DOCSLIB.ORG

Environmental Impact Assessment: Kyrgyz

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Environmental Impact Assessment: Kyrgyz Environmental Assessment Report Draft Environmental Impact Assessment Project Number: 42399 November 2010 KGZ: CAREC Transport Corridor 1 (Bishkek–Torugart Road) Project 3 Prepared by the Ministry of Transport and Communications of the Kyrgyz Republic for the Asian Development Bank (ADB). The environmental impact assessment is a document of the borrower. The views expressed herein do not necessarily represent those of ADB’s Board of Directors, Management, or staff, and may be preliminary in nature. i TABLE OF CONTENTS 1. Executive Summary······················································································1 2. Policy, Legal, and Administrative Framework ············································3 3. Description of the Project·············································································10 4. Description of the Environment ···································································20 5. Anticipated Environmental Impacts and Mitigation Measures·················· 36 6. Information Disclosure, Consultation, and Participation ·························54 7. Environmental Management Plan ································································57 8. Findings, Conclusions, and Recommendation ··········································70 Appendices Appendix 1: Site Photos ····················································································71 Appendix 2: Results of Socio-Economic Survey ············································87 Appendix 3: Results of Emissions and Pollution Analyses ···························92 Appendix 4: Cumulative and Induced Impacts··················································107 Appendix 5: Summary of Public Consultations in 2009 and 2010 ·················115 Appendix 6: Summary of Roundtable Consultation in September 2010 ·······160 ii List of Figures Figure 2.1: Project Organization·········································································8 Figure 3.1: Bishkek-Torugart Road Rehabilitation Program ··························10 Figure 3.2: Project Area (Map) ···········································································11 Figure 3.3: Project Area (Satellite Image) ·························································12 Figure 3.4: Elevation Profile of Existing Road and Project Area ···················14 Figure 3.5: Alternative Alignments ···································································16 Figure 3.6: Existing Road Near Km 525 ·····························································19 Figure 4.1: Major Orographic Features in the Project Area ····························21 Figure 4.2: Soils in the Project Area ·································································22 Figure 4.3: Monthly Temperatures ····································································23 Figure 4.4: Monthly Rainfall ··············································································23 Figure 4.5: Monthly Snowfall ·············································································24 Figure 4.6: Monthly Wind Speed ·······································································24 Figure 4.7: Flora in the Project Area ·······························································25 Figure 4.8: Chatyr Kul Protected Area Showing Key Habitats ·······················27 Figure 4.9: Chatyr Kul Water Analysis Sampling Locations ··························28 Figure 4.10: Hydrological Zoning of Chatyr Kul Lake ·······································30 Figure 5.1: Schematic of Pollutant Sources, Pathways, and Receptors ·······36 Figure 5.2: Predicted Noise Levels ···································································41 Figure 5.3: Predicted Vibration Levels ·····························································42 Figure 5.4: Predicted Dust Levels ·····································································42 Figure 5.5: Predicted NO2 Levels ······································································43 Figure 5.6: Predicted SPM Levels ·····································································43 Figure 5.7: Predicted SO2 Levels ······································································44 Figure 5.8: Predicted CO Levels ·······································································44 Figure 5.9: Greenhouse Gas Emissions Scenarios ········································45 Figure 5.10: Proposed Chatyr Kul “Ecological Passport” Zone ····················50 Figure 5.11: Example of Retention Pond ··························································51 Figure 6.1: Grievance Redress Mechanism Complaint Flow ·························56 Figure 7.1: Recommended Monitoring Stations ··············································59 Figure 7.2: Preliminary EMP Work Program ····················································69 iii List of Tables Table 2.1: Major Legislation for Environmental Protection ····························4 Table 2.2: Ambient Air Quality Standards ························································5 Table 2.3: Vehicle Emissions Standards ··························································5 Table 2.4: Noise Standards ················································································6 Table 3.1: Design Summary ···············································································13 Table 4.1: Analyses of the Institute of Biology of the National Academy of Sciences ····················································28 Table 4.2: Ionic Composition of Chatyr Kul ·····················································31 Table 4.3: Water Birds Breeding in Chatyr Kul ················································32 Table 4.4: Comparison of Educational Levels···················································35 Table 5.1: Potential Project Impacts and Mitigation Measures ························37 Table 5.2: Summary of Emissions during Construction and Operation ·········40 Table 5.3: Results of Groundwater Gasoline Pollution Analysis·····················46 Table 5.4: Bulk Fuel Spill Scenario ···································································47 Table 5.5: Estimated Pollutant Loads from Contaminated Runoff Water ······48 Table 7.1: Minimum Provisions for Environmental Monitoring ······················58 Table 7.2: Preliminary Environmental Management Plan ·······························60 Table 7.3: Preliminary EMP Cost Estimates ·····················································67 1 EIA for CAREC Corridor 1, Project 3 v1.1 – 22 Nov 2010 1. EXECUTIVE SUMMARY 1.1 Introduction The 540 kilometer (km) Bishkek-Torugart road is part of the Central Asia Regional Economic Cooperation (CAREC) Transport Corridor 1 linking the Kyrgyz Republic (KR) with other central Asian countries, the People’s Republic of China (PRC), and Russia. The proposed Project 3 (the Project) comprises rehabilitation of the existing road from the checkpoint at Km 479 to the PRC border at Km 539. Various parts of Corridor 1 have been under development since the late 1990s with the initial concepts for transport sector development in the context of regional cooperation. The KR Government, Asian Development Bank (ADB), and other development partners have been discussing the Bishkek-Torugart road since 2005. The Bishkek-Torugart Road Rehabilitation Project was included in the ADB Country Strategy and Program Update for 2006 - 2008 (published in November 2005) as a proposed loan project for approval in 2008. The Joint Country Support Strategy for 2007 – 2010 (published in August 2007) also included the Bishkek-Torugart road project. The proposed Project is included in the ADB Country Operations Business Plan for 2009 – 2011, published in January 2009. This Environmental Impact Assessment (EIA) report was prepared on behalf of the Ministry of Transport and Communications (MOTC), the Executing Agency (EA) for the project, beginning in 2009 by Japan Overseas Consulting Company, Ltd. (JOC) in association with Kyrgyz TREC International, Ltd. (KTI). A draft final version of the EIA, dated December 2009, received government endorsement. ADB determined that the assessment should cover additional aspects in order to comply with its Safeguard Policy Statement 2009, in particular the sections pertaining to natural and critical habitats. In September 2010, ADB engaged a staff consultant to assist MOTC in completing the assessment and disclosing the findings and recommendations (EIA Report) to the public. 1.2 Summary Findings of the Environmental Impact Assessment The assessment of alternatives revealed that the CAREC Transport Corridor 1, Bishkek- Torugart Road, including Project 3, is the most economically and environmentally sustainable option for meeting national development goals. The Project will reduce transit time and cost, improve traffic safety and reduce accident risk. The “no action” alternative has a higher risk of environmental deterioration and negative impact on the Chatyr-Kul ecosystem. There will be impacts on the environment during implementation of the proposed project, but most are temporary and reversible. The most severe risk is hazardous materials spills (mainly vehicle fuels and lubricating oils). Potential impacts during the design lifetime of 20+ years will increase as the pollutants entering the Chatyr Kul aquatic ecosystem will accumulate because the lake has no outlet. Therefore, pollution prevention measures must be taken at the outset. In consultation with ADB, MOTC has
Load more

Recommended publications
  • Water Resources Lifeblood of the Region
    Water Resources Lifeblood of the Region 68 Central Asia Atlas of Natural Resources ater has long been the fundamental helped the region flourish; on the other, water, concern of Central Asia’s air, land, and biodiversity have been degraded. peoples. Few parts of the region are naturally water endowed, In this chapter, major river basins, inland seas, Wand it is unevenly distributed geographically. lakes, and reservoirs of Central Asia are presented. This scarcity has caused people to adapt in both The substantial economic and ecological benefits positive and negative ways. Vast power projects they provide are described, along with the threats and irrigation schemes have diverted most of facing them—and consequently the threats the water flow, transforming terrain, ecology, facing the economies and ecology of the country and even climate. On the one hand, powerful themselves—as a result of human activities. electrical grids and rich agricultural areas have The Amu Darya River in Karakalpakstan, Uzbekistan, with a canal (left) taking water to irrigate cotton fields.Upper right: Irrigation lifeline, Dostyk main canal in Makktaaral Rayon in South Kasakhstan Oblast, Kazakhstan. Lower right: The Charyn River in the Balkhash Lake basin, Kazakhstan. Water Resources 69 55°0'E 75°0'E 70 1:10 000 000 Central AsiaAtlas ofNaturalResources Major River Basins in Central Asia 200100 0 200 N Kilometers RUSSIAN FEDERATION 50°0'N Irty sh im 50°0'N Ish ASTANA N ura a b m Lake Zaisan E U r a KAZAKHSTAN l u s y r a S Lake Balkhash PEOPLE’S REPUBLIC Ili OF CHINA Chui Aral Sea National capital 1 International boundary S y r D a r Rivers and canals y a River basins Lake Caspian Sea BISHKEK Issyk-Kul Amu Darya UZBEKISTAN Balkhash-Alakol 40°0'N ryn KYRGYZ Na Ob-Irtysh TASHKENT REPUBLIC Syr Darya 40°0'N Ural 1 Chui-Talas AZERBAIJAN 2 Zarafshan TURKMENISTAN 2 Boundaries are not necessarily authoritative.
    [Show full text]
  • Climate-Proofing Cooperation in the Chu and Talas River Basins
    Climate-proofing cooperation in the Chu and Talas river basins Support for integrating the climate dimension into the management of the Chu and Talas River Basins as part of the Enhancing Climate Resilience and Adaptive Capacity in the Transboundary Chu-Talas Basin project, funded by the Finnish Ministry for Foreign Affairs under the FinWaterWei II Initiative Geneva 2018 The Chu and Talas river basins, shared by Kazakhstan and By way of an integrated consultative process, the Finnish the Kyrgyz Republic in Central Asia, are among the few project enabled a climate-change perspective in the design basins in Central Asia with a river basin organization, the and activities of the GEF project as a cross-cutting issue. Chu-Talas Water Commission. This Commission began to The review of climate impacts was elaborated as a thematic address emerging challenges such as climate change and, annex to the GEF Transboundary Diagnostic Analysis, to this end, in 2016 created the dedicated Working Group on which also included suggestions for adaptation measures, Adaptation to Climate Change and Long-term Programmes. many of which found their way into the Strategic Action Transboundary cooperation has been supported by the Programme resulting from the project. It has also provided United Nations Economic Commission for Europe (UNECE) the Commission and other stakeholders with cutting-edge and other partners since the early 2000s. The basins knowledge about climate scenarios, water and health in the are also part of the Global Network of Basins Working context of climate change, adaptation and its financing, as on Climate Change under the UNECE Convention on the well as modern tools for managing river basins and water Protection and Use of Transboundary Watercourses and scarcity at the national, transboundary and global levels.
    [Show full text]
  • Desk-Study on Core Zone Karakoo Bioshere Reserve Issyk-Kul
    Potential for strengthening the coverage of the core ­ zone of Biosphere Reserve Issyk-Kul ­ This project has been funded by the German Federal Ministry for the Environment, Nature Conservation, Building and Nuclear Safety with means of the Advisory Assistance Programme for Environmental Protection in the Countries of Central and Eastern Europe, the Caucasus and Central Asia. It was supervised by the Federal Agency for Nature Conservation (Bundesamt für Naturschutz, BfN) and the Federal Environment Agency (Umweltbundesamt, UBA). The content of this publication lies within the responsibility of the authors. Bishkek / Greifswald 2014 Potential for strengthening the coverage of the core zone of Biosphere Reserve Issyk-Kul prepared by: Jens Wunderlich Michael Succow Foundation for the protection of Nature Ellernholzstr. 1/3 D- 17489 Greifswald Germany Tel.: +49 3834 835414 E-Mail: [email protected] www.succow-stiftung.de/home.html Ilia Domashev, Kirilenko A.V., Shukurov E.E. BIOM 105 / 328 Abdymomunova Str. 6th Laboratory Building of Kyrgyz National University named J.Balasagyn Bishkek Kyrgyzstan E-Mail: [email protected] www.biom.kg/en Scientific consultant: Prof. Shukurov, E.Dj. front page picture: Prof. Michael Succow desert south-west of Issyk-Kul – summer 2013 Abbreviations and explanation of terms ­ Aiyl Kyrgyz for village Akim Province governor BMZ Federal Ministry for Economic Cooperation and Development of Germany BMU Federal Ministry for the Environment, Nature Conservation, Building and Nuclear Safety of Germany BR Biosphere Reserve Court of Ak-sakal traditional way to solve conflicts. Court of Ak-sakal is elected among respected persons. It deals with small household disputes and conflicts, leading parties to agreement.
    [Show full text]
  • Evaluating Vulnerability of Central Asian Water Resources Under Uncertain Climate and Development Conditions: the Case of the Ili-Balkhash Basin
    water Article Evaluating Vulnerability of Central Asian Water Resources under Uncertain Climate and Development Conditions: The Case of the Ili-Balkhash Basin Tesse de Boer 1,*, Homero Paltan 1,2, Troy Sternberg 1 and Kevin Wheeler 3 1 School of Geography and the Environment, University of Oxford, Oxford OX1 3QY, UK; [email protected] (H.P.); [email protected] (T.S.) 2 Institute of Geography, Universidad San Francisco de Quito, Quito 170901, Ecuador 3 Environmental Change Institute, University of Oxford, Oxford OX1 3QY, UK; [email protected] * Correspondence: [email protected] Abstract: The Ili-Balkhash basin (IBB) is considered a key region for agricultural development and international transport as part of China’s Belt and Road Initiative (BRI). The IBB is exemplary for the combined challenge of climate change and shifts in water supply and demand in transboundary Central Asian closed basins. To quantify future vulnerability of the IBB to these changes, we employ a scenario-neutral bottom-up approach with a coupled hydrological-water resource modelling set-up on the RiverWare modelling platform. This study focuses on reliability of environmental flows under historical hydro-climatic variability, future hydro-climatic change and upstream water demand development. The results suggest that the IBB is historically vulnerable to environmental shortages, and any increase in water consumption will increase frequency and intensity of shortages. Increases in precipitation and temperature improve reliability of flows downstream, along with water demand Citation: de Boer, T.; Paltan, H.; reductions upstream and downstream. Of the demand scenarios assessed, extensive water saving is Sternberg, T.; Wheeler, K.
    [Show full text]
  • Canyons of the Charyn River (South-East Kazakhstan): Geological History and Geotourism
    GeoJournal of Tourism and Geosites Year XIV, vol. 34, no. 1, 2021, p.102-111 ISSN 2065-1198, E-ISSN 2065-0817 DOI 10.30892/gtg.34114-625 CANYONS OF THE CHARYN RIVER (SOUTH-EAST KAZAKHSTAN): GEOLOGICAL HISTORY AND GEOTOURISM Saida NIGMATOVA Institute of Geological Sciences named after K.I. Satpaev, Almaty, Republic of Kazakhstan, e-mail: [email protected] Aizhan ZHAMANGARА L.N. Gumilyov Eurasian National University, Faculty of Natural Sciences, Satpayev Str., 2, 010008 Nur-Sultan, Republic of Kazakhstan, Institute of Botany and Phytointroduction, e-mail: [email protected] Bolat BAYSHASHOV Institute of Geological Sciences named after K.I. Satpaev, Almaty, Republic of Kazakhstan, e-mail: [email protected] Nurganym ABUBAKIROVA L.N. Gumilyov Eurasian National University, Faculty of Natural Sciences, Satpayev Str., 2, 010008 Nur-Sultan, Republic of Kazakhstan, e-mail: [email protected] Shahizada AKMAGAMBET L.N. Gumilyov Eurasian National University, Faculty of Natural Sciences, Satpayev Str., 2, 010008 Nur-Sultan, Republic of Kazakhstan, e-mail: [email protected] Zharas ВERDENOV* L.N. Gumilyov Eurasian National University, Faculty of Natural Sciences, Satpayev Str., 2, 010008 Nur-Sultan, Republic of Kazakhstan, e-mail: [email protected] Citation: Nigmatova, S., Zhamangara, A., Bayshashov, B., Abubakirova, N., Akmagambet S., & Berdenov, Zh. (2021). CANYONS OF THE CHARYN RIVER (SOUTH-EAST KAZAKHSTAN): GEOLOGICAL HISTORY AND GEOTOURISM. GeoJournal of Tourism and Geosites, 34(1), 102–111. https://doi.org/10.30892/gtg.34114-625 Abstract: The Charyn River is located in South-East Kazakhstan, 195 km east of Almaty. The river valley cuts through Paleozoic rocks and loose sandy-clay deposits of the Cenozoic and forms amazingly beautiful canyons, the so-called "Valley of Castles".
    [Show full text]
  • Tour - Two Countries in One Journey
    Full Itinerary & Trip Details 12 Days Combined Tour - Two Countries in one Journey Almaty-Bishkek-Karakol-Charyn Canyon-Son-Kul Lake-Issyk-Kul-Kegety Canyon-Bishkek-Almaty PRICE STARTING FROM DURATION TOUR ID € 0 € 0 12 days 806 ITINERARY Day 1 : Arrival Day Lunch and Dinner Included The route begins with a tour of the downtown area Green Bazaar. Then Park 28 Panfilov Guardsmen, Holy Ascension Cathedral, and the Glory Memorial and Eternal Flame in memory of the fighters who fell for the freedom and independence of the country, Medeo gorge and dam. Then the tour continues on the mountain Kok-Tobe. The tour ends with the descent from the mountain top in most metropolitan center in the trailer of the famous cable car Day 2 : Trip To Charyn Canyon Breakfast, Lunch and Dinner Included Departure from the hotel at 8:00. A trip on an excursion to Charyn Canyon. Charyn Canyon - is one of the most unique natural objects, where the influence of the millennial processes of weathering of sedimentary rocks, the original form of relief took the outlines of isolated rocks, columns and towers. Time to Charyn Canyon is approximately 3 hours. On the way you will get acquainted with the history and nature of this wonderful region, will learn a lot about the Kazakh people, their life and traditions, also you will get lunch at a local cafe. On arrival in Charyn canyon, you will forget all the long way because Charyn Canyon will amaze you with its beauty and splendor! You can admire its grandiose panorama, and then take a stroll through the maze of the Valley of Castles, surrounded by overhanging impregnable walls.
    [Show full text]
  • Lake Issyk-Kul Experience and Lessons Learned Brief
    Lake Issyk-Kul Experience and Lessons Learned Brief Rasul Baetov*, Cholpon-Ata, Kyrgyz Republic, [email protected] * Corresponding author Lake Issyk-Kul (also referred to simply as Issyk-Kul), located the high-mountain syrts (the Kyrgyz word syrt in this context in the Kyrgyz Republic (commonly referred to as Kyrgyzstan), can be translated as “outside” or “external”, meaning that is the world’s second-largest high-altitude lake and a major these far-off pasturelands lie beyond the territory immediately biological and economic resource of the country. Among surrounding Issyk-Kul) and the desertland and steppes of the lakes lying 1,200 meters or more above sea level, Issyk-Kul Central Tien-Shan, a land of perennial freezes, high peaks and is second only to Lake Titicaca in overall area. Slightly salty, extensive glaciation zones, whose waters also feed the Aral and the lake never freezes, which contributes to its importance as Tarim basins. Within the Issyk-Kul basin itself are 834 glaciers a stopover for migratory birds. Over the past few decades, the of various sizes ranging from less than 0.1 km2 to 11 km2. These level of the lake has dropped some 2.5 m as the result of water glaciers cover 650.4 km2, or about 3% of the overall basin area. diversions. In the face of several serious threats to the lake, The Issyk-Kul oblast contains 3,297 glaciers, the overall area of the Government of the Kyrgyz Republic has created the Issyk- which is 4,304 km2; this constitutes roughly 40% of the total Kul Biosphere Reserve, run by a Directorate General.
    [Show full text]
  • Sundowners Overland - Five Golden Stans Page 1 of 10 Itinerary
    Journey Itinerary Five Golden Stans Days Westbound Countries Distance Activity level 29 Nur-Sultan (formerly Uzbekistan + Kazakhstan + Kyrgyzstan + 6,457 km Astana) to Tashkent Turkmenistan + Tajikistan This incredible journey will take you through the five “Stans” of Central Asia, across mountains and steppes, treading in the footsteps of those who travelled the ancient Silk Road with their caravans winding trails through deserts, exchanging their wares, ideas and people which has led to the extraordinary melting pot of cultures that exists in the region today. Sundowners Overland - Five Golden Stans Page 1 of 10 Itinerary Day 1: Nur-Sultan Our journey begins in Nur-Sultan formerly known as Astana - a living monument to modernity in Kazakhstan. The capital was recently renamed to honour it's outgoing president Nursultan Nazarbayev, who served the nation for almost thirty years. This evening you join your Tour Leader and fellow travellers at 5:00pm for your Welcome Meeting as detailed on your joining instructions. Day 2: Nur-Sultan and to Almaty We explore the sights before boarding the train south to Almaty, perhaps still the country’s most important city and full of architectural wonders set against a backdrop of magnificent peaks. Sightseeing - Astana city tour Meals - Breakfast Day 3: Almaty This morning we arrive in Almaty. Thanks to an abundance of natural resources, Almaty is a sophisticated patchwork of leafy avenues, European cafes, refined restaurants and glitzy shopping malls. Sightseeing - City tour, and Kok Tobe cable car (if time allows) Meals - Breakfast Day 4: To Karakol Via Charyn Canyon Our departure takes us to Charyn Canyon, a natural wonder said to rival the Grand Canyon.
    [Show full text]
  • Hazard Analysis in the Tien Shan
    1 Integrating outcomes from probabilistic and deterministic seismic 2 hazard analysis in the Tien Shan 3 I. Mosca1, B. Baptie 1, S. Sargeant 1, R. T. Walker 2 4 1 British Geological Survey, the Lyell Centre, Research Avenue South, Edinburgh EH14 5 4AP, United Kingdom 6 2 COMET, Department of Earth Sciences, Oxford University, South Parks Road, Oxford 7 OX1 3AN, United Kingdom 8 9 Abstract 10 In this study, we have evaluated the probabilistic and deterministic seismic hazard for the city 11 of Almaty, the largest city in Kazakhstan, which has a population of nearly 2 million people. 12 Almaty is located in the Tien Shan mountain belt, a low strain rate environment within the 13 interior of the Eurasian plate that is characterized by large, infrequent earthquakes. A robust 14 assessment of seismic hazard for Almaty is challenging because current knowledge about the 15 occurrence of large earthquakes is limited due to the short duration of the earthquake 16 catalogue and only partial information about the geometry, rupture behaviour, slip rate, and 17 the maximum expected earthquake magnitude of the faults in the area. The impact that this 18 incomplete knowledge has on assessing seismic hazard in this area can be overcome by using 19 both probabilistic and deterministic approaches and integrating the results. 20 First, we simulate ground shaking scenarios for three destructive historical earthquakes that 21 occurred in the Northern Tien Shan in 1887, 1889 and 1911, using ground motion prediction 1 22 equations (GMPEs) and realistic fault rupture models based on recent geomorphological 23 studies.
    [Show full text]
  • TA 7228-KGZ: Issyk-Kul Sustainable Development Project, Kyrgyz Republic
    9rprir !( DTT`FFVGTVTU6DI67G@ 9@W@GPQH@IUQSPE@8U F`SB`aS@QV7GD8 697U6IP&!!'FBa Wyr$ `: V$1H J01`QJIVJ :C:J:$VIVJ C:J TA 7228-KGZ: Issyk-Kul Sustainable Development Project Final Report Volume 5 – SEMP CURRENCY EQUIVALENT (as of 1 August 2009 ) Currency Unit – Som Som 1.00 = $0.0233 $1.00 = Som 43.00 ABBREVIATIONS AD : Anno Domini ADB : Asian Development Bank AIDS : Acquired immunodeficiency syndrome APT : Architectural and Planning Task asl : Above Sea Level ASSR : Autonomous Soviet Socialist Republic BC : Before Christ BOD5 : 5-day Biochemical Oxygen Demand BRD : Issyk-Kul Biosphere Reserve Directorate CIS : Commonwealth of Independent States COD : Chemical Oxygen Demand DEP : Department of Environmental Protection EC : European Community EIA : Environmental Impact Assessment EMP : Environmental Management Plan ENE : East-Northeast EU : European Union FSU : Former Soviet Union GDP : Gross Domestic Product GIS : Geographical Information System GTZ : German Society on Technical Cooperation HIV : Human immunodeficiency virus IKNIDEP : Issy-Kul/Naryn Interregional Department of Environmental Protection JICA : Japan International Cooperation Agency kWh : Kilowatt hour LAS : Land Allocation Statement MW : Megawatt NAS : National Academy of Sciences OECD : Organisation for Economic Cooperation and Development PEE : Public Ecological Expertise PPTA : Project Preparation Technical Assistance SAACM : State Agency on Architecture and Construction Management i TA 7228-KGZ: Issyk-Kul Sustainable Development Project
    [Show full text]
  • Fantastic Beasts of the Eurasian Steppes: Toward a Revisionist Approach to Animal-Style Art
    University of Pennsylvania ScholarlyCommons Publicly Accessible Penn Dissertations 2018 Fantastic Beasts Of The Eurasian Steppes: Toward A Revisionist Approach To Animal-Style Art Petya Andreeva University of Pennsylvania, [email protected] Follow this and additional works at: https://repository.upenn.edu/edissertations Part of the Asian Studies Commons, and the History of Art, Architecture, and Archaeology Commons Recommended Citation Andreeva, Petya, "Fantastic Beasts Of The Eurasian Steppes: Toward A Revisionist Approach To Animal- Style Art" (2018). Publicly Accessible Penn Dissertations. 2963. https://repository.upenn.edu/edissertations/2963 This paper is posted at ScholarlyCommons. https://repository.upenn.edu/edissertations/2963 For more information, please contact [email protected]. Fantastic Beasts Of The Eurasian Steppes: Toward A Revisionist Approach To Animal-Style Art Abstract Animal style is a centuries-old approach to decoration characteristic of the various cultures which flourished along the urE asian steppe belt in the later half of the first millennium BCE. This astv territory stretching from the Mongolian Plateau to the Hungarian Plain, has yielded hundreds of archaeological finds associated with the early Iron Age. Among these discoveries, high-end metalwork, textiles and tomb furniture, intricately embellished with idiosyncratic zoomorphic motifs, stand out as a recurrent element. While scholarship has labeled animal-style imagery as scenes of combat, this dissertation argues against this overly simplified classification model which ignores the variety of visual tools employed in the abstraction of fantastic hybrids. I identify five primary categories in the arrangement and portrayal of zoomorphic designs: these traits, frequently occurring in clusters, constitute the first comprehensive definition of animal-style art.
    [Show full text]
  • Large Saline Lakes of Former USSR: a Summary Review
    1 Hydrobiologia 267: 1-12, 1993. S. H. Hurlbert (ed.), Saline Lakes V. © 1993 Kluwer Academic Publishers. Printed in Belgium. Large saline lakes of former USSR: a summary review N. V. Aladin & I. S. Plotnikov Zoological Institute, Russian Academy of Science, St. Petersburg, Russia Abstract Seven of the largest lakes in central Asia (former USSR) are saline: Caspian Sea, Aral Sea, lakes Balkhash, Issyk-Kul, the Chany complex, Alakul and Tengiz. They range in salinity from sometimes <3gl – 1 tol9gl – 1 . The paper provides a summary review of their major physico-chemical and bio- logical features. Several are threatened by activities in their drainage basins, particularly diversion of inflowing waters. Introduction Rather little information on these important lakes is freely available outside the CIS. The There are more than 2800000 lakes in the CIS present paper aims to introduce these lakes by (former USSR), with a total surface area of nearly means of a summary review of their major lim- 980000 km 2. Most (99.2 per cent) are small and nological features. shallow, with an area of less than 1 km 2, but six- teen are amongst the world's largest lakes, each Caspian Sea with an area in excess of 1000 km 2. Of these very large lakes, seven are saline: the Caspian and Aral The Caspian Sea is the largest body of inland seas, and lakes Balkhash, Issyk-Kul, Chany, water in the world. Situated in the CIS and Iran, Alakul and Tengiz. The total surface area of these this endorheic lake stretches north-south some saline lakes is nearly 523000 km 2, i.e.
    [Show full text]