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  • 1
    Online Resource
    Online Resource
    Patrimonio geológico y geodiversidad : investigación, conservación, gestión y relación con los espacios naturales protegidos. (2007)
    Madrid :Instituto Geológico y Minero de España,
    Details
    Keywords: Geology--Spain. ; Geología--España. ; Nature conservation. ; Naturaleza--Conservación.,. ; Electronic books.
    Type of Medium: Online Resource
    Pages: 1 online resource (380 pages)
    ISBN: 9788478407101
    URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=4184490
    DDC: 554.6
    Language: Spanish
    Note: PATRIMONIO GEOLÓGICO Y GEODIVERSIDAD. INVESTIGACIÓN, CONSERVACIÓN, GESTIÓN Y RELACIÓN (...) -- PÁGINA LEGAL -- ÍNDICE -- PARTE I. INTRODUCCIÓN -- CAPÍTULO 1. INTRODUCCIÓN -- 1.1. INTRODUCCIÓN -- 1.2. ORGANIZACIÓN DE LA OBRA -- 1.3. ANTECEDENTES -- PARTE II. PATRIMONIO GEOLÓGICO -- CAPÍTULO 2. ESTUDIO DEL PATRIMONIO GEOLÓGICO -- 2.1. DEFINICIÓN Y CONCEPTOS -- 2.1.1. Definiciones de (...) -- 2.1.2. Otros conceptos (...) -- 2.1.3. Puntos de (...) -- 2.1.4. Georrecursos culturales -- 2.2. ANTECEDENTES SOBRE EL ESTUDIO (...) -- 2.3. CARACTERÍSTICAS DEL PATRIMONIO GEOLÓGICO -- 2.4. OBJETIVOS, INTERÉS Y APLICACIONES DEL (...) -- 2.4.1. Patrimonio geológico (...) -- 2.5. MÉTODOS DE ESTUDIO -- CAPÍTULO 3. CATALOGACIÓN DEL PATRIMONIO (...) -- 3.1. LOS INVENTARIOS COMO SISTEMA DE (...) -- 3.2. FASES EN LA REALIZACIÓN DE (...) -- 3.2.1. Recopilación (...) -- 3.2.2. Síntesis geológica -- 3.2.3. Identificación (...) -- 3.2.4. Clasificación (...) -- 3.3. ASPECTOS PREVIOS A (...) -- 3.3.1. Delimitación (...) -- 3.3.2. Escala -- 3.3.3. Tipología (...) -- 3.3.4. Representación (...) -- 3.4. TIPOS DE INVENTARIOS Y SISTEMAS DE (...) -- 3.4.1. Inventarios (...) -- 3.4.2. Inventarios sistemáticos -- 3.4.3. Inventarios (...) -- 3.4.4. Inventarios (...) -- 3.5. CLASIFICACIÓN DE LOS PUNTOS (...) -- 3.6. INVENTARIOS EN DIFERENTES ÁMBITOS TERRITORIALES -- 3.7. FICHAS DESCRIPTIVAS -- CAPÍTULO 4. VALORACIÓN Y DIAGNÓSTICO (...) -- 4.1. ASPECTOS A VALORAR -- 4.1.1. Aspectos (...) -- 4.1.2. Medida (...) -- 4.1.3. Estimación (...) -- 4.2. OTROS PARÁMETROS A VALORAR -- 4.2.1. Potencialidad (...) -- 4.2.2. Riesgo (...) -- 4.3. SISTEMAS DE VALORACIÓN -- 4.3.1. Escalas (...) -- 4.4. REVISIÓN DE LA SELECCIÓN -- 4.5. DIAGNÓSTICO DEL PATRIMONIO GEOLÓGICO -- PARTE III. GEODIVERSIDAD -- CAPÍTULO 5. GEODIVERSIDAD -- 5.1. ORIGEN DEL CONCEPTO Y DEFINICIÓN. , 5.2. ESTUDIO DE LA GEODIVERSIDAD -- 5.3. RELACIÓN ENTRE GEODIVERSIDAD (...) -- 5.3.1. Geodiversidad (...) -- 5.3.2. Diferencias (...) -- 5.3.3. Relación (...) -- 5.4. RELACIÓN ENTRE GEODIVERSIDAD (...) -- 5.5. RELACIÓN ENTRE GEODIVERSIDAD Y PAISAJE -- CAPÍTULO 6. ESTUDIO DE LA GEODIVERSIDAD -- 6.1. ASPECTOS PREVIOS -- 6.2. DEFINICIÓN DE LA MUESTRA -- 6.2.1. Delimitación (...) -- 6.2.2. Escala -- 6.2.3. Cartografía -- 6.2.4. Tipología (...) -- 6.3. DEFINICIÓN DE CLASES DE GEODIVERSIDAD -- 6.3.1. Clasificación inicial -- 6.3.2. Aspectos (...) -- 6.3.3. Ponderación -- 6.4. ANÁLISIS DE LA GEODIVERSIDAD -- 6.4.1. Abundancia (...) -- 6.4.2. Frecuencia -- 6.4.3. Distribución -- 6.4.4. Otros (...) -- 6.5. PATRONES DE GEODIVERSIDAD -- 6.5.1. Ejemplos (...) -- 6.6. GEODIVERSIDAD Y PATRIMONIO GEOLÓGICO -- PARTE IV. CONSERVACIÓN, ESPACIOS NATURALES PROTEGIDOS (...) -- CAPÍTULO 7. CONSERVACIÓN DEL PATRIMONIO (...) -- 7.1. PRINCIPIOS Y CONCEPTOS BÁSICOS (...) -- 7.1.1. Los orígenes (...) -- 7.1.2. Principios (...) -- 7.1.3. Conceptos (...) -- 7.2. VULNERABILIDAD Y RIESGO DE DEGRADACIÓN -- 7.2.1. Medida (...) -- 7.2.2. Factores (...) -- 7.2.3. Medida (...) -- 7.2.4. Aplicaciones (...) -- 7.3. CAPACIDAD DE CARGA, UMBRALES Y LÍMITE (...) -- 7.4. AMENAZAS PARA LA GEOCONSERVACIÓN -- 7.4.1. Uso público (...) -- 7.4.2. Coleccionismo -- 7.4.3. Casos (...) -- 7.5. RESTAURACIÓN DE ZONAS DEGRADADAS -- 7.5.1. Ejemplos (...) -- 7.6. SEGUIMIENTO Y CONTROL: GEOINDICADORES -- 7.6.1. El seguimiento (...) -- 7.6.2. Geoindicadores -- 7.6.3. Aplicación (...) -- 7.6.4. Limitaciones (...) -- 7.6.5. El proceso (...) -- 7.6.6. Sistemas (...) -- 7.7. GEOCONSERVACIÓN Y DESARROLLO SOSTENIBLE -- CAPÍTULO 8. PATRIMONIO (...) -- 8.1. GEOLOGÍA EN EL ORIGEN DEL CONCEPTO (...) -- 8.2. LOS ESPACIOS NATURALES (...) -- 8.3. LEGISLACIÓN SOBRE ESPACIOS (...) -- 8.3.1. Legislación (...). , 8.3.2. Figuras (...) -- 8.3.3. La figura (...) -- 8.3.4. Categorías (...) -- 8.4. LA GEOLOGÍA EN EL PROCESO DE (...) -- 8.5. EL ANÁLISIS DEL PATRIMONIO GEOLÓGICO (...) -- 8.6. LA GEODIVERSIDAD COMO BASE (...) -- 8.7. EL ANÁLISIS DEL PATRIMONIO GEOLÓGICO (...) -- 8.8. LA PROTECCIÓN EN EL CONTEXTO GENERAL (...) -- CAPÍTULO 9. LA DIVULGACIÓN DEL PATRIMONIO (...) -- 9.1. INTRODUCCIÓN -- 9.2. CONCEPTOS BÁSICOS: LA INTERPRETACIÓN -- 9.3. LA DIVULGACIÓN COMO HERRAMIENTA DE GESTIÓN -- 9.4. PLANIFICACIÓN DE LA DIVULGACIÓN: LOS (...) -- 9.5. SISTEMAS DE INTERPRETACIÓN. RECURSOS -- 9.6. EXPERIENCIAS EN EL CAMPO DE LA (...) -- 9.7. ITINERARIOS DE INTERPRETACIÓN GEOLÓGICA -- 9.7.1. Generalidades (...) -- 9.7.2. Metodología (...) -- 9.7.3. El ejemplo (...) -- CAPÍTULO 10. GESTIÓN DEL PATRIMONIO GEOLÓGICO (...) -- 10.1. EL PATRIMONIO GEOLÓGICO Y LA (...) -- 10.2. UNIDADES DE GESTIÓN. EL PATRIMONIO (...) -- 10.3. EL PATRIMONIO GEOLÓGICO Y LA (...) -- 10.3.1. Geoparques -- PARTE V. DISCUSIÓN FINAL Y CONCLUSIONES -- CAPÍTULO 11. DISCUSIÓN FINAL -- CAPÍTULO 12. CONCLUSIONES -- PARTE VI. BIBLIOGRAFÍA -- CAPÍTULO 13. REFERENCIAS BIBLIOGRÁFICAS -- CAPÍTULO 14. REFERENCIAS DIGITALES -- ÍNDICES Y ANEXOS -- ÍNDICE DE ACRÓNIMOS -- ANEXO 1. RESUMEN DE LA CREACIÓN (...) -- ANEXO 2. DECLARACIÓN INTERNACIONAL SOBRE (...) -- ANEXO 3. DECLARACIÓN DE GIRONA SOBRE EL (...) -- ANEXO 4. DECLARACIÓN DE MADRID. (...) -- ANEXO 5. RECOMENDACIONES (...) -- ANEXO 6. DECLARACIÓN DE BRAGA. (...).
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    GEOMAR EBL
  • 2
    Electronic Resource
    Electronic Resource
    Hypocholesterolemia in critically ill patients (2000)
    Springer
    Intensive care medicine 26 (2000), S. A259 
    Details
    ISSN: 1432-1238
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/PL00003790
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    Paper (German National Licenses)
    Fulltext
  • 3
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    Delievering 21st century Antarctic and Southern Ocean science (2016)
    CAMBRIDGE UNIV PRESS
    In:  EPIC3Antarctic Science, CAMBRIDGE UNIV PRESS, 28(6), pp. 407-423, ISSN: 0954-1020
    Details
    Publication Date: 2017-03-27
    Description: The Antarctic Roadmap Challenges (ARC) project identified critical requirements to deliver high priority Antarctic research in the 21st century. The ARC project addressed the challenges of enabling technologies, facilitating access, providing logistics and infrastructure, and capitalizing on international co-operation. Technological requirements include: i) innovative automated in situ observing systems, sensors and interoperable platforms (including power demands), ii) realistic and holistic numerical models, iii) enhanced remote sensing and sensors, iv) expanded sample collection and retrieval technologies, and v) greater cyber-infrastructure to process ‘big data’ collection, transmission and analyses while promoting data accessibility. These technologies must be widely available, performance and reliability must be improved and technologies used elsewhere must be applied to the Antarctic. Considerable Antarctic research is field-based, making access to vital geographical targets essential. Future research will require continent- and ocean-wide environmentally responsible access to coastal and interior Antarctica and the Southern Ocean. Year-round access is indispensable. The cost of future Antarctic science is great but there are opportunities for all to participate commensurate with national resources, expertise and interests. The scope of future Antarctic research will necessitate enhanced and inventive interdisciplinary and international collaborations. The full promise of Antarctic science will only be realized if nations act together.
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , isiRev
    Format: application/pdf
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  • 4
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    Bathymetry and geological setting of the Drake Passage (2016)
    British Antarctic Survey
    In:  EPIC3GEOMAP 2 Series, British Antarctic Survey
    Details
    Publication Date: 2016-12-19
    Repository Name: EPIC Alfred Wegener Institut
    Type: Miscellaneous , notRev
    Format: application/pdf
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  • 5
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    Cross-disciplinarity in the advance of Antarctic ecosystem research (2018)
    ELSEVIER SCIENCE BV
    In:  EPIC3Marine Genomics, ELSEVIER SCIENCE BV, 37, pp. 1-17, ISSN: 1874-7787
    Details
    Publication Date: 2018-03-06
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , isiRev
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  • 6
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    Thermal state of permafrost and active-layer monitoring in the Antarctic: advances during the International Polar Year 2007-2009 (2010)
    In:  EPIC3Permafrost and Periglacial Processes 21(2), pp. 182-197
    Details
    Publication Date: 2019-07-17
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , isiRev
    Format: application/pdf
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  • 7
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    5.1 Early Science Outcomes of IPY 20072008 (2011)
    In:  EPIC3Understanding Earth s Polar Challenges: Summary by the IPY joint committee International Polar Year 20072008, Krupnik, I., Allison, I., Bell, R. Cutler, P., Hik, D., López-Martínez, J., Rachold, V., Sarukhanian, E. and Summerhayes, C. (Editors), Universit, pp. 529-544, ISBN: 978-1-896445-55-7
    Details
    Publication Date: 2014-04-15
    Repository Name: EPIC Alfred Wegener Institut
    Type: Inbook , peerRev
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  • 8
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    Chapter 2.8: Earth Structure and Geodynamics at the Poles (2011)
    In:  EPIC3Understanding Earth's Polar Challenges: International Polar Year 2007-2008, Summary by the IPY Joint Committee; University of the Arctic, Rovaniemi, Finland /CCI Press, Edmonton, Canada and ICSU/WMO Joint Committee for International Polar Year 20072008 /, ISBN: 978-1-896445-55-7
    Details
    Publication Date: 2019-07-17
    Repository Name: EPIC Alfred Wegener Institut
    Type: Inbook , peerRev
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  • 9
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    A roadmap for Antarctic and Southern Ocean science for the next two decades and beyond (2014)
    CAMBRIDGE UNIV PRESS
    In:  EPIC3Antarctic Science, CAMBRIDGE UNIV PRESS, ISSN: 0954-1020
    Details
    Publication Date: 2020-07-07
    Description: Antarctic and Southern Ocean science is vital to understanding natural variability, the processes that govern global change and the role of humans in the Earth and climate system. The potential for new knowledge to be gained from future Antarctic science is substantial. Therefore, the international Antarctic community came together to ‘scan the horizon’ to identify the highest priority scientific questions that researchers should aspire to answer in the next two decades and beyond. Wide consultation was a fundamental principle for the development of a collective, international view of the most important future directions in Antarctic science. From the many possibilities, the horizon scan identified 80 key scientific questions through structured debate, discussion, revision and voting. Questions were clustered into seven topics: i)Antarctic atmosphere and global connections, ii) Southern Ocean and sea ice in a warming world, iii) ice sheet and sea level, iv) the dynamic Earth, v) life on the precipice, vi) near-Earth space and beyond, and vii) human presence in Antarctica. Answering the questions identified by the horizon scan will require innovative experimental designs, novel applications of technology, invention of next-generation field and laboratory approaches, and expanded observing systems and networks. Unbiased, non-contaminating procedures will be required to retrieve the requisite air, biota, sediment, rock, ice and water samples. Sustained year-round access toAntarctica and the Southern Ocean will be essential to increase winter-time measurements. Improved models are needed that represent Antarctica and the Southern Ocean in the Earth System, and provide predictions at spatial and temporal resolutions useful for decision making. A co-ordinated portfolio of cross-disciplinary science, based on new models of international collaboration, will be essential as no scientist, programme or nation can realize these aspirations alone.
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , isiRev
    Format: application/pdf
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  • 10
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    Morphological and geological features of Drake Passage, Antarctica, from a new digital bathymetric model (2018)
    JOURNAL MAPS
    In:  EPIC3Journal of Maps, JOURNAL MAPS, ISSN: 1744-5647
    Details
    Publication Date: 2019-06-30
    Description: The Drake Passage is an oceanic gateway of about 850km width located between South America and the Antarctic Peninsula that connects the southeastern Pacific Ocean with the southwestern Atlantic Ocean. It is an important gateway for mantle flow, oceanographic water masses, and migrations of biota. This sector developed within the framework of the geodynamic evolution of the Scotia Arc, including continental fragmentation processes and oceanic crust creation, since the oblique divergence of the South American plate to the north and the Antarctic plate to the south started in the Eocene. As a consequence of its complex tectonic evolution and subsequent submarine processes, as sedimentary infill and erosion mainly controlled by bottom currents and active tectonics, this region shows a varied physiography. We present a detailed map of the bathymetry and geological setting of the Drake Passage that is mainly founded on a new compilation of precise multibeam bathymetric data obtained on 120 cruises between 1992 and 2015, resulting in a new Digital Bathymetric Model with 200x200 m cell spacing. The map covers an area of 1,465,000km2 between parallels 52°S and 63°S and meridians 70°W and 50°W at scale 1:1,600,000 allowing the identification of the main seafloor features. In addition, the map includes useful geological information related to magnetism, seismicity and tectonics. This work constitutes an international cooperative effort and is part of the International Bathymetric Chart of the Southern Ocean project, under the Scientific Committee on Antarctic Research umbrella.
    Repository Name: EPIC Alfred Wegener Institut
    Type: Article , isiRev
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