections of GHG emissions. Dorjpurev J. 227 6.2 Mitigating GHG emissions in mid-term period. Dorjpurev J. 228 6.3 Policies and measures to reduce GHG emissions. Dorjpurev J. 235 6.4 Nationally appropriate mitigation action (NAMA). Saruul D. 240 6.5 International mechanism and opportunities to implement GHG mitigation measures. Dorjpurev J. .. 244 6.6 Green development and GHG emission reduction. Dorjpurev J. 247 6.7 Enhanced carbon sequestration by land ecosystems. Sanaa E. 248 7. Technology needs assessment . 255 7.1 Mitigation technology assessment. Namkhainyam B. .. 257 7.1.1 Technology needs assessment of energy sector . 257 7.1. 2 Technology assessments of transportation sector . 264 7.1. 3 Technology assessments of industrial sector . 265 7.1. 4 Technology assessment of livestock sector . 266 7.1. 5 Technology assessment of land use and forestry . 267 7.1. 6 Technology assessment in the waste management sector . 268 7.2 Adaptation technology assessment. Bolortsetseg B. 270 7.2.1 Potential adaptation technologies in vulnerable sectors . 271 7.2. 2 Barrier analysis and enabling framework . 274 7.2. 3 Technology action plan . 279 7.2. 4 Project ideas . 281 8 Policy framework, institutional arrangements, international cooperation and public awareness . 283 8.1 Legal and policy framework. Gerelt-Od Ts., Dagvadorj D. 285 8.2 Other climate change policies and strategies. Gerelt-Od Ts., Dagvadorj D. 287 8.3 Institutional arrangements. Gerelt-Od Ts., Dagvadorj D. 288 8.4 Green development policy and its climate change aspect. Dagvadorj D.. 289 8.5 International cooperation on climate change. Saruul D., Dagvadorj D. 293 8.5.1 Cooperation with international organizations and partner countries . 293 8.5.2 Barriers to cooperation and an outlook for the future . 297 8.6 Climate change public awareness and education. Gerelmaa Sh. 297 8.6.1 Improving public awareness and forming a smart lifestyle . 299 8.6.2 Good practices of activities, training, projects and programs . 300 8.7 Way forward. Dagvadorj D. 302 5 List of Figures 2.1 Observed global mean combined land and ocean surface temperature anomalies, from 1850 to 2012 2.2 Map of the observed surface temperature change from 1901 to 2012 2.3 Maps of observed precipitation change from 1901-2010 and from 1951 to 2010 2.4 Multiple observed indicators of a changing global climate 2.5 The effects of large scale volcanic eruption on the global temperature trend 2.6 Maps of CMIP5 multi*model mean results for the scenarios RCP 2.6 and RCP 8.5 in 2081-2100 of a) annual mean surface temperature change and b) average percent change in annual mean precipitation 2.7 a) Global average surface temperature change relative to 1986-2005 b) Northern Hemisphere September sea ice extent c) Global ocean surface pH 2.8 Global mean sea level rise 2.9 Temperature increase and cumulative carbon emissions 2.10 Holocene climate and landscape evolution of UgiiNuur basin, Orkhon Valley, Central Mongolia 2.11 Mean temperature trend in different distinct ecological zones 2.12 Annual precipitation trend in different distinct ecological zones 2.13 Moisture supply scheme for the territory of Mongolia through atmospheric circulation 2.14 Observed and projected changes in annual average temperature and precipitation in Asia 2.15 Meteorological observation land network of Mongolia 2.16 Location of the new network of dust monitoring stations 2.17 Location of river and lake monitoring stations 2.18 Permafrost monitoring network 2.19 Geographical distribution of annual mean air temperature 2.20 Geographic distribution of mean air temperature in January 2.21 Geographic distribution of July mean average temperature 0 2.22 Growing Degree.
Load more

Recommended publications
  • State Emergency Commission 2016
    January 4, State Emergency Commission 2016 EMERGENCY ASSESSMENT TEAM REPORT ON THE MISSION FOR EVALUATION OF THE WINTER CONDITIONS AND RISK ASSESSMENT Regarding the direction given by the Prime Minister of Mongolia, Emergency Assessment Teams to examine the winter conditions, conduct disaster risk assessments in 21 aimags and solve some urgent issues on the site, established under the Order of the Deputy Prime Minister of Mongolia and Chairperson of the State Emergency Commission, had a mission from 16 December to 28 December 2015 in 21 aimags. The first team headed by Colonel M.Enkh-Amar, a Secretary of the State Emergency Commission, worked in Uvurkhangai, Bayakhongor, Gobi-Altai, Khovd, Bayan-Ulgii, Uvs, Zavkhan, Arkhangai, Khuvsgul, Bulgan, Orkhon, Selenge and Darkhan-Uul aimags. The second team headed by Colonel Ts.Ganzorig, a Deputy Chief of NEMA, worked in Khentii, Dornod, Sukhbaatar, Dornogobi, Umnugobi, Dundgobi, Gobisumber and Tuv aimags. In total, the both teams visited 91 soums of 21 aimags. The teams included the officials and experts from the line ministries and agencies such as State Emergency Commission, Ministry of Food and Agriculture, Ministry of Health and Sports, Ministry of Road and Transport, National Emergency Management Agency, General Police Department, Specialised Inspection Authotiry, Hydro-Meteorological and Environmental Research Centre, and Disaster Research Institute. During the mission, the meetings of the aimag emergency commissions were convened, the situation in the soums with deteriorating winter conditions was examined in the field, herding households were visited, assessment and conclusions were made on the operations of the local branches of the state reserves, thermotransmission lines, the preparedness of power stations and the outreach of herders on remote pasture lands by public and health services, examination of the work for clearing blocked roads and mountain passes was carried out, some issues were solved and necessary assignments and directions were given.
    [Show full text]
  • Cnnc International Limited 中核國際有限公司
    THIS CIRCULAR IS IMPORTANT AND REQUIRES YOUR IMMEDIATE ATTENTION If you are in any doubt as to any aspect of this circular or as to the action to be taken, you should consult your stockbroker or other registered dealer in securities, bank manager, solicitor, professional accountant or other independent professional adviser. If you have sold or transferred all your shares in CNNC International Limited (the ‘‘Company’’), you should at once hand this circular to the purchaser(s) or transferee(s) or to the bank, stockbroker or other agent through whom the sale or transfer was effected for transmission to the purchaser(s) or transferee(s). Hong Kong Exchanges and Clearing Limited and The Stock Exchange of Hong Kong Limited take no responsibility for the contents of this circular, make no representation as to its accuracy or completeness and expressly disclaim any liability whatsoever for any loss howsoever arising from or in reliance upon the whole or any part of the contents of this circular. This circular is for information purposes only and does not constitute an invitation or offer to acquire, purchase or subscribe for any shares. CNNC INTERNATIONAL LIMITED 中 核 國 際 有 限 公 司* (Incorporated in the Cayman Islands with limited liability) (Stock Code: 2302) MAJOR TRANSACTION (1) OFFER TO ACQUIRE A MINIMUM OF 50.1% AND UP TO ALL THE ISSUED AND OUTSTANDING COMMON SHARES OF WESTERN PROSPECTOR (OTHER THAN THOSE ALREADY BENEFICIALLY OWNED BY FIRST DEVELOPMENT) (2) SUBSCRIPTION AGREEMENT TO SUBSCRIBE FOR NEW SHARES IN WESTERN PROSPECTOR BY FIRST DEVELOPMENT * For identification purpose only 30 June 2009 CONTENTS Page DEFINITIONS .......................................................................
    [Show full text]
  • Fiscal Federalism and Decentralization in Mongolia
    Universität Potsdam Ariunaa Lkhagvadorj Fiscal federalism and decentralization in Mongolia Universitätsverlag Potsdam Ariunaa Lkhagvadorj Fiscal federalism and decentralization in Mongolia Ariunaa Lkhagvadorj Fiscal federalism and decentralization in Mongolia Universitätsverlag Potsdam Bibliografische Information der Deutschen Nationalbibliothek Die Deutsche Nationalbibliothek verzeichnet diese Publikation in der Deutschen Nationalbibliografie; detaillierte bibliografische Daten sind im Internet über http://dnb.d-nb.de abrufbar. Universitätsverlag Potsdam 2010 http://info.ub.uni-potsdam.de/verlag.htm Am Neuen Palais 10, 14469 Potsdam Tel.: +49 (0)331 977 4623 / Fax: 3474 E-Mail: [email protected] Das Manuskript ist urheberrechtlich geschützt. Zugl.: Potsdam, Univ., Diss., 2010 Online veröffentlicht auf dem Publikationsserver der Universität Potsdam URL http://pub.ub.uni-potsdam.de/volltexte/2010/4176/ URN urn:nbn:de:kobv:517-opus-41768 http://nbn-resolving.org/urn:nbn:de:kobv:517-opus-41768 Zugleich gedruckt erschienen im Universitätsverlag Potsdam ISBN 978-3-86956-053-3 Abstract Fiscal federalism has been an important topic among public finance theorists in the last four decades. There is a series of arguments that decentralization of governments enhances growth by improving allocation efficiency. However, the empirical studies have shown mixed results for industrialized and developing countries and some of them have demonstrated that there might be a threshold level of economic development below which decentralization is not effective. Developing and transition countries have developed a variety of forms of fiscal decentralization as a possible strategy to achieve effective and efficient governmental structures. A generalized principle of decentralization due to the country specific circumstances does not exist. Therefore, decentra- lization has taken place in different forms in various countries at different times, and even exactly the same extent of decentralization may have had different impacts under different conditions.
    [Show full text]
  • Key Sites for Key Sites for Conservation
    Directory of Important Bird Areas in Mongolia: KEY SITES FOR CONSERVATION A project of In collaboration with With the support of Printing sponsored by Field surveys supported by Directory of Important Bird Areas in Mongolia: KEY SITES FOR CONSERVATION Editors: Batbayar Nyambayar and Natsagdorj Tseveenmyadag Major contributors: Ayurzana Bold Schagdarsuren Boldbaatar Axel Bräunlich Simba Chan Richard F. A. Grimmett and Andrew W. Tordoff This document is an output of the World Bank study Strengthening the Safeguard of Important Areas of Natural Habitat in North-East Asia,fi nanced by consultant trust funds from the government of Japan Ulaanbaatar, January 2009 An output of: The World Bank study Strengthening the Safeguard of Important Areas of Natural Habitat in North-East Asia,fi nanced by consultant trust funds from the government of Japan Implemented by: BirdLife International, the Wildlife Science and Conservation Center and the Institute of Biology of the Mongolian Academy of Sciences In collaboration with: Ministry of Nature, Environment and Tourism Supporting organisations: WWF Mongolia, WCS Mongolia Program and the National University of Mongolia Editors: Batbayar Nyambayar and Natsagdorj Tseveenmyadag Major contributors: Ayurzana Bold, Schagdarsuren Boldbaatar, Axel Bräunlich, Simba Chan, Richard F. A. Grimmett and Andrew W. Tordoff Maps: Dolgorjav Sanjmyatav, WWF Mongolia Cover illustrations: White-naped Crane Grus vipio, Dalmatian Pelican Pelecanus crispus, Whooper Swans Cygnus cygnus and hunters with Golden Eagles Aquila chrysaetos (Batbayar Nyambayar); Siberian Cranes Grus leucogeranus (Natsagdorj Tseveenmyadag); Saker Falcons Falco cherrug and Yellow-headed Wagtail Motacilla citreola (Gabor Papp). ISBN: 978-99929-0-752-5 Copyright: © BirdLife International 2009. All rights reserved. The use and reproduction of any part of this publication is welcomed for non-commercial purposes only, provided that the source is acknowledged Suggested citation: Nyambayar, B.
    [Show full text]
  • CHAPTER 1 INTRODUCTION 1.1 Introduction
    CHAPTER 1 INTRODUCTION 1.1 Introduction Transport plays a crucial role in the efficient functioning of the domestic economy as well as development of international trade due to dependence on both coal-based energy production and imports. However, the issues in the transport sector of Mongolia are mainly derived from the salient features of a landlocked country with a low population and a long distance between population centers. A major characteristics of transportation in Mongolia is the collection and distribution by road of both passenger traffic and cargo transport from the north-south transport axis centering on Ulaanbaatar. The main north-south axis comprises both rail and road. Within road transport, the density of arterial road network remains very low and unpaved earth roads or multiple shifting tracks occupy a large portion of arterial roads. More than 30% of population and a half of national car ownership are concentrated in Ulaanbaatar City, while very low level of mobility is found in rural area because non-motorized traffic such as horse and cart prevails. Recently, such gap of mobility level is increasing. Under such circumstances, in response to the request of the Government of Mongolia (hereinafter referred to as "GOM"), the Government of Japan decided to conduct the Feasibility Study on Construction of Eastern Arterial Road in Mongolia (hereinafter referred to as "the Study"), in accordance with the relevant laws and regulations in force in Japan. Japan International Cooperation Agency (hereinafter referred to as "JICA"), the official agency responsible for the implementation of the technical cooperation programs of the Government of Japan, dispatched the preparatory study team headed by Mr.
    [Show full text]
  • 2016/2017 Dzud Emergency Response, Mongolia Needs Assessment and Response Plan
    2016/2017 Dzud Emergency Response, Mongolia Needs Assessment and Response Plan Photo: Regis Defurnaux, 2016 People in Need January 2017 LIST OF FIGURES 2 LIST OF ACRONYMS 2 GLOSSARY 2 INTRODUCTION 3 CONTEXT 3 ASSESSMENT METHODOLOGY 5 CURRENT SITUATION 7 DORNOD PROVINCE 11 KHENTII PROVINCE 14 SUKHBAATAR PROVINCE 15 PIN RESPONSE PLAN 16 VULNERABILITY CRITERIA AND BENEFICIARY SELECTION PROCESS 16 1 ESTIMATES OF AFFECTED AND TARGET HOUSEHOLDS IN DORNOD, KHENTII AND SUKHBAATAR PROVINCES 17 AGRICULTURE 18 EARLY RECOVERY 21 COORDINATION & FUNDRAISING 22 UN CERF 22 UN HUMANITARIAN COUNTRY TEAM - AGRICULTURAL CLUSTER 22 ANNEXES 24 Annex 1. Data collection sheet 24 Annex 2: Beneficiary selection process 24 Annex 3: Photos 24 SOURCES 24 2016/2017 Dzud Emergency Response: Needs Assessment and Response Plan People in Need, January 2017 List of Figures FIGURE 1: DZUD CONTRIBUTIONS AND THEIR IMPACT ........................................................................................... 4 FIGURE 2: DATA COLLECTED DURING THE NEEDS ASSESSMENT ........................................................................... 6 FIGURE 3: INDICATORS SIGNALLING THE SEVERITY OF 2016/2017 DZUD COMPARED TO LAST YEAR .................. 7 FIGURE 4: SOUMS EVALUATED AS WITH DZUD IN DORNOD, KHENTII AND SUKHBAATAR PROVINCES .................. 9 FIGURE 5: COMPARISON OF DZUD SITUATION IN MONGOLIA IN DECEMBER 2016 AND JANUARY 2017 ............ 10 FIGURE 6: SOUMS IN DORNOD PROVINCE ...........................................................................................................
    [Show full text]
  • Aeolian Processes and Dune Morphology in the Gobi and Badain Jaran Desert Using Landsat Imagery
    Geophysical Research Abstracts Vol. 16, EGU2014-7245, 2014 EGU General Assembly 2014 © Author(s) 2014. CC Attribution 3.0 License. Aeolian processes and dune morphology in the Gobi and Badain Jaran Desert using LandSat Imagery. Marco Cardinale (1,2), Arturo Cannito (1,2), Lucia Marinangeli (1,2) (1) Univ. D’Annunzio, DISPUTer, Chieti, Italy ([email protected]), (2) Univ. D’Annunzio, IRSPS, Pescara, Italy The Gobi and Badain Jaran Deserts are parts of the vast sand sea of the Alashan Region, one of the greatest dunefield in China [1]. They lie between the southern Mongolia and the northern China (latitude 37◦ 06’N - 41◦50’N; longitude 99◦10’E - 107◦09’E) [2]. The studied area is characterized by an arid climate with low average annual rainfall between 50-60mm, extreme fluctuation in temperature, very strong winds and by the occurrence of mega dunes and permanent lakes within the dunefield [3]. According to our morphological analysis, wind action has been one of the main factors that have shaped the surface features inside the investigated area. We produce a detailed geomorphological map of the desertic zone, highlighting the aeolian morphologies, in order to characterize aeolian deposits and processes. The LandSat ETM+ data [4], providing a continuous coverage of the dune fields with no gaps, were processed using ENVI software and then ingested in a GIS project. We also used DTMs (30m / pixel) from Aster data [5]. The dune morphology was classified using McKee criteria [6] and we interpreted the pattern of the complex ergs as the result of self – organization within complex systems [7].
    [Show full text]
  • Eg. Bush, MB 113–40
    Index NOTE: When a page range next to an author’s name appears in bold (eg. Bush, M. B. 113–40), then this indicates the chapter in this Handbook that the author has written. NOTE: All lakes, mountains and rivers are fi led under their names – eg. Alexandrina (Lake). Abbott, M. B. 121 Amazonia 115–19, 128–32, 288, 342, 344 Accelerator Mass Spectrometry (AMS) 220 Ambrose, S. H. 316 acidifi cation 48, 53–6, 72, 84–6, 89, 104–7, 200, ammonia 48 251–2, 269, 428, 440 Amudarya River 439 acid rain debate 53–4, 104–5, 406 Anasazi civilization 356 see also pH levels Anatolia 164, 361 acquired immune defi ciency syndrome 387, 437 ancient DNA (aDNA) 329 Adger, W. N. 380, 433 Anderies, J. M. 381 Adriatic Sea 82, 164 Anderson, A. 339, 348 Advanced Along Track Scanning Radiometer Anderson, L. 206 (AATSR) 8, 10, 19 Andes 113–14, 117–22, 124, 127, 131, 236, 264, 266, Aegean Sea 164, 170, 287–8 276, 342–4, 364 aerosols 101–8, 269, 328, 388, 390 Angola 122 Africa 10, 14, 16–17, 19, 25, 29, 56, 58–9, 105, Antarctic 78, 98–101, 142, 153, 155, 245–61, 442 114–15, 117–19, 122–32, 154, 164–5, 170, 179, geographic defi nitions 246–8 215, 248, 430 polar environmental change 248–56 agriculture and domestication 335, 339 Antarctic Climate Change and the Environment arid and semi-arid regions 142–8, 156 (ACCE) 246 disease in 388, 392, 394–6 anthrax 388, 390 hominid evolution and migration 301–9, 311–18 Anthropocene 65, 74, 82, 88, 95, 97, 99, 108, 245–6 mountain regions 263, 270, 276 ants 31–2 see also individual countries Appalachian Mountains 206 African horse sickness
    [Show full text]
  • 438962 1 En Bookbackmatter 213..218
    Index A Average temperature, 4, 53, 55, 57, 87, 111, 162, 185 Accumulation, 12, 26, 27, 33, 44, 66, 109, 113, 140, 141, Average wind speed, 64 144–146, 152, 155, 162 Achit lake, 37, 116, 165, 208 Active layer, 122, 124–126, 130 B Active layer thickness, 124–126 Baatarkhaihan, 35 Adaatsag, 46 Baga Bogd, 3, 38, 43, 188 Agricultural land, 136, 195–199 Baga Buural, 47 Airag lake, 91, 208 Baga Gazriin Chuluu, 46, 47 Air temperature variation, 111 Baga Khavtag, 45 Aj Bogd, 35, 190 Baga Khentii, 39, 80, 110 Alag khairhan, 35 Baga Uul, 47 Alasha Gobi, 163, 165 Baishin Tsav, 46 Algae, 161, 166 Baitag Bogd, 45 Alluvial fans and sediments, 45, 46 Baruun Khuurai depression, 28, 158, 181 Alluvial-proluvial plains, 27, 29 Baruun Saikhan, 33, 43 Alluvial soils, 145, 157 Baruunturuun, 68, 136 Alpine belts, 66, 171, 185 Bayan, 3, 7, 34–36, 40, 69, 79, 88, 89, 91, 106, 109, 113 Alpine-type high mountains, 32 Bayanbor, 43 Alpine type relief, 44 Bayan Bumbun Ranges, 35 Altai region, 5, 28, 35, 42, 65, 144 Bayankhairhan, 39 Altai-Sayan ecoregion, 210 Bayantsagaan, 42, 43, 47, 49 Altai Tavan Bogd, 24, 35 Bayan-Ulgii, 7, 69, 113 Altankhukhii, 35 Biological diversity, 182 Altan Ulgii, 39 Birds, 161, 162, 169–175, 207, 208 Altitudinal belts, 6, 163, 177, 182–185, 187, 190, 192 Bogd, 3, 11, 34, 36, 38, 40, 42, 49, 101–103, 106, 181, Angarkhai, 38 188, 204, 208 Animal, 4, 6, 7, 11, 12, 16, 33, 72, 145, 169, 171, 172, Bogd Ulaan, 49 197, 205 Boreal, 6, 163, 164, 187, 210 Annual precipitation, 53, 60, 61, 71, 86, 92, 121, 186, Bor Khairhan, 39 188, 189, 192 Borzon
    [Show full text]
  • Fiscal Federalism and Decentralization in Mongolia
    Munich Personal RePEc Archive Fiscal Federalism and Decentralization in Mongolia Lkhagvadorj, Ariunaa Potsdam University February 2010 Online at https://mpra.ub.uni-muenchen.de/28758/ MPRA Paper No. 28758, posted 17 Feb 2011 10:50 UTC Universität Potsdam Ariunaa Lkhagvadorj Fiscal federalism and decentralization in Mongolia Universitätsverlag Potsdam Ariunaa Lkhagvadorj Fiscal federalism and decentralization in Mongolia Ariunaa Lkhagvadorj Fiscal federalism and decentralization in Mongolia Universitätsverlag Potsdam Bibliografische Information der Deutschen Nationalbibliothek Die Deutsche Nationalbibliothek verzeichnet diese Publikation in der Deutschen Nationalbibliografie; detaillierte bibliografische Daten sind im Internet über http://dnb.d-nb.de abrufbar. Universitätsverlag Potsdam 2010 http://info.ub.uni-potsdam.de/verlag.htm Am Neuen Palais 10, 14469 Potsdam Tel.: +49 (0)331 977 4623 / Fax: 3474 E-Mail: [email protected] Das Manuskript ist urheberrechtlich geschützt. Zugl.: Potsdam, Univ., Diss., 2010 Online veröffentlicht auf dem Publikationsserver der Universität Potsdam URL http://pub.ub.uni-potsdam.de/volltexte/2010/4176/ URN urn:nbn:de:kobv:517-opus-41768 http://nbn-resolving.org/urn:nbn:de:kobv:517-opus-41768 Zugleich gedruckt erschienen im Universitätsverlag Potsdam ISBN 978-3-86956-053-3 Abstract Fiscal federalism has been an important topic among public finance theorists in the last four decades. There is a series of arguments that decentralization of governments enhances growth by improving allocation efficiency. However, the empirical studies have shown mixed results for industrialized and developing countries and some of them have demonstrated that there might be a threshold level of economic development below which decentralization is not effective. Developing and transition countries have developed a variety of forms of fiscal decentralization as a possible strategy to achieve effective and efficient governmental structures.
    [Show full text]
  • Hydrological and Climatic Changes in Deserts of China Since the Late Pleistocene
    Quaternary Research 73 (2010) 1–9 Contents lists available at ScienceDirect Quaternary Research journal homepage: www.elsevier.com/locate/yqres Hydrological and climatic changes in deserts of China since the late Pleistocene Xiaoping Yang a,⁎, Louis A. Scuderi b a Key Laboratory of Cenozoic Geology and Environment, Institute of Geology and Geophysics, Chinese Academy of Sciences, P.O. Box 9825, Beijing 100029, China b Department of Earth and Planetary Sciences, University of New Mexico, MSC032040 Albuquerque, NM 87131, USA article info abstract Article history: Large areas in western China were wetlands or less arid between 40 and 30 ka, corresponding to the Received 6 April 2009 “Greatest Lake Period” on the adjacent Tibetan Plateau. During the last glacial maximum, some of these Available online 17 November 2009 western Chinese deserts again experienced wetter conditions; however, at the same time the sandy lands in the eastern Chinese desert belt experienced an activation of aeolian dunes. While interpretations of the mid- Keywords: Holocene environment in the deserts of China are controversial, it is quite likely that it was more humid not Dune only in the eastern areas influenced by monsoon climate systems but also in the western deserts where Desert Lacustrine record moisture is currently associated with westerlies. Evaluation of lacustrine records in the lakes recharged by Late Quaternary dryland rivers and the complex interactions of these systems, as well as other paleoenvironmental proxies Holocene such as the Artemisia/Chenopodiaceae ratio, should be interpreted with greater caution. Facing the China highlighted uncertainties in our understanding of climate changes in Chinese deserts, it is hoped that this special issue will improve our knowledge considerably.
    [Show full text]
  • Promoting Dryland Sustainable Landscapes and Biodiversity Conservation in the Eastern Steppe of Mongolia” Project
    Environmental and Social Management Framework for “Promoting Dryland Sustainable Landscapes and Biodiversity Conservation in The Eastern Steppe of Mongolia” Project ULAANBAATAR 2020 Required citation: Food and Agriculture Organization of the United Nations (FAO), World Wildlife Fund (WWF). 2020. Environmental and Social Management Framework for “Promoting Dryland Sustainable Landscapes and Biodiversity Conservation in The Eastern Steppe of Mongolia” Project. Ulaanbaatar. The designations employed and the presentation of material in this information product do not imply the expression of any opinion whatsoever on the part of the Food and Agriculture Organization of the United Nations (FAO) concerning the legal or development status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The mention of specific companies or products of manufacturers, whether or not these have been patented, does not imply that these have been endorsed or recommended by FAO in preference to others of a similar nature that are not mentioned. The views expressed in this information product are those of the author(s) and do not necessarily reflect the views or policies of FAO. © FAO, WWF, 2020 Some rights reserved. This worK is made available under the Creative Commons Attribution-NonCommercial-ShareAliKe 3.0 IGO licence (CC BY-NC-SA 3.0 IGO; https://creativecommons.org/licenses/by-nc-sa/3.0/igo/legalcode). Under the terms of this licence, this worK may be copied, redistributed and adapted for non-commercial purposes, provided that the work is appropriately cited. In any use of this worK, there should be no suggestion that FAO endorses any specific organization, products or services.
    [Show full text]