DOCSLIB.ORG

Observed Trends of Climate and River Discharge in Mongolia's Selenga

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Observed Trends of Climate and River Discharge in Mongolia's Selenga water Article Observed Trends of Climate and River Discharge in Mongolia’s Selenga Sub-Basin of the Lake Baikal Basin Batsuren Dorjsuren 1,2 , Denghua Yan 1,3,4,*, Hao Wang 1,3,4, Sonomdagva Chonokhuu 2 , Altanbold Enkhbold 5, Xu Yiran 6, Abel Girma 1,7 , Mohammed Gedefaw 1,7 and Asaminew Abiyu 1 1 College of Environmental Science and Engineering, Donghua University, Shanghai 201620, China; [email protected] (B.D.); [email protected] (H.W.); [email protected] (A.G.); [email protected] (M.G.); [email protected] (A.A.) 2 Department of Environment and Forest Engineering, School of Engineering and Applied Sciences, National University of Mongolia, Ulaanbaatar 210646, Mongolia; [email protected] 3 State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin, China Institute of Water Resources and Hydropower Research (IWHR), Beijing 100038, China 4 Water Resources Department, China Institute of Water Resources and Hydropower Research (IWHR), Beijing 100038, China 5 Department of Geography, School of Art & Sciences, National University of Mongolia, Ulaanbaatar 210646, Mongolia; [email protected] 6 School of Resources and Earth Science, China University of Mining and Technology, Xuzhou 221116, China; [email protected] 7 Department of Natural Resource Management, University of Gondar, Gondar 196, Ethiopia * Correspondence: [email protected]; Tel.: +86-10-68781976 Received: 11 September 2018; Accepted: 9 October 2018; Published: 12 October 2018 Abstract: Mongolia’s Selenga sub-basin of the Lake Baikal basin is spatially extensive, with pronounced environmental gradients driven primarily by precipitation and air temperature on broad scales. Therefore, it is an ideal region to examine the dynamics of the climate and the hydrological system. This study investigated the annual precipitation, air temperature, and river discharge variability at five selected stations of the sub-basin by using Mann-Kendall (MK), Innovative trend analysis method (ITAM), and Sen’s slope estimator test. The result showed that the trend of annual precipitation was slightly increasing in Ulaanbaatar (Z = 0.71), Erdenet (Z = 0.13), and Tsetserleg (Z = 0.26) stations. Whereas Murun (Z = 2.45) and Sukhbaatar (Z = 1.06) stations showed a significant increasing trend. And also, the trend of annual air temperature in Ulaanbaatar (Z = 5.88), Erdenet (Z = 3.87), Tsetserleg (Z = 4.38), Murun (Z = 4.77), and Sukhbaatar (Z = 2.85) was sharply increased. The average air temperature has significantly increased by 1.4 ◦C in the past 38 years. This is very high in the semi-arid zone of central Asia. The river discharge showed a significantly decreasing trend during the study period years. It has been apparent since 1995. The findings of this paper could help researchers to understand the annual variability of precipitation, air temperature, and river discharge over the study region and, therefore, become a foundation for further studies. Keywords: precipitation; air temperature; river discharge; Mann-Kendall test; Selenga river basin; Lake Baikal basin; Mongolia 1. Introduction The Lake Baikal basin (LBB) is a suitable area to study climate change impacts. The climate is a long-term prevailing weather condition. Weather parameters include air temperature, precipitation, Water 2018, 10, 1436; doi:10.3390/w10101436 www.mdpi.com/journal/water Water 2018, 10, 1436 2 of 18 humidity, sunshine hours, cloudiness, atmospheric pressure, the number of rainy days, wind velocity, etc. These parameters interact directly or indirectly, greatly affecting the environment and the living organisms [1]. The semi-arid environment is highly vulnerable to climate change [2,3]. Land surface temperature is an important ecological factor and its warming trend will influence the topsoil [4,5]. Evapotranspiration and precipitation rates may change due to changes in soil temperature and air temperature. Precipitation change may greatly affect the hydrological system of the basin. Due to climate change and intensive human activities in recent decades, the runoff of many rivers in the world has been changing. About 22% of the world’s rivers were shown to have a significant decrease in the annual runoff because of increasing water consumptions and diversion [6,7]. The most sensitive areas for climate change are arid and semi-arid regions of central Asia [2,8,9]. LBB is the largest representative of these regions [3,10]. Lake Baikal, as the world’s largest natural freshwater lake and its corresponding catchments, is already affected by climate change and the water quantity becomes erratic [10]. In recent decades, changes in hydrological and water quantity are primarily attributed to climate change, land use change, contaminant influx from mining areas and urban settlements as well [11]. As the largest sub-basin of LBB, Selenga River basin is located in the Mongolian and Russian Federation. The Mongolian plateau is spatially extensive, with pronounced environmental gradients driven primarily by precipitation and air temperature on large scales. Therefore, it is an ideal region to examine the dynamics of the landscape structures and hydrology parameters [9]. This area, hydro-climatic changes can also lead to a shift in hydrology parameters, ecosystem and lake conditions in these areas. In addition, human activity effects on water pollution, water resources, sedimentary, and river discharge. In particular, in the Mongolian’s Selenga River basin high socio-economic activities are taking place. In the study region, there is high population density particularly, around Tuul and Kharaa sub basin. The sub basin is located in the biggest cities of Mongolia (Ulaanbaatar, Darkhan, and Erdenet), thus the river basin is highly consumed by the city residence. They consumed the water for agriculture, recreation and domestic use. In addition, the Selenga river basin water resource is used by the mining industry. Thus, it has a great role in reducing the quantity of the basin water flow [3,11,12]. This paper aims to investigate spatial and temporal changes in climate and river discharge changes in Mongolia’s Selenga sub-basin of the LBB understanding from 1979 to 2016. The overall objectives of the present study are (i) to identify historical climate trends, (ii) to identify trends of spatial and temporal changes in the river discharge, (iii) to assess the relationship and to which extent can climate change trends affect the river discharge. 2. Materials and Methods 2.1. Study Area Lake Baikal is the oldest (about 25 million years old), deepest (1637 m) and largest freshwater lake (23,000 km3) and is located in the southern part of East Siberia [13]. The transboundary basin of Lake Baikal is located on the boundary of North and Central Asia (96◦520–113◦500 N, 46◦280–56◦420 W) [12]. The longest stretch of the basin from southwest to north-east is 1470 km, and from west to east is 962 km. The minimal length from west to east is 193 km (Figure1). The total area of the basin is 573,478 km 2, and 52% of which belong to Mongolia and the remaining belongs to the Russian Federation [14]. In recognition of its biodiversity and endemism, United Nations Educational, Scientific and Cultural Organization (UNESCO) declared Lake Baikal as a World Heritage Site in 1996. The lake contains an outstanding variety of endemic flora and fauna, which is an exceptional value to evolutionary science. It is also surrounded by a system of protected areas with good scenery and natural values [10,15,16]. As the largest sub-basin of LBB, Selenga River basin is located in the Mongolian and Russian Federation. The Selenga is a Trans-boundary river, the largest tributary of Lake Baikal. On the average, it discharges into Lake Baikal ~30 km3 of water, i.e., half of the total inflow into the lake. Water 2018, 10, 1436 3 of 18 Water 2018, 10, x FOR PEER REVIEW 3 of 3 Forty-six percent of Selenga annualannual runoff forms in Mongolian territory.territory. The Mongolian plateau is spatially extensive, with pronounced environmenta environmentall gradients driven primarily by precipitation and air temperaturetemperature on on large large scales. scales. The The length length of the of riverthe river is 1024 is km,1024 its km, drainage its drainage area is 447.06 area thousandis 447.06 2 2 thousandkm , of which km2, 148.06of which thousand 148.06 thousand km are in km the2 are territory in the ofterritory Russia. of Russia. Figure 1. Location of Lake Baikal basin (LBB), Water ga gaugeuge station and meteorological stations of the Selenga River basin locatedlocated in the Mongolian. 2.2. Data Sources The datadata ofof air air temperature, temperature, precipitation precipitation and and hydrologic hydrologic data data of in of Mongolia’s in Mongolia’s Selenga Selenga river basinriver werebasin takenwere fromtaken Information from Information and Research and InstituteResearch of Institute Meteorology, of Meteorology, Hydrology, andHydrology, Environment and (IRIMHE)Environment hosts (IRIMHE) (http://irimhe.namem.gov.mn/ hosts (http://irimhe.), andnamem.gov.mn/), National Centers and for Environmental National Centers Information for EnvironmentalNOAA’s National Information Centers for NOAA’s Environmental National InformationCenters for Environmental (NCEI) hosts ( https://ngdc.noaa.gov/Information (NCEI) hosts). The(https://ngdc.noaa.gov/). location of the 5 water The gauge location stations of the used 5 inwater this gauge study isstations shown used in Figure in this1. For study the is selection shown ofin Figureclimate 1. and For waterthe selection gauge stationsof climate in and Mongolia’s water gauge Selenga stations sub-basin in Mongolia’s of the LBB, Selenga the following sub-basin factors of the wereLBB, takenthe following into consideration: factors were (1) spatialtaken distribution;into consider (2)ation: capacity (1) spatial of stations distri andbution; (3) whether (2) capacity it is near of stationsto the water and system(3) whether (Figure it is1)[ near8,17 to]. the water system (Figure 1) [8,17].
Load more

Recommended publications
  • Infrastructure Strategy Review Making Choices in Provision of Infrastructure Services
    MONGOLIA Infrastructure Strategy Review Making Choices in Provision of Infrastructure Services S. Rivera East Asia & Pacific The World Bank Government of Mongolia: Working Group Technical Donors Meeting October, 2006. 1 Mongolia: Infrastructure Strategy The Process and Outputs Factors Shaping Infrastructure Strategy Demand Key Choices to discuss this morning 2 Process and Outcome The Process – An interactive process, bringing together international practices: Meeting in Washington, March 2005. Field work in the late 2005. Preparation of about 12 background notes in sector and themes, discussed in Washington on June 2006. Submission of final draft report in November, 2006 Launching of Infrastructure Strategy report in a two day meeting in early 2007. Outcome A live document that can shape and form policy discussions on PIP, National Development Plan, and Regional Development Strategy….it has been difficult for the team to assess choices as well. 3 Factors Shaping the IS • Urban led Size and Growth of Ulaanbaatar and Selected Aimag (Pillar) Centers Size of the Circle=Total Population ('000) Infrastructure 6% 5% 869.9 Investments ) l 4% ua nn 3% a Ulaanbaatar (%, 2% h t Darkhan w Erdenet o 1% r G n 0% o i -10 0 10 20 30 40 50 60 70 80 at l -1% Choibalsan Kharkhorin opu Ondorkhaan P -2% Khovd Uliastai -3% Zuunmod -4% Share of Total Urban Population (%) 4 Factors Shaping the IS: Connectivity, with the World and in Mongolia Khankh Khandgait Ulaanbaishint Ereentsav Khatgal Altanbulag ULAANGOM Nogoonnuur UVS KHUVSGUL Tsagaannuur ÒýñTes
    [Show full text]
  • Strategic Development Outline for Economic Cooperation Between the People's Republic of China and Mongolia
    STRATEGIC DEVELOPMENT OUTLINE FOR ECONOMIC COOPERATION BETWEEN THE PEOPLE’S REPUBLIC OF CHINA AND MONGOLIA (PROJECT AREA: XINGANMENG PREFECTURE IN THE INNER MONGOLIA AUTONOMOUS REGION OF THE PRC AND THE PROVINCES OF DORNOD, HENTIY, SUHBAATAR OF MONGOLIA ) i This publication was prepared by Asian Development Bank consultants under the guidance of Bank staff. The findings, interpre- tations, and conclusions expressed in it do not necessarily represent the views of the Bank or those of its member countries. The Asian Development Bank does not guarantee the accuracy of the data in- cluded in this publication and accepts no responsibility whatsoever for any consequences of their use. @ Asian Development Bank 2002 ISBN No. 971-561-412-4 Stock No. 110501 Published by the Asian Development Bank P.O. Box. 789, 0980 Manila, Philippines For more information on ADB, visit http:\\www.adb.org ii STRATEGIC DEVELOPMENT OUTLINE FOR ECONOMIC COOPERATION BETWEEN THE PEOPLE’S REPUBLIC OF CHINA AND MONGOLIA (PROJECT AREA: XINGANMENG PREFECTURE IN THE INNER MONGOLIA AUTONOMOUS REGION OF THE PRC AND THE PROVINCES OF DORNOD, HENTIY, SUHBAATAR OF MONGOLIA ) iii Message from the People’s Republic of China n line with the open door policy, the Government of options for economic cooperation in a specific project the People’s Republic of China regards promotion area covering Xinganmeng Prefecture of Inner Mongolia Iof economic cooperation with neighboring coun- Autonomous Region and the three eastern provinces in tries as a special means to accelerate growth and eco- Mongolia. As revealed by the strategic study, the two nomic development of the local economy in the provinces countries have good opportunity to cooperate in the and autonomous regions that share border with other project area in the sectors of agriculture, mining, tour- countries.
    [Show full text]
  • Results of Radiation Level Study in Some Territories of Mongolia D
    ¨¸Ó³ ¢ —Ÿ. 2006. ’. 3, º 1(130). ‘. 111Ä115 “„Š 621.039 RESULTS OF RADIATION LEVEL STUDY IN SOME TERRITORIES OF MONGOLIA D. Shagjjamba1, P. Zuzaan2 Nuclear Research Center of the National University of Mongolia, Ulaanbaatar The outdoor terrestrial gamma-ray background in the urban environment of provincial centers and several cities of Mongolia was studied in order to assess the absorbed gamma dose rates in the open air and determine the activity concentrations of 238U, 232Th and 40K in soil samples, collected from the selected locations. ˆ§ÊÎ¥´ É¥··¨Éμ·¨ ²Ó´Ò° Ëμ´ £ ³³ -¨§²ÊÎ¥´¨Ö ¢ £μ·μ¤¸±μ° μ±·Ê¦ ÕÐ¥° ¸·¥¤¥ ´¥¸±μ²Ó±¨Ì ¶·μ- ¢¨´Í¨ ²Ó´ÒÌ Í¥´É·μ¢ ¨ £μ·μ¤μ¢ Œμ´£μ²¨¨. Í¥´¥´ ³μдμ¸ÉÓ ¶μ£²μÐ¥´´μ° ¤μ§Ò £ ³³ -¨§²ÊÎ¥´¨Ö ´ μɱ·ÒÉμ° ³¥¸É´μ¸É¨ ¨ μ¶·¥¤¥²¥´ ±μ´Í¥´É· ꬅ · ¤¨μ ±É¨¢´ÒÌ Ô²¥³¥´Éμ¢ 238U, 232Th ¨ 40K¢ ¸μ¡· ´´ÒÌ μ¡· §Í Ì ¶μ΢Ò. INTRODUCTION Mongolia is situated in the northern part of Central Asia and covers an area of 1.5 million km2 and it extends from 40 to 52 northern latitudes. In general, Mongolia is a mountain country. Its mean elevation is 1500 m above sea level. The total population of Mongolia is 2.5 million. The radiation situation in Mongolia is mainly determined by the geographic location and the elevation above sea level. The global radioactive fallout from nuclear and thermonuclear weapon tests depends on the latitude. A study of environmental radiation level in Mongolia during the 1980s was performed with respect to scientiˇc and health aspects. Within the scope of this study, the Nuclear Re- search Center (former Nuclear Research Laboratory) of the National University of Mongolia carried out investigations of the radioactivity in samples of air, soil, different types of coals, building materials and other environmental samples.
    [Show full text]
  • An Observation and Analysis of Mongolia's
    Saldarriaga 1 Spirituality in Limbo: An Observation and Analysis of Mongolia’s Modern Religious Climate Dustin Saldarriaga Academic Director: Ulziijargal Sanjaasuren Hirgis Munkh-Ochir (Advisor) School for International Training: Ulaanbaatar, Mongolia Fall 2004 Saldarriaga 2 Dedicated to Mom, Al, and Jason for giving me the curiosity, courage, and opportunity to travel across the world to a country they had heard of only in legends. Saldarriaga 3 I would like to thank… Delgermaa for her wonderful and consistent work as my translator who never hesitated to share Tsetserleg with me. The various individuals throughout the semester who shared their homes with me and made my experience truly unique and amazing. A special “thank you” goes to Tomorbaatar, Enkhtuya, and Bilguun for sharing their beautiful home and putting up with me for well over a month in UB. Bat-Gerel and Pastor Bayraa, who shared with me the passion and love behind the religions to which they dedicated their lives—a simple “thank you” is just not enough. Dashzeveg and Bulganchimeg, who made my time in Tsetserleg possible through their time and help. It was comforting to know they were always just a phone call away. Professor Munkh-Ochir, who always gave me new ideas or perspectives to consider, whether through his lectures, readings, or advice. Mom Ulzii, Pop Ulzii, Baatar, Saraa, Ariuna, TJ, and Inghe, who provided me with wonderful assistance, preparations, and opportunities. It’s not appropriate to try to summarize in a tiny paragraph the assistance and contributions you all shared over the course of the semester. I am grateful, to say the least.
    [Show full text]
  • Introduction on Dry Ports in Mongolia
    Introduction on Dry Ports in Mongolia 2017.11.14 Dry Ports Significance for Introduction Land‐Locked Countries Mongolia is an ideal environment for the development of Dry Ports. With fast growing local industries and volumes of cargo exchanged with our world, with no access to a sea but with a relatively good connection to neighboring ports of Russia and China calls for an erection and development of respective hubs, even with reflection of the vast territory of the country and a minor‐but‐growing intensity of settlement. Dry Ports Significance for Dry Ports Significance for Land‐Locked Land‐Locked Countries Countries as Mongolia • Mongolia ratified the Intergovernmental Agreement on Dry Ports on 23 April 2016. • The Agreement identifies a number of existing and potential dry port locations that are to be the basis of a coordinated effort to creates modes along an international integrated intermodal transport and logistics system. Dry Ports Significance for Dry Ports in Mongolia Land‐Locked Countries o Altanbulag (border with Russian Federation) o Ulaanbaatar o Sainshand o Zamyn-Uud (border with People`s republic of China) o Choibalsan (potential dry port) Dry Ports Significance for Dry Ports in Mongolia Land‐Locked Countries Dry Ports Significance for Dry Ports in Mongolia – Access to the Sea Land‐Locked Countries Dry Ports Significance for Dry Ports in PRC&RF - Significance for Mongolia Land‐Locked Countries CHINA • Erenhot South International Logistics Center, Erenhot • Manzhouli New International Freight Yard, Manzhouli • (altogether 17 ports, the above 2 have a direct connection with Mongolia). Dry Ports Significance for Dry Ports Significance for Land‐Locked Land‐Locked Countries Countries Nominated as Dry Ports /inland ports/ in Mongolia ALTANBULAG and ZAMYN-UUD are respectfully key parts of a wider Altanbulag and Zamyn-Uud Special Economic Zones.
    [Show full text]
  • DRAINAGE BASINS of the WHITE SEA, BARENTS SEA and KARA SEA Chapter 1
    38 DRAINAGE BASINS OF THE WHITE SEA, BARENTS SEA AND KARA SEA Chapter 1 WHITE SEA, BARENTS SEA AND KARA SEA 39 41 OULANKA RIVER BASIN 42 TULOMA RIVER BASIN 44 JAKOBSELV RIVER BASIN 44 PAATSJOKI RIVER BASIN 45 LAKE INARI 47 NÄATAMÖ RIVER BASIN 47 TENO RIVER BASIN 49 YENISEY RIVER BASIN 51 OB RIVER BASIN Chapter 1 40 WHITE SEA, BARENT SEA AND KARA SEA This chapter deals with major transboundary rivers discharging into the White Sea, the Barents Sea and the Kara Sea and their major transboundary tributaries. It also includes lakes located within the basins of these seas. TRANSBOUNDARY WATERS IN THE BASINS OF THE BARENTS SEA, THE WHITE SEA AND THE KARA SEA Basin/sub-basin(s) Total area (km2) Recipient Riparian countries Lakes in the basin Oulanka …1 White Sea FI, RU … Kola Fjord > Tuloma 21,140 FI, RU … Barents Sea Jacobselv 400 Barents Sea NO, RU … Paatsjoki 18,403 Barents Sea FI, NO, RU Lake Inari Näätämö 2,962 Barents Sea FI, NO, RU … Teno 16,386 Barents Sea FI, NO … Yenisey 2,580,000 Kara Sea MN, RU … Lake Baikal > - Selenga 447,000 Angara > Yenisey > MN, RU Kara Sea Ob 2,972,493 Kara Sea CN, KZ, MN, RU - Irtysh 1,643,000 Ob CN, KZ, MN, RU - Tobol 426,000 Irtysh KZ, RU - Ishim 176,000 Irtysh KZ, RU 1 5,566 km2 to Lake Paanajärvi and 18,800 km2 to the White Sea. Chapter 1 WHITE SEA, BARENTS SEA AND KARA SEA 41 OULANKA RIVER BASIN1 Finland (upstream country) and the Russian Federation (downstream country) share the basin of the Oulanka River.
    [Show full text]
  • Lake Hövsgöl the Twin Lake of Baikal in Mongolia
    2019.06.07 Classical Journeys Lake Hövsgöl the twin lake of Baikal in Mongolia This journey will take us to the magnificent Lake Hövsgöl, the "blue pearl" as it is respectfully called by locals. It is the twin lake of nearby Baikal Lake. Hövsgöl freezes over Photo: Haroldo Castro rapidly and displays an amazing crystal clear ice. The lake is situated at an altitude of 1,645 meters above sea level at the foot of the eastern Sayan Mountains, close to the Russian border. It is one of the most ancient lakes in the world, being more than 2 million years old. It is the second-most voluminous fresh water lake in Asia, holding almost 70% of Mongolia's fresh water. The lake and its pristine surroundings are protected in the Lake Hövsgöl National Park, home to a variety of wildlife such as ibex, Photo: Jan Wigsten argali, elk, wolf, musk deer, brown bear, moose, and sa- Photo: Jan Wigsten ble. On the way north we will visit Amarbayasgalant Mon- astery, one of the largest and most important centers of Buddhism in Mongolia, located in a broad, secluded val- ley far off the main road. It is one of only few monasteries to have largely survived the purges of the 1930s. The journey will lead us through the city of Erdenet, built with- in just a few years to support one of the largest copper mines in the world and onwards through beautiful north- ern Mongolian landscapes with densely forested hills, wide open valleys and across mighty streams. Photo: Haroldo Castro Day 1: To Erdenet Pick up from your hotel, and transfer to the railway station of Ulaanbaatar.
    [Show full text]
  • The Linkage of the Precipitation in the Selenga River Basin to Midsummer Atmospheric Blocking
    atmosphere Article The Linkage of the Precipitation in the Selenga River Basin to Midsummer Atmospheric Blocking Olga Yu. Antokhina 1,*, Pavel N. Antokhin 1 , Yuliya V. Martynova 2,3 and Vladimir I. Mordvinov 4 1 Zuev Institute of Atmospheric Optics SB RAS, 634021 Tomsk, Russia; [email protected] 2 Institute of Monitoring of Climatic and Ecological Systems SB RAS, 634055 Tomsk, Russia; [email protected] 3 Siberian Regional Hydrometeorological Research Institute, 630099 Novosibirsk, Russia 4 Institute of Solar-Terrestrial Physics, SB RAS, 664033 Irkutsk, Russia; [email protected] * Correspondence: [email protected]; Tel.: +7-952-154-4669 Received: 3 June 2019; Accepted: 21 June 2019; Published: 24 June 2019 Abstract: The linkage between atmospheric blocking (blocking frequency, BF) and total monthly July precipitation in the Selenga River Basin, the main tributary of Lake Baikal, for the period 1979–2016 was investigated. Based on empirical orthogonal functions (EOF) analysis, two dominant modes of precipitation over the Selenga River Basin were extracted. The first EOF mode (EOF 1) is related to precipitation fluctuations mainly in the Mongolian part of Selenga; the second EOF mode (EOF 2)—in the Russian part of Selenga. Based on two different modes obtained, the total amount of precipitation individually for the Russian and Mongolian part of Selenga was calculated. Correlation analysis has demonstrated that precipitation over the Mongolian part of the Selenga Basin is positively correlated to blocking over Eastern Siberia/Mongolia (80–120◦ E, ESM-BF). Precipitation over the Russian part of the Selenga Basin is positively correlated to blocking over the Urals-Western Siberia (50–80◦ E, UWS-BF) and European blocking (0–50◦ E, E-BF).
    [Show full text]
  • Country Analysis Paper <Mongolia>
    Fourth Regional 3R Forum in Asia “3Rs in the Context of Rio+20 Outcomes – The Future We Want” Ha Noi, Viet Nam, 18-20 March 2013 Country Analysis Paper (Draft) <Mongolia > ------------------------------------- This country analysis paper was prepared by Mongolia as an input for the Fourth Regional 3R Forum in Asia. The views expressed herein do not necessarily reflect the views of the United Nations. MONGOLIA: Waste Management Country Report The Government of Mongolia attaches a high priority to sustainable development and low carbon green growth. About 2 percent of gross domestic product (GDP) is allocated annually for the environmental protection including energy efficiency, sustainable use of resources, and reduction of environmental pollution and promotion of environmental public education programs. In 2011, GDP was 10.8 billion USD. Even with a population that accounts for only 0.04% of the total world population, Mongolia is a leader in economic growth. Mongolia experienced the highest growth rate in GDP in 2011 recording over 17%. This is a reflection of the growing demand for commodities like coal, copper and gold, all of which are abundantly available in Mongolia. Currently 58% of the total of Mongolian revenue comes from the natural resource sectors. Mongolia is one of the most sparsely populated countries in the world with 1.67 persons per square kilometer. Yet, the population is also remarkably urbanized. According to 2010 population census, the total population is 2.7 million. About 60 percent of the population lives in urban areas. The Capital city of Ulaanbaatar alone has over 1 million people. There are few cities including Darkhan and Erdenet have large number of population compare to other major cities.
    [Show full text]
  • Poisoned Oasis
    POISONED OASIS THE PERSECUTION OF CHIMED SAIKHANBILEG AND THE FUTURE OF DEMOCRACY IN MONGOLIA Table of Contents Executive Summary �� � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � i I� Mongolian Political Context �� � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �1 A. Major Parties and Historical Context� � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �1 B. Factionalism � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �2 II. Oyu Tolgoi �� � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �5 A. Discovery of Oyu Tolgoi � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �5 B. 2009 Investment Agreement �� � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �5 C. 2012 Parliamentary Elections and Rio Tinto Takeover of Ivanhoe � � � � � � � � � � � �7 D. New State Policy on Minerals (2014-2025) �� � � � � � � � � � � � � � � � � � � � � � � � � � �8 E. Prime Minister Saikhanbileg Takes Office and the 2015 “Dubai Agreement”� � � � �8 F. International Project Financing � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � 10 G. Failed Vote of No Confidence � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � 10 H. Oyu Tolgoi Since 2016 � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � 11 III. Erdenet Mine �� � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �
    [Show full text]
  • Baikal Project 2012-2014 Results and Events Booklet.Pdf
    Photo by Elena Chumak GEF: “The GEF unites 182 countries in partnership with international institutions, non-governmental organizations (NGOs), and the private sector to address global environmental issues while supporting national sustainable development initiatives. Today the GEF is the largest public funder of projects to improve the global environment. An independently operating financial organization, the GEF provides grants for projects related to biodiversity, climate change, international waters, land degradation, the ozone layer, and persistent organic pollutants. Since 1991, GEF has achieved a strong track record with developing countries and countries with economies in transition, providing $9.2 billion in grants and leveraging $40 billion in co-financing for over 2,700 projects in over 168 countries. www.thegef.org” UNDP: “UNDP partners with people at all levels of society to help build nations that can withstand crisis, and drive and sustain the kind of growth that improves the quality of life for everyone. On the ground in 177 countries and territories, we offer global perspective and local insight to help empower lives and build resilient nations. www.undp.org” UNOPS: is an operational arm of the United Nations, helping a range of partners implement $1 billion worth of aid and development projects every year. UNOPS mission is to expand the capacity of the UN system and its partners to implement peacebuilding, humanitarian and development operations that matter for people in need. Photo by Elena Chumak Contents Project Achievements
    [Show full text]
  • MCA-M) PROPERTY RIGHTS PROJECT (PRP) Registry Systems Process Study: Updated Performance Evaluation Design Report
    MILLENNIUM CHALLENGE ACCOUNT OF MONGOLIA (MCA-M) PROPERTY RIGHTS PROJECT (PRP) Registry Systems Process Study: Updated Performance Evaluation Design Report This report was prepared by: Kate Marple-Cantrell and Karol Boudreaux January 2018 The views and opinions expres s ed herein are thos e of the author(s ) and do not neces s arily repres ent thos e of MCC or any other U.S. Government entity. TABLE OF CONTENTS ABBREVIATIONS ............................................................................................... ii INTRODUCTION & BACKGROUND ........................................................................... 1 Country Context............................................................................................ 1 Objectives of this Report ................................................................................. 2 OVERVIEW OF THE COMPACT AND THE INTERVENTIONS EVALUATED................................. 3 Overview of the Project and Implementation Plan .................................................. 3 Theory of Change .........................................................................................11 Cost Benefit Analysis & Beneficiary Analysis .........................................................11 Literature Review .........................................................................................13 EVALUATION DESIGN ........................................................................................15 Evaluation Questions .....................................................................................15
    [Show full text]