Fires in Eastern Russian and Siberia 22 July 2013

Total Page：16

File Type：pdf, Size：1020Kb

Fires in Eastern Russian and Siberia 22 July 2013 can detect heat from the various wildfires. This image was captured on July 22, 2013 at 05:50 UTC (1:50 a.m. EDT). In the MODIS image the fire or hot spot appears red and smoke appears in light brown. Images are generated at NASA's Goddard Space Flight Center in Greenbelt, Md. Provided by NASA's Goddard Space Flight Center Forest fires are burning north and east of Russia's Irkutsk Oblast. The Irkutsk Oblast is located in southeastern Siberia in the basins of Angara, Lena, and Nizhnyaya Tunguska Rivers. Credit: Image: Jeff Schmaltz, NASA Goddard MODIS Rapid Response Team; Caption: Rob Gutro, NASA Goddard Space Flight Center Forest fires are burning north and east of Russia's Irkutsk Oblast. The Irkutsk Oblast is located in southeastern Siberia in the basins of Angara, Lena, and Nizhnyaya Tunguska Rivers. NASA's Aqua satellite passed over the area and captured an image showing multiple forest fires and smoke plumes. Some of the places affected by the smoke include Cokhchuolu, Ust'ye-Chony, Skysykatakh, and Chernyshevskiy along the Vilyuy River. These appear to be recreational areas. South of the Vilyuy River is the town of Mirny. It is known for having the world's largest diamond mine. The Moderate Resolution Imaging Spectroradiometer (MODIS) instrument aboard NASA's Aqua satellite has infrared capabilities that 1 / 2 APA citation: Fires in Eastern Russian and Siberia (2013, July 22) retrieved 30 September 2021 from https://phys.org/news/2013-07-eastern-russian-siberia.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only. 2 / 2 Powered by TCPDF (www.tcpdf.org).

Copy Link

Recommended publications

The Fluvial Geochemistry of the Rivers of Eastern Siberia: I. Tributaries Of
Geochimica et Cosmochimica Acta, Vol. 62, No. 10, pp. 1657–1676, 1998 Copyright © 1998 Elsevier Science Ltd Pergamon Printed in the USA. All rights reserved 0016-7037/98 $19.00 1 .00 PII S0016-7037(98)00107-0 The fluvial geochemistry of the rivers of Eastern Siberia: I. Tributaries of the Lena River draining the sedimentary platform of the Siberian Craton 1, 1 2 1 YOUNGSOOK HUH, *MAI-YIN TSOI, ALEXANDR ZAITSEV, and JOHN M. EDMONd 1Department of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA 2Laboratory of Erosion and Fluvial Processes, Department of Geography, Moscow State University, Moscow, Russia (Received June 11, 1997; accepted in revised form February 12, 1998) ABSTRACT—The response of continental weathering rates to changing climate and atmospheric PCO2 is of considerable importance both to the interpretation of the geological sedimentary record and to predictions of the effects of future anthropogenic influences. While comprehensive work on the controlling mechanisms of contemporary chemical and mechanical weathering has been carried out in the tropics and, to a lesser extent, in the strongly perturbed northern temperate latitudes, very little is known about the peri-glacial environments in the subarctic and arctic. Thus, the effects of climate, essentially temperature and runoff, on the rates of atmospheric CO2 consumption by weathering are not well quantified at this climatic extreme. To remedy this lack a comprehensive survey has been carried out of the geochemistry of the large rivers of Eastern Siberia, the Lena, Yana, Indigirka, Kolyma, Anadyr, and numerous lesser streams which drain a pristine, high-latitude region that has not experienced the pervasive effects of glaciation and subsequent anthropogenic impacts common to western Eurasia and North America.
[Show full text]
Load Article
Arctic and North. 2018. No. 33 55 UDC [332.1+338.1](985)(045) DOI: 10.17238/issn2221-2698.2018.33.66 The prospects of the Northern and Arctic territories and their development within the Yenisei Siberia megaproject © Nikolay G. SHISHATSKY, Cand. Sci. (Econ.) E-mail: [email protected] Institute of Economy and Industrial Engineering of the Siberian Department of the Russian Academy of Sci- ences, Kransnoyarsk, Russia Abstract. The article considers the main prerequisites and the directions of development of Northern and Arctic areas of the Krasnoyarsk Krai based on creation of reliable local transport and power infrastructure and formation of hi-tech and competitive territorial clusters. We examine both the current (new large min- ing and processing works in the Norilsk industrial region; development of Ust-Eniseysky group of oil and gas fields; gasification of the Krasnoyarsk agglomeration with the resources of bradenhead gas of Evenkia; ren- ovation of housing and public utilities of the Norilsk agglomeration; development of the Arctic and north- ern tourism and others), and earlier considered, but rejected, projects (construction of a large hydroelectric power station on the Nizhnyaya Tunguska river; development of the Porozhinsky manganese field; place- ment of the metallurgical enterprises using the Norilsk ores near Lower Angara region; construction of the meridional Yenisei railroad and others) and their impact on the development of the region. It is shown that in new conditions it is expedient to return to consideration of these projects with the use of modern tech- nologies and organizational approaches. It means, above all, formation of the local integrated regional pro- duction systems and networks providing interaction and cooperation of the fuel and raw, processing and innovative sectors.
[Show full text]
The Angara Triangle Sia , Located in South-Eastern Siberia in the Basins of Angara River, Lena, and Bratsk Severobaikalsk Nizhnyaya Tunguska Rivers
IRKUTSK REGION WELCOMES YOU Irkutsk Region (Russian: “Иркутская область”, Irkutskaya oblast) is regional administrative unit within Siberian Federal District of Rus- The Angara Triangle sia , located in south-eastern Siberia in the basins of Angara River, Lena, and Bratsk SeveroBAIKALsk Nizhnyaya Tunguska Rivers. The admin- istrative center is the city of Irkutsk. Russian presence in the area dates back to the 17th century, as the Russian Tsardom expanded eastward following the conquest of the Khanate of Sibir in 1582. By the end of the 17th century Irkutsk was a small town. Since the 18th century in Irkutsk the trades and crafts began to develop, the gold and silver craftsmen, smiths appeared, the town grew up to become soon the center of huge Irkutsk Province from where even former `Alaska was governed. Irkutsk The Angara Triangle f you live in the United States or in India , then With no doubt the Angara river is a gem of Eastern Si- the word “Angara” can bring instant images either beria which value is hard to overestimate. It is the river of of Senator Ed Angara calling for the shift to re- true love appreciated by the native Siberian, and this An- I newable energy and supporting green jobs, or the gara Gem is not just a physical stretch of river banks or a Tandoori chicken cooked over red hot coal called “anga- huge surrounding terrain. It is an ancient ethno-genetic ra” in classic Indian restaurant . One may also remember landscape of living of the native people and settled Russians an important character in the “Mahabharata-Krishna” of Siberia.
[Show full text]
Petroleum Geology of East Siberia by James W. Clarke Open-File Report
UNITED STATES DEPARTMENT OF THE INTERIOR GEOLOGICAL SURVEY Petroleum geology of East Siberia by James W. Clarke Open-File Report 85-367 This report is preliminary and has not been reviewed for conformity with U.S. Geological Survey editorial standards and stratigraphic nomenclature, l . Reston, Virginia 1985 CONTENTS Page Abstract 1 Introduction 3 Geog raphy * 3 Acknowledgments 6 Structure 6 Crustal thickness 6 Structure of basement 8 Aldan-Anabar structural subdivision 8 Tunguska structural subdivision 10 Relief of basement surface 10 Structure of sedimentary cover 10 Structures of the Pre-Mesozoic part of the East Siberian platform 12 Structures of the Mesozoic marginal depressions 15 Stratigraphy and paleogeography 16 Introduction 16 Riphean series 16 Vendian series 19 Cambrian system 22 Ordovician system 36 Lower Ordovician 36 Middle Ordovician 36 Upper Ordovician 36 Silurian system 40 Llandoverian stage 40 Wenlockian stage 40 Ludlovian stage 40 Devonian system 44 Lower Devonian 44 Middle Devonian 44 Upper Devonian 48 Carboniferous system 48 Lower Carboniferous 48 Middle-Upper Carboniferous 50 Permian system 50 Lower Permian 50 Upper Permian 53 Triassic system 55 Tunguska-Kotuy facies region 55 Lena-Vilyuy facies region 57 Lower Triassic 57 Middle Triassic 57 Upper Triassic 57 Jurassic system 60 Lower Jurassic 60 Middle Jurassic 62 Upper Jurassic 62 CONTENTS (continued) Page Cretaceous system 64 Lower Cretaceous 64 Upper Cretaceous 67 History of petroleum exploration 68 Petroleum geology 69 Lena-Tunguska oil-gas province 69 Introduction
[Show full text]
World Bank Document
49138 INTEGRATED SAFEGUARDS DATA SHEET CONCEPT STAGE Report No.: Public Disclosure Authorized Date ISDS Prepared/Updated: May 6, 2009 I. BASIC INFORMATION A. Basic Project Data Country: Russian Federation Project ID: P101997 Additional Project ID (if any): Project Name: Bratsk Hydropower Plant Power Generation Efficiency Improvement Project Task Team Leader: Helmut Schreiber Estimated Appraisal Date: 06/20/2009 Estimated ERPA Signing: 07/15/2009 Managing Unit: ECSSD Lending Instrument: Carbon Finance Public Disclosure Authorized Sector: Power, Environment Theme: Climate change IBRD Amount (US$m.): IDA Amount (US$m.): GEF Amount (US$m.): \ Spanish Carbon Fund (US$m.): 13.5 Other financing amounts by source: Environmental Category: B Is this a transferred project Yes [ ] No [X] Simplified Processing Simple [X] Repeater [ ] Is this project processed under OP 8.50 (Emergency Recovery) Yes [ ] No [X] Public Disclosure Authorized B. Project Objectives: The project development objective is to reduce GHG emissions by increasing power generation efficiency at 6 turbines of the Bratsk HPP and thereby generating zero emissions power that would otherwise be generated by the fossil fuel power plants of the Irkutskenergo power system, namely from relatively inefficient coal fired power plants. The project will generate 2,103,743 tCO2eq of emission reductions during the 1st crediting period between 2008 and 2012. C. Project Description: Bratsk hydroelectric plant (BHPP) is the second HPP of the coordinated hydroelectric system downstream on the Angara River and the world’s leader in the total volume of electricity Public Disclosure Authorized production since the first generating unit was put into operation. The installed capacity of Bratsk HPP is 4500 MW (18 generating units of 250 MW each).
[Show full text]
Sources and the Flux Pattern of Dissolved Carbon in Rivers of the Yenisey Basin Draining the Central Siberian Plateau
Home Search Collections Journals About Contact us My IOPscience Sources and the flux pattern of dissolved carbon in rivers of the Yenisey basin draining the Central Siberian Plateau This article has been downloaded from IOPscience. Please scroll down to see the full text article. 2011 Environ. Res. Lett. 6 045212 (http://iopscience.iop.org/1748-9326/6/4/045212) View the table of contents for this issue, or go to the journal homepage for more Download details: IP Address: 217.79.48.2 The article was downloaded on 30/11/2011 at 05:02 Please note that terms and conditions apply. IOP PUBLISHING ENVIRONMENTAL RESEARCH LETTERS Environ. Res. Lett. 6 (2011) 045212 (14pp) doi:10.1088/1748-9326/6/4/045212 Sources and the flux pattern of dissolved carbon in rivers of the Yenisey basin draining the Central Siberian Plateau A S Prokushkin1,6, O S Pokrovsky2, L S Shirokova2,MAKorets1, J Viers2, S G Prokushkin1,RMWAmon3, G Guggenberger4 and W H McDowell5 1 V N Sukachev Institute of Forest SB RAS, Akademgorodok 50/28, Krasnoyarsk 660036, Russia 2 LMTG/OMP, Université Paul Sabatier-CNRS-IRD, 14 avenue Edouard Belin, 31400 Toulouse, France 3 Department of Marine Sciences, Texas A&M University at Galveston, Galveston, USA 4 Institut für Bodenkunde, Leibniz-Universität Hannover, Herrenhäuser Straße 2, 30419 Hannover, Germany 5 Department of Natural Resources and the Environment, University of New Hampshire, 170 James Hall, 56 College Road, Durham, NH 03824, USA E-mail: [email protected] Received 1 July 2011 Accepted for publication 1 November 2011 Published 29 November 2011 Online at stacks.iop.org/ERL/6/045212 Abstract Frequent measurements of dissolved organic (DOC) and inorganic (DIC) carbon concentrations in rivers during snowmelt, the entire ice-free season, and winter were made in five large watersheds (15 000–174 000 km2) of the Central Siberian Plateau (Yenisey River basin).
[Show full text]
FSU Gas Pipeline Map BV
Yana Srednekuuzhikskoye Kamchatka Peninsular Novaya Zemlya Severo Kolpakovskoye Norwegian Kshulskoye Sea Nizhnekvakchilskoye Barents Dikson UK ST. FERGUS VESTERLED Sea Russanov Nyhamma Shtokman Leningrad Draft for the TTG meeting on 25 / 26 October 2007 Pechenga Malygin North Novaya Zemlya Kara Belokamenka N. Tambey Lena Sea Kollsnes Murmansk Sea Yamal E. BovanenkoPeninsula S. Tambey Khanavey Sea of Okhotsk Kharasavey CATS Teesside Utrenneye W. Seyakha Kruzenshtern Olenek Upper Teutey Gydan Kårstø NORWAY SWEDEN Bovanenko Kandalaksha Nerstin Talnakh LANGELED Neytin Geoziche/Solyet Pelyatka Tas-Tumus Kolguyev S. Gydan Dudinka Noril'sk Island Sakha Republic Artem W. Solenin Aderpayuta Zimneye Nurmin Tasiy (Yakutia) Ust-Vilyuy OSLO Tota-Yakha Kanin Ust-Yuribey Kotuy Nedzhelin EUROPIPE II Peninsula Semakov S. Solenin Gulf of Antipayuta Messoyakha C Yamal Kysyl-Syr Rostovtsev Parusov Khalmerpayuta Bakton Yakutsk Khabarovsk Kray Bothnia FINLAND Kamenomys Yamburg 1070 Minkov Maloyamal Sredne-Viluyskoye Skagerrak Yamburg 760 Gävle Yamburg Nakhodka Kharyaga Nulumuyakha 710 Kem BBL Novoportov N. Urengoy/Olikumin Odoptu-More White Okha Göteborg Novyy Port Tazov Ålbørg Uppsala Sea Kharvuta Vilyuy Pil'tun-Astokhskoye Urengoy Zapolyar DENMARK Belomorsk Chaivo STOCKHOLM Kattegat Vosey 1420 x9 Purovsk Russkoye INTERCONNECTOR Balgzand Halmstad Novourengorsk S. Russkoye Lena Zeebrugge Novyy Urengoy Lunskoye Groningen Tampere Khasyreysk Urengoy AMSTERDAM 760 Arkhangel'sk Beregov Nikolayevsk Khasyreysk Tura Kirkkonummi Pravokh-Ettinsk Aldan -na-Amur Katangli NORTHERN TRANGAS Salekhard Ob Dornum 410 Usa Irelyakh Olekminsk Nadym Pogibi Pangodinsk Nizhnyaya Tunguska BRUSSELS Lazarevo Baltic 710 Nadym Medvezhye Yagnetsk S. Pyrey BELGIUM NETHERLANDS COPENHAGEN 510 S HELSINKI Karpogory a Porvoo 910 Synya k Sea HELSINKI Yamsovey Tarko Sale h Pechora Lensk a Kotka l Malmö Gulf of Vyborg Yagelnaya N.
[Show full text]
The Ancient Stages of the Culture Genesis of the Krasnoyarsk Northern Indigenous Peoples
View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Siberian Federal University Digital Repository Journal of Siberian Federal University. Humanities & Social Sciences 6 (2013 6) 816-841 ~ ~ ~ УДК 902.01 The Ancient Stages of the Culture Genesis of the Krasnoyarsk Northern Indigenous Peoples Nikolai P. Makarov* Siberian Federal University 79 Svobodny, Krasnoyarsk, 660041 Russia Received 21.12.2012, received in revised form 06.02.2013, accepted 11.03.2013 The current article presents a review of the archaeological researches that have been carried out in the vast territory of the Northern territories around the Yenisei since the first academic expedition of D.G. Messerschmidt in 1720-1727 till our days. On the basis of a wide range of archaeological sources kept in museum funds, literature analysis and various unpublished documents it provides a reconstruction of the sophisticated genesis processes of the culture of the indigenous people living in the North of Krasnoyarsk Region in various periods of the Stone, Bronze, Iron ages and during the Middle Ages. The archaeological material used in the article is represented by the pictures and photographs of the most remarkable artifacts. Keywords: archaeology, the Yenisei, the North, Krasnoyarsk Region. The work was fulfilled within the framework of the research financed by the Krasnoyarsk Regional Foundation of Research and Technology Development Support and in accordance with the course schedule of Siberian Federal University as assigned by the Ministry of Education and Science of the Russian Federation. Introduction It were the researches by D.G. Messerschmidt, The current research presents a general P.S.
[Show full text]
The Effect of Permafrost, Vegetation, and Lithology on Mg and Si Isotope Composition of the Yenisey River and Its Tributaries at the End of the Spring Flood
The effect of permafrost, vegetation, and lithology on Mg and Si isotope composition of the Yenisey River and its tributaries at the end of the spring flood Vasileios Mavromatisa,b*, Thomas Rindera, Anatoly S. Prokushkinc, Oleg S. Pokrovskya,d,e, Mikhail A. Koretsc, Jérôme Chmeleffa, Eric H. Oelkersa.f a Géosciences Environnement Toulouse (GET), CNRS, UMR 5563, Observatoire Midi- Pyrénées, 14 Av. E. Belin, 31400 Toulouse, France b Institute of Applied Geosciences, Graz University of Technology, Rechbauerstrasse 12, A- 8010 Graz, Austria. c V.N. Sukachev Institute of Forest, SB RAS, Akademgorodok 50/28, Krasnoyarsk 660036, Russia d BIO-GEO-CLIM Laboratory, Tomsk State University, Tomsk, Russia e Institute of Ecological Problems of the North, RAS, 23 Naber. Sev. Dviny, Arkhangelsk fEarth Sciences, University College London, WC1E 6BT, United Kingdom *Corresponding author: E-mail address: [email protected] 1 Abstract This work focuses on the behavior of the stable Mg and Si isotope compositions of the largest Arctic river, the Yenisey River and 28 of its major and minor tributaries during the spring flood period. Samples were collected along a 1500 km latitudinal profile covering a wide range of permafrost, lithology, and vegetation. Despite significant contrasts in the main physico-geographical, climate, and lithological parameters of the watersheds, the isotope composition of both dissolved Mg and Si was found to be only weakly influenced by the degree of the permafrost coverage, type of vegetation (forest vs. tundra), and lithology (granites, basalts, carbonates or terrigenous rocks). This observation is generally consistent with the lack of chemical uptake of Mg and Si by soil mineral formation and vegetation during the early spring.
[Show full text]
Contrails of Globalization and the View from the Ground: an Essay on Isolation in East-Central Siberia1
CONTRAILS OF GLOBALIZATION AND THE VIEW FROM THE GROUND: AN ESSAY ON ISOLATION IN EAST-CENTRAL SIBERIA1 Craig Campbell Department of Sociology, University of Alberta, Edmonton, Alberta Canada T6G 2E3 Abstract: This paper examines the conditions behind the tragic situation of isolation in remote rural settlements of post-Soviet Siberia. Ethnography, archival research, and a literature review are used to show how the landscape itself poses formidable impedi- ments to bettering the lives of indigenous Evenkis living in one northern district of Kras- noyarsk Kray. Over one or two generations, traditional Evenki systems of mobility were reconfigured according to mechanized vehicles, centralized settlements, and a heavy reli- ance on non-local goods. The fragility of the Soviet system for operating northern settle- ments can be taken as a general warning to other sub-Arctic and Arctic communities in the circumpolar North. In 2003, indigenous Siberian peoples living in remote villages and settlements have little or no access to means of travel and subsequently are suffering from a vari- ety of problems directly associated with isolation. The remains of Soviet-era settle- ments and their requisite infrastructures are material reminders of a built environment that has failed to adapt to the conditions of market capitalism and are poorly suited to provide for the needs of remotely located rural peoples in the post-Soviet era. These settlements were designed to function utilizing the redistributive inputs of fuel and subsidies associated with Soviet socialism and now fail to work in their absence. Soviet settlements in rural Siberia are de-localized (Pelto, 1973) technological sys- tems, now precariously situated because of their dependence upon transfer payments, non-monetary subsidies, and centralized bureaucracies that no longer exist.
[Show full text]
KRASNOYARSK Kray the Territory of Development 2 Krasnoyarsk Kray
KRASNOYARSK KRAY the territory of development 2 Krasnoyarsk kray. The territory of development 2013 3 Contents The Krasnoyarsk kray in figures and facts Opening statement of L. V. Kuznetsov, the Governor of the Krasnoyarsk kray 05 The territory of the Krasnoyarsk kray 06 The position of the Krasnoyarsk kray as the part 08 of the Russian Federation Map of the Krasnoyarsk kray 09 Opening statement of Alexander. V. Uss, the Chairman of the Legislative Assembly of the Krasnoyarsk kray 11 Education and science 12 Human potential 14 Opening statement of V.P. Tomenko, the First Deputy Governor of the Krasnoyarsk kray – the Prime Minister of the Krasnoyarsk kray 17 Foundations of the Krasnoyarsk kray economy 18 Investment policy of the Krasnoyarsk kray Opening statement of A. A. Gnezdilov, the Deputy Governor of the Krasnoyarsk kray – the Deputy Prime Minister of the Krasnoyarsk kray 23 Foundations of investment activity in the Krasnoyarsk kray 24 Investment projects of the Krasnoyarsk kray 26 Centers of economic development 30 Investment proposals 32 Krasnoyarsk Economic Forum 36 Contact information of the Executive bodies of the Krasnoyarsk kray 38 4 Krasnoyarsk kray. The territory of development 2013 5 The Krasnoyarsk kray is one For this very reason, the diversified of the most powerful and set of tools for reliable investor’s economically developed regions support are employed in our region, of Russia. There are few countries the country leaders and state in the world which could be authorities being actively involved compared to the kray in size, in this process. It is worth volume and variety of natural mentioning, that our region resources.
[Show full text]
Response of Siberian River Discharge to Disturbances of Forests Caused by Wildfires †
Proceedings Response of Siberian River Discharge to Disturbances of Forests Caused by Wildfires † Evgenii I. Ponomarev 1,2,* and Tatiana V. Ponomareva 1,2 1 V.N. Sukachev Institute of Forest SB RAS, Federal Research Center, Krasnoyarsk 660036, Russia; [email protected] 2 Institute of Ecology and Geography, Siberian Federal University, Krasnoyarsk 660041, Russia * Correspondence: [email protected]; Tel.: +7-391-249-4092 † Presented at the 3rd International Electronic Conference on Water Sciences, 15–30 November 2018; Available online: https://ecws-3.sciforum.net. Published: 15 November 2018 Abstract: The objective of this work was to perform a quantitative analysis of the correlation between the forest burning index and abnormal decrease in river discharge under conditions of the cryolithozone of Siberia. We analyzed the long-term and seasonal variation of river discharge in Central Siberia (Nizhnyaya Tunguska and Podkamennaya Tunguska rivers) and in Eastern Siberia (Aldan, Viluy rivers) together with the forest burning dynamics within the river basins. The data on river discharge were obtained from the archive of The Global Runoff Data Centre for 1939–2015. The relative burned area (RBA) index was calculated from wildfire databases collected using satellite technique for 1996–2017. RBA was evaluated as the ratio of the annual burned area within the river basin to the total area of the river basin. RBA values of 2.5–6.1% per year were considered as extremely high. The analysis of available chronologies of extreme fire events in Central and Eastern Siberia showed high correlation (r > −0.55) with long-term data on the runoff minima.
[Show full text]