Ch'amak Qullu

Total Page:16

File Type:pdf, Size:1020Kb

Ch'amak Qullu Ch'amak Qullu Ch'amak Qullu. Jach'a Pukara. Janq'u Quta. Ch'iyar Juqhu. Illampu. Illimani. Jach'a Khunu Qullu. Jach'a Waracha. Janq'u Qullu. Kunturiri (Los Andes). Kunturiri (Bolivia-Chile). Layqa Qullu. Machu Such'i Qhuchi. Mururata. Jach'a Khunu Qullu. The highest elevations are Jachacunocollo (5,800 m), Wayna Khunu Qullu (5,640 m) and Gigante (5,748 m). Other notable peaks are:[3][4][5]. León Jiwata, 5,680 metres (18,635 ft). San Luis, 5,620 metres (18,438 ft). Ch'amak Qullu is a mountain in the Bolivian Andes, about 5,350 metres high. It lies in the Kimsa Cruz mountain range south east of the mountain Yaypuri. It is situated in the La Paz Department, Inquisivi Province, Quime Municipality, west of Chatamarka Lake.[1]. For faster navigation, this Iframe is preloading the Wikiwand page for Ch'amak Qullu. Home. News. Chunkara. Ch'amak Qullu. Ch'iyar Jaqhi. Inka Laqaya. Iru Pata. Iskayuni. Jach'a Pukara. Jach'a Warmi Qullu. Jaqi Jiwata. Janq'u Qullu. Janq'u Quta. Juqhuri. Ch'amak Qullu is a mountain in the Bolivian Andes, about 5,350 metres (17,552 ft) high. It lies in the Kimsa Cruz mountain range south east of the mountain Yaypuri. It is situated in the La Paz Department, Inquisivi Province, Quime Municipality, west of Chatamarka Lake. Add. Ch'amak Qullu. + . Read more. Full Wikipedia Article. Ch'amak Qullu. Quime Municipality. 100% (1/1). + . Read more. Quime Municipality. Ch'amak Qullu Inquisivi Province Iskayuni. List of mountains in the Andes. Ch'amak Qullu (Aymara ch'amak dark, qullu mountain, "dark mountain", hispanicized spelling Chamac Collo) is a mountain in the Bolivian Andes, about 5,350 metres (17,552 ft) high. It lies in the Kimsa Cruz mountain range south east of the mountain Yaypuri. It is situated in the La Paz Department, Inquisivi Province, Quime Municipality, west of Chatamarka Lake. List of mountains in the Andes. How do you say ch'aki? Listen to the audio pronunciation of ch'aki on pronouncekiwi. How To Pronounce Ch'alla Qullu (Daniel Campos). How To Pronounce Ch'alla Qullu (disambiguation). How To Pronounce Ch'alla Qullu (La Paz). How To Pronounce Ch'alla Quta. How To Pronounce Ch'alla Willk'i. Ch'amak Qullu (Aymara ch'amak dark, qullu mountain, "dark mountain", hispanicized spelling Chamac Collo) is a mountain in the Bolivian Andes, about 5,350 metres (17,552 ft) high. It lies in the Kimsa Cruz mountain range south east of the mountain Yaypuri. It is situated in the La Paz Department, Inquisivi Province, Quime Municipality, west of Chatamarka Lake. List of mountains in the Andes..
Recommended publications
  • Wild Potato Species Threatened by Extinction in the Department of La Paz, Bolivia M
    CORE Metadata, citation and similar papers at core.ac.uk Provided by Scientific Journals of INIA (Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria) Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria (INIA) Spanish Journal of Agricultural Research 2007 5(4), 487-496 Available online at www.inia.es/sjar ISSN: 1695-971-X Wild potato species threatened by extinction in the Department of La Paz, Bolivia M. Coca-Morante1* and W. Castillo-Plata2 1 Facultad de Ciencias Agrícolas, Pecuarias, Forestales y Veterinarias. Dr. «Martín Cárdenas» (FCA, P, F y V). Universidad Mayor de San Simón (UMSS). Casilla 1044. Cochabamba. Bolivia 2 Medio Ambiente y Desarrollo (MEDA). Cochabamba. Bolivia Abstract The Department of La Paz has the largest number of wild potato species (Solanum Section Petota Solanaceae) in Bolivia, some of which are rare and threatened by extinction. Solanum achacachense, S. candolleanum, S. circaeifolium, S. okadae, S. soestii and S. virgultorum were all searched for in their type localities and new areas. Isolated specimens of S. achacachense were found in its type localities, while S. candolleanum was found in low density populations. Solanum circaeifolium was also found as isolated specimens or in low density populations in its type localities, but also in new areas. Solanum soestii and S. okadae were found in small, isolated populations. No specimen of S. virgultorum was found at all. The majority of the wild species searched for suffered the attack of pathogenic fungi. Interviews with local farmers revealed the main factors negatively affecting these species to be loss of habitat through urbanization and the use of the land for agriculture and forestry.
    [Show full text]
  • BOLIVIAN STUDENT CHAPTER “Vision for Geosciences in Bolivia”
    Society of Economic Geologists (SEG) BOLIVIAN STUDENT CHAPTER “Vision for Geosciences in Bolivia” Field Trip to Quechisla District 2016 And Short Excursions SEG BOLIVIAN STUDENT CHAPTER, Facultad de Geología, Universidad Mayor de San Andrés, Calle 27, Pabellón Geología de Cota Cota,La Paz – Bolivia Introduction The SEG-BSC successfully organized two short courses with excursions of a day and a principal course with field trips. The main objective was to promote the knowledge in Economic Geology and techniques of exploration of the mineral resources from Bolivia, also to promote the interactions among members of the geoscientist community. 1. Field Trip Course: “World Class Polymetallic Deposits in Quechisla District, South of Bolivia" From 23 to 28 April, 2016. pág. 2 SEG BOLIVIAN STUDENT CHAPTER, Facultad de Geología, Universidad Mayor de San Andrés, Calle 27, Pabellón Geología de Cota Cota,La Paz – Bolivia The course co-organized by the Association of Geologists of Bolivia (CGB) and the SEG- BSC was “World Class Polymetallic Deposits in Quechisla District, South of Bolivia" held 23 to 28 April 2016 in Quechisla District of the Potosi State. The theoretical portion was held in the Auditorium of Telamayu (2 Days) and field trips (4 days) included visits to the sites of Choroma, Animas y Siete Suyos, Chorolque and Tasna. The instructors were Dr. Stewart Redwood (SEG 1992 F), Dr. Kevin B. Heather (SEG 1998 F) and Dr. Osvaldo Arce (SEG 2008 F). The course was sponsored by the Association of Geologists of Bolivia (CGB), The Stewart R. Wallace Fund from SEG, SEG Bolivian Student Chapter, San Cristobal Mining, Pan American Silver and Mining Corporation of Bolivia (COMIBOL).
    [Show full text]
  • I^Û^^^ World Health Organization ^ ^ S
    I^û^^^ WORLD HEALTH ORGANIZATION VIR/RC/74.36 (Arbo) ^^S^ ORGANISATION MONDIALE DE LA SANTÉ ENGLISH ONLY MEETING OF DIRECTORS OF WHO REFERENCE CENTRES INDEXED FOR ARBOVIRUSES, CHLAMDYDIAE AND RICKETTSIAE Geneva, 1-5 April 1974 j>y^\ HEO '/^'. YELLOW FEVER IN THE AMERICAS by 1 2 7 Thomas P. Monath, M.D. Chief, Vector-Borne Diseases Division Center for Disease Control Ft. Collins, Colorado Efforts to eradicate Aedes aegypti during the first 30 years of this century resulted in the virtual disappearance of urban epidemics of yellow fever but uncovered the underlying sylvan transmission cycle. Since 1930, only 14 epidemics of urban yellow fever have occurred; each followed introduction of the virus from a juxtaposed jungle focus, and none resulted in a continuing endemic presence. The last outbreak was recorded in Port of Spain, Trinidad in 1954. Since 1930, the annual incidence of human cases of jungle yellow fever has been low and fairly constant. Periodically an increase in virus activity is manifested by cases clustered in time and space within the endemic zone. A few epidemics have broached the boundaries of the endemic wet forests of South America, extending into Argentina to the south or into Central America to the north. Yellow fever virus is endemic in Brazil, Bolivia, Peru, and Colombia, in forested and sparsely-populated areas under limited cultivation, drained by tributaries of the Amazon and Orinoco Rivers. The incidence of cases in the last five years, reflecting only the activity of yellow fever in its sylvan cycle, is shown in Table 1. Brazil. Yellow fever cases are sporadically recognized in the states of Para, Amazonas, Acre, Mato Grosso, Goias, and in the territories of Roraima and Rondoma.
    [Show full text]
  • Phd Thesis, Wageningen University, Wageningen, NL (2014) with References, with Summaries in Dutch, Spanish and English
    Conserving the genetic diversity of Bolivian wild potatoes Ximena Cadima Fuentes Thesis committee Promotor Prof. Dr M.S.M. Sosef Professor of Biosystematics Wageningen University Co-promotors Dr R.G. van den Berg Associate professor, Biosystematics Group Wageningen University Dr R. van Treuren Researcher, Centre for Genetic Resources, the Netherlands (CGN) Wageningen University and Research Centre Other members Prof. Dr P.C. Struik, Wageningen University Prof. Dr J.C. Biesmeijer, Naturalis Biodiversity Center, Leiden Dr M.J.M. Smulders, Wageningen University and Research Centre Dr S. de Haan, International Potato Centre, Lima, Peru This research was conducted under the auspices of the Graduate School of Experimental Plant Sciences. Conserving the genetic diversity of Bolivian wild potatoes Ximena Cadima Fuentes Thesis submitted in fulfilment of the requirements for the degree of doctor at Wageningen University by the authority of the Rector Magnificus Prof. Dr M.J. Kropff, in the presence of the Thesis Committee appointed by the Academic Board to be defended in public on Monday 8 December 2014 at 4 p.m. in the Aula. Ximena Cadima Fuentes Conserving the genetic diversity of Bolivian wild potatoes, 229 pages. PhD thesis, Wageningen University, Wageningen, NL (2014) With references, with summaries in Dutch, Spanish and English ISBN 978-94-6257-168-6 Biogeographic province Wild potato species Yungas Bolivian Puna Puna (800- Tucuman Mesophytic Xerophytic 4200 m) (500 (2300- (3200- 5000 m) 5200 m) 5200 m) Solanum acaule Bitter X X X S. achacachense Cárdenas X S. alandiae Cárdenas X S. arnezii Cárdenas X S. avilesii Hawkes & Hjrt. X S. berthaultii Hawkes X S.
    [Show full text]
  • Electoral Systems and Weighted Voting
    M.Sc. Oscar Heredia Vargas RECTOR Dra. María Eugenia García Moreno VICERRECTORA Dr. Alfredo Seoane Flores DIRECTOR - CIDES Obrajes, Av. 14 de Septiembre Nº 4913, esquina Calle 3 Telf/Fax: 591-2-2786169 / 591-2-2784207 591-2-2782361 / 591-2-2785071 [email protected] www.cides.edu.bo Umbrales N° 38 Procesos electorales y reconfiguraciones políticas en Bolivia La Revista Umbrales es una publicación semestral del Postgrado en Ciencias del Desarrollo, unidad dependiente del Vicerrectorado de la Universidad Mayor de San Andrés. Tiene como misión contribuir al debate académico e intelectual en Bolivia y América Latina, en el marco del rigor profesional y el pluralismo teórico y político, al amparo de los compromisos democráticos, populares y emancipatorios de la universidad pública boliviana. Consejo editorial: Luis Claros Gonzalo Rojas Cecilia Salazar Luis Tapia Coordinador de la publicación: Luis Claros Cuidado de la edición: Fernanda Sostres Diagramación: Marco A. Guerra Medrano Ilustración de portada: Frank Arbelo © CIDES-UMSA, 2021 Primera edición: abril de 2021 D.L.: 4-3-27-12 ISSN: 1994-4543 Umbrales (La Paz, en línea) Impreso en Bolivia Índice Presentación Luis Tapia ............................................................................................... 7 Competencia electoral y comportamiento del voto en Bolivia: cambios y continuidades desde una perspectiva multinivel (1985-2021) Julio Ascarrunz ...................................................................................... 9 Antecedentes y características de las Elecciones
    [Show full text]
  • The Mineral Industry of Bolivia in 2008
    2008 Minerals Yearbook BOLIVIA U.S. Department of the Interior August 2010 U.S. Geological Survey THE MINERAL INDUS T RY OF BOLIVIA By Steven T. Anderson In 2008, Bolivia produced about 5% of the world’s total mine this same timeframe (Instituto Nacional de Estadística, Bolivia, output of tin and silver; 3%, of zinc; 2%, of antimony, bismuth, 2009a; 2009b, p. 448-450; International Monetary Fund, 2009; lead, and tungsten; and approximately 1%, of boron. Bolivia’s López and Ferrufino, 2009, p. 9-10, 28-30; Ministerio de proven reserves of natural gas (about 711 billion cubic meters) Minería y Metalurgia, Bolivia, undated a, p. 6). were second only to those of Venezuela among South American In 2007 (the latest year for which data were available), the countries. Tin, some antimony, and small amounts of some total labor force employed in mining was about 57,400 workers. other mined minerals were refined or further processed into mill Of these workers, an estimated 46,700 small-scale, cooperative, products in the country but most were exported in crude form and artisanal (SMACA) miners were officially registered by rail to ports on the coasts of Argentina, Brazil, Chile, and (or) with a cooperative through the Government and at least 2,450 Peru and then shipped further on to processing facilities located SMACA miners were not. In 2006 and 2007, about 3,350 people in Asia, Europe, and North America. On average, 31 million were employed by medium-scale mining operations that used cubic meters per day of Bolivia’s production of natural gas modern mining methods.
    [Show full text]
  • GEOLEV2 Label Updated October 2020
    Updated October 2020 GEOLEV2 Label 32002001 City of Buenos Aires [Department: Argentina] 32006001 La Plata [Department: Argentina] 32006002 General Pueyrredón [Department: Argentina] 32006003 Pilar [Department: Argentina] 32006004 Bahía Blanca [Department: Argentina] 32006005 Escobar [Department: Argentina] 32006006 San Nicolás [Department: Argentina] 32006007 Tandil [Department: Argentina] 32006008 Zárate [Department: Argentina] 32006009 Olavarría [Department: Argentina] 32006010 Pergamino [Department: Argentina] 32006011 Luján [Department: Argentina] 32006012 Campana [Department: Argentina] 32006013 Necochea [Department: Argentina] 32006014 Junín [Department: Argentina] 32006015 Berisso [Department: Argentina] 32006016 General Rodríguez [Department: Argentina] 32006017 Presidente Perón, San Vicente [Department: Argentina] 32006018 General Lavalle, La Costa [Department: Argentina] 32006019 Azul [Department: Argentina] 32006020 Chivilcoy [Department: Argentina] 32006021 Mercedes [Department: Argentina] 32006022 Balcarce, Lobería [Department: Argentina] 32006023 Coronel de Marine L. Rosales [Department: Argentina] 32006024 General Viamonte, Lincoln [Department: Argentina] 32006025 Chascomus, Magdalena, Punta Indio [Department: Argentina] 32006026 Alberti, Roque Pérez, 25 de Mayo [Department: Argentina] 32006027 San Pedro [Department: Argentina] 32006028 Tres Arroyos [Department: Argentina] 32006029 Ensenada [Department: Argentina] 32006030 Bolívar, General Alvear, Tapalqué [Department: Argentina] 32006031 Cañuelas [Department: Argentina]
    [Show full text]
  • The Sustainability of Indigenous Wind Instrument Making Practices In
    The Sustainability of Indigenous Wind Instrument Making Practices in Bolivia A while ago, I started my fieldwork with Indigenous wind instrument makers, bamboo harvesters and collectors in Bolivia. Bamboo is a fascinating material for wind instrument making. It unites certain characteristics that render them superior in comparison to other materials. It is a natural and sustainable material, grows hollow, has potentially solid culm walls with smooth surfaces from the inside, is fibrous, ductile and workable without greater mechanical or technological affordances. I studied how makers distinguish between certain musical bamboos – those native woody bamboos used for musical instrument making; how musical bamboos are part of a chain of commercialization and commodification; how wind instrument making practices transformed over the last decade in relation to socio-economic, political and ecological changes. Native woody bamboos used for Indigenous wind instrument making From a botanical point of view, bamboos are evergreen perennial flowering plants in the subfamily of Bambusoideae of the grass family Poaceae. They are divided into non-tropical woody bamboos, tropical woody bamboos and herbaceous bamboos. For my study, I mainly focused on tropical woody bamboos, as some of these species and genera are used for making Indigenous wind instruments. In this regard, I wanted to know, where and how they grow, what their potential threats are, how makers, bamboo collectors and harvesters relate to them. Therefore, before starting my fieldwork, I produced ecological niche models of some known and reported tropical woody bamboo species in Bolivia, and calculated their niche loss due to deforestation. Páramo Yungueño in Inquisivi Province, La Paz Department Then, during fieldwork, I had the chance to accompany instrument makers and bamboo collectors to the locations where bamboo is harvested, and to undertake ethnographic research with local actors involved in harvesting and commercializing bamboo.
    [Show full text]
  • The Mineral Industry of Bolivia in 2016
    2016 Minerals Yearbook BOLIVIA [ADVANCE RELEASE] U.S. Department of the Interior January 2021 U.S. Geological Survey The Mineral Industry of Bolivia By Philip A. Szczesniak The growth of the economy of Bolivia slowed in 2016 increases in production and prices. Royalties from hydrocarbons primarily owing to a decrease in the value of crude petroleum decreased by nearly 50%, and were estimated to be less than and natural gas exports. This decrease led to a real gross $500 million. The Government had projected a sharp decrease domestic product (GDP) growth rate of 4.1% in 2016 as in natural gas royalties in 2016 and 2017 to their lowest levels in reported by the International Monetary Fund (IMF), which was 11 years as newer contracts were expected to reflect lower prices the lowest since 2010 and compares to an annual average of and volumes were likely to continue to decrease (Filomeno, 2016; nearly 5.5% from 2011 to 2015. A sharp decrease in the value Bolivia.com, 2017; Instituto Nacional de Estadística, 2017a). of crude petroleum and natural gas sector exports, which were Foreign direct investment (FDI) in Bolivia in 2016 decreased affected by decreases in both export prices and quantities, was by 26% to $410 million. The Economic Commission for Latin only partially offset by an increase in the value of mineral America and the Caribbean noted that Bolivia’s FDI had sector exports (Banco Central de Bolivia, 2017g; Economic fallen each year since reaching a 5-year high of $1.8 billion Commission for Latin America and the Caribbean, 2017b, p.
    [Show full text]
  • Bolivia? Why Invest in Bolivia?
    1 2 ¿POR QUÉ INVERTIR EN BOLIVIA? WHY INVEST IN BOLIVIA? • Solidez macroeconómica............................................................................ 5 • Macroeconomic soundness......................................................................... 5 • Bolivia - País confiable para invertir.............................................................15 • Bolivia - A reliable country to invest ..........................................................15 • Bolivia un nuevo destino de inversión - potenciales sectores estratégicos...........16 • Bolivia: a new investment destination - potential strategic sectors......16 • Marco legal favorable y estable para la inversión extranjera............................20 • Favorable and stable legal framework for foreign investment...................20 • Políticas de integración..............................................................................23 • Integration policies..................................................................................23 • Oportunidades de obtención de financiamiento.............................................24 • Facilities to get financing..........................................................................24 • Un país para Vivir Bien..............................................................................25 • A country to Live Well..............................................................................25 OPORTUNIDADES DE INVESTMENT INVERSIÓN - SECTORES OPPORTUNITIES - SECTORS • Hidrocarburos...............................................................................28
    [Show full text]
  • A Study of D'orbigny's
    Edward C. Dickinson and Alain Lebossé 49 Zoological Bibliography 2018 5(4) A study of d’Orbigny’s “Voyage dans l’Amerique Meridionale” IV. New avian names deriving from d’Orbigny’s expedition with evidence for their first introduction and necessary corrections to authorship, dates and citations1 Edward C. Dickinson and Alain Lebossé COPYRIGHT: © 2017 Dickinson and Lebossé. This is an open‐access article distributed under the terms of the Creative Commons Attribution Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. ABSTRACT: The detailed six‐part review by Hellmayr (1921‐25) of the important ornithological findings of d’Orbigny in South America made use of the limited available information then available to him on the dates of publication of the 90 individual livraisons of d’Orbigny’s report on the birds. This was against a background of relative uncertainty as to the dates of publication of the two parts of the Synopsis Avium by d’Orbigny & Lafresnaye in the Magasin de Zoologie published by Guerin‐Meneville. The later findings of Sherborn & Griffin (1934), based on a set of wrappers of d’Orbigny’s book, allowed more certainty regarding the content of each wrapper, but the reported wrapper dates themselves (year dates only) cast doubt on issue sequence, and better information on the individual dates of the livraisons was not brought forward. Here that evidence is assembled and the interaction of these dates with the probable publications dates for the two parts of the Synopsis Avium is assessed. Based on this each genuinely new name proposed in either work is presented as a recommended valid original name, accompanied by citations to the same taxon elsewhere in either work.
    [Show full text]
  • Save the Children/Bolivia Mothercare (Warmi) Project Mid-Term Evaluation
    DI - SAVE THE CHILDREN/BOLIVIA MOTHERCARE (WARMI) PROJECT MID-TERM EVALUATION APRIL, 1992 LA PAZ SAVE THE CHILDREN/BOLIVIA MOTHERCARE (WARMI) PROJECT MID-TERM EVALUATION EVALUATION TEAM: Erick Roth CIEC Loren Galvao Save the Children/Westport Lisa Howard-Grabman John Snow/Bolivia Guillermo Seoane Save the Children/Bolivia Elsa SAnchez Save the Children/Bolivia Hernan Zambrana Ministry of Health/La Paz Unit LA PAZ, APRIL, 1992. TABLE OF CONTENTS PAGE EXECUTIVE SUMMARY ........................... 1 - 6 I. BACKGROUND .................................. 7 - 8 II. METHODOLOCY ................................. 9 -15 III. RESULTS ................ .............. *... 16 -67 A. Structure and Characteristics of the Project ................................ 16 -20 B. Project Personnel ...................... 21 -23 C. Training/Education ..................... 24 -30 D. Organization and Local Participation in the Project ............................. 31 -33 E. Autodiagnosis .......................... 33 -44 F. Maternal and Neonatal Health Information System ................................. 45 -56 G. Technical Assistance ................... 57 -58 H. Interinstitutional Coordination ........ 59 -61 I. Administration ......................... 62 J. Budget Analysis ....................... 63 K. Sustainability ......................... 64 -67 IV. CONCLUSIONS ................................. 68 -71 ANNEXES . .................................... 72-­ EXECUTIVE SUMMARY Save the Children/Bolivia fifty began MotherCare Project communities in the activities in
    [Show full text]