Literatur
Ich habe mich bemüht, die Phänomene nach dem neuesten wissenschaftlichen Kenntnisstand zu erzählen. Die zugrunde liegenden Studien finden Sie unter den hier angegebenen Quellen.
Kapitel 1
Bosch, X.: »Great Balls of Ice«, Science 297 (2002), S. 765.
Cerveny, R., Knight, C., Knight, N.: »Strange Tales of HAIL«, Weatherwise 58 (2005), S. 28–34.
Martínez-Frías, J.: »Megacryometeors: Distribution on Earth and Current Research«, Royal Swedish Academy of Sciences 35.6 (2006), S. 314–316.
Rull, F., Delgado, A., Martínez-Frías, J.: »Micro-Raman spectroscopic study of extremely large atmospheric ice conglomerations (megacryometeors)«, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 368 (2010), S. 3145.
Kapitel 2
Granin, N. G.: »The ringed Baikal«, Science First Hand 2/23 (2009), S. 26–27.
Granin N. G. et al.: »The deep water gas seeps in Lake Baikal«, 9th International Conference on Gas in Marine Sediments, Universität Bremen, 15.–19. September 2008.
Hachikubo, A. et al.: »Model of formation of double structure gas hydrates in Lake Baikal based on isotopic data«, Geophysical Research Letters 36 (2009), L18504.
Kapitel 3
Bäumer, D., Vogel, B.: »An unexpected pattern of distinct weekly periodicities in climatological variables in Germany«, Geophysical Research Letters 34 (2007), L03819.
Bennartz, R. et al.: »Pollution from China increases cloud droplet number, suppresses rain over the East China Sea«, Geophysical Research Letters 38 (2011), L09704.
Choi, Y.-S. et al.: »Long-term variation in midweek/weekend cloudiness difference during summer in Korea«, Atmospheric Environment 42 (2008), S. 6726–6732.
Georgoulias, A. K., Kourtidis, K. A.: »On the aerosol weekly cycle spatiotemporal variability over Europe«, Atmospheric Chemistry and Physics Discussions 11 (2011), S. 4611–4632.
Hendricks Franssen, H. J.: »Comment on ›An unexpected pattern of distinct weekly periodicities in climatological variables in Germany‹ by Dominique Bäumer and Bernhard Vogel«, Geophysical Research Letters 35 (2008), L05802.
Kim, K.-Y. et al.: »Weekend effect: Anthropogenic or natural?«, Geophysical Research Letters 37 (2010), L09808.
Laux, P., Kunstmann, H.: »Detection of regional weekly weather cycles across Europe«, Environmental Research Letters 3 (2008), 044005.
Li, F.: »Long-term impacts of aerosols on the vertical development of clouds and precipitation«, Nature Geoscience, 2011.
de F. Forster Piers, M., Solomon, S.: »Observations of a ›weekend effect‹ in diurnal temperature range«, PNAS 100, 20 (2003), S. 11225–11230.
Sanchez-Lorenzo, A. et al.: »Assessing large-scale weekly weather cycles: a review«, noch nicht veröffentlicht.
Sanchez-Lorenzo, A. et al.: »Winter ›weekend effect‹ in southern Europe and its connections with periodicities in atmospheric dynamics«, Geophysical Research Letters 35 (2008), L15711.
Stjern, C. W., Stohl, A., Kristjánsson, J. E.: »Have aerosols affected trends in visibility and precipitation in Europe?«, Journal of Geophysical Research 116 (2011), D02212.
Kapitel 4
Behringer W.: Kulturgeschichte des Klimas: Von der Eiszeit bis zur globalen Erwärmung, München 2010.
Büntgen, U. et al.: »2500 Years of European Climate Variability and Human Susceptibility«, Science, 2010.
Subt, C. et al.: »Cosmic Catastrophe in the Gulf of Carpentaria«, AGU Fall Meeting 2010.
Kapitel 5
Blechschmidt, A.-M.: »A 2-year climatology of polar low events over the Nordic Seas from satellite remote sensing«, Geophysical Research Letters 35 (2008), L09815.
Kolstad, E.: Extreme winds in the Nordic Seas: polar lows and Arctic fronts in a changing climate, Dissertation, Universität Bergen, Norwegen, 2007.
Zahn, M., von Storch, H.: »Decreased frequency of North Atlantic polar lows associated with future climate warming«, Nature 467 (2010), S. 309–312.
Kapitel 6
Garzoli, S. L. et al.: »Progressing towards global sustained deep ocean observations«, In: OceanObs09: Sustained Ocean Observations and Information for Society, 2, European Space Agency Publication, 2010.
Katsman, C. A., van Oldenborgh, G. J.: »Tracing the upper ocean ’s ›missing heat‹«, Geophysical Research Letters 38 (2011), L14610.
Knox, R. S., Douglass, D. H.: »Recent energy balance of Earth«, International Journal of Geosciences 1, 3 (November 2010).
Levitus, S.: »Warming of the World Ocean«, Science 287 (2000), S. 2225–2229.
Lyman, J. et al.: »Robust warming of the global upper ocean«, Nature 465 (2010), S. 334.
Meehl, G. et al.: »Model-based evidence of deep-ocean heat uptake during surface-temperature hiatus periods«, Nature Climate Change 1 (2011), S. 360–364.
Palmer, D. et al.: »Importance of the deep ocean for estimating decadal changes in Earth ’s radiation balance«, Geophysical Research Letters 38 (2011).
von Schuckmann, K., Gaillard, F., Le Traon, P.-Y.: »Global hydrographic variability patterns during 2003–2008«, Journal of Geophysical Research 114 (2009), C09007.
Trenberth, K. E.: »The ocean is warming, isn ’t it?«, Nature 465, 304 (2010).
Trenberth, K. E., Fasullo, J. T.: »Tracking earth ’s energy«, Science 328 (2010), S. 316–317.
Kapitel 7
Biastoch, A. et. al.: »Causes of Interannual-Decadal Variability in the Meridional Overturning Circulation of the Midlatitude North Atlantic Ocean«, Journal of Climate 21 (2008), S. 6599–6615.
Bryden, H. et al.: »Slowing of the Atlantic meridional overturning circulation at 25° N«, Nature 438 (2005), S. 655–657.
Gyory, J. et al.: »Surface Ocean Currents: The Gulf Stream«, Cooperative Institute for Marine and Atmospheric Studies, Universität von Miami, 2000.
Josey, S. et al.: »Estimates of meridional overturning circulation variability in the North Atlantic from surface density flux fields«, Journal of Geophysical Research 114, C9 (2009).
Kanzow, T. et al.: »Seasonal Variability of the Atlantic Meridional Overturning Circulation at 26,5° N«, Journal of Climate 23, 21 (2010), S. 5678–5698.
Medhaug, H. R. et al.: »Mechanisms for decadal scale variability in a simulated Atlantic meridional overturning circulation«, Climate Dynamics, 2011.
Lozier, M. S. et al.: »Opposing decadal changes for the North Atlantic meridional overturning circulation«, Nature Geoscience 3, 10 (2010), S. 728–734
Stommel, H.: »The westward intensification of wind-driven ocean currents«, Transactions of the American Geophysical Union 29 (1948), S. 202–206.
Willis, J. K.: »Can in situ floats and satellite altimeters detect long-term changes in Atlantic Ocean overturning?«, Geophysical Research Letters 37 (2010), L06602.
Kapitel 8
Albertella, A. et al.: »GOCE – The Earth Field by Space Gradiometry«, Celestial Mechanics and Dynamical Astronomy 83 (2002), S. 1–15.
Boening, C. et al.: »A record-high ocean bottom pressure in the South Pacific observed by GRACE«, Geophysical Research Letters 38 (2011), L04602.
Drinkwater, M. et al.: »GOCE: Obtaining a Portrait of Earth ’s Most Intimate Features«, ESA Bulletin 133 (2008), S. 4–13.
Fehringer, M. et al.: »A Jewel in ESA ’s Crown – GOCE and its Gravity Measurement Systems«, ESA Bulletin 133 (2008), S. 14–23.
Johannessen, J. et al.: »The European Gravity Field and Steady-State Ocean Circulation Explorer Satellite Mission: Impact in Geophysics«, Surveys in Geophysics 24, 4 (2003), S. 339–386.
Kapitel 9
Johnson, D.: Fata Morgana der Meere, München 1999.
Stommel, H.: Lost Islands: The Story of Islands That Have Vanished from Nautical Charts, University of British Columbia Press, 1984.
Kapitel 10
Bryan, S. E.: »Preliminary Report: Field Investigation of Home Reef volcano and Unnamed Seamount 0403-091«, Unpublished Report for the Ministry of Lands, Survey Natural Resources and Environment, Tonga 2007, S. 9.
Bulletin of Global Volcanism Network 31, 9 (2006).
Friðriksson, S., Magnússon, B.: »Colonization of the Land«, The Surtsey Research Society, www.surtsey.is/pp_ens/biola_1.htm.
Thornton, I., New, T.: Island Colonization: The Origin and Development of Island Communities, Cambridge University Press, 2007, S. 178.
Vaughan, R. et al.: »Satellite observations of new volcanic island in Tonga«, Eos 88, 4 (2007).
www.ulb.ac.be/sciences/cvl/homereef/homereef.html
Kapitel 11
Krüger, O., Graßl, H.: »Southern Ocean phytoplankton increases cloud albedo and reduces precipitation«, Geophysical Research Letters 38 (2011), L08809.
Lana, A. et al.: »An updated climatology of surface dimethylsulfide concentrations and emission fluxes in the global ocean«, Global Biogeochemical Cycles 25 (2011), GB1004.
Woodhouse, M. et al.: »Low sensitivity of cloud condensation«, Atmospheric Chemistry and Physics 10 (2010), S. 3717–3754.
Kapitel 12
Ben-Ami, Y.: »Transport of Saharan dust from the Bodélé Depression to the Amazon Basin: a case study«, Atmospheric Chemistry and Physics Discussion 10 (2010), S. 4345–4372.
Bristow, C. S., Hudson-Edwards, K. A., Chappell, A.: »Fertilizing the Amazon and equatorial Atlantic with West African dust«, Geophysical Research Letters 37 (2010), L14807.
Bristow, C. S., Drake, N., Armitage, A.: »Deflation in the dustiest place on Earth: The Bodélé Depression, Chad«, Geomorphology 105, 1–2 (1. April 2009), S. 50–58.
Gorbushina, A.: »Life in Darwin ’s dust: intercontinental transport and survival of microbes in the nineteenth century«, Environmental Microbiology 9, 12 (2007), S. 2911–2922.
Washington, R., Todd, M. C.: »Atmospheric controls on mineral dust emission from the Bodélé Depression, Chad. The role of the low level jet«, Geophysical Research Letters 32 (2005), L17701.
Kapitel 13
de Boer, J. Z. et al.: »New Evidence for the Geological Origins of the Ancient Delphic Oracle«, Geology 29.8 (2001), S. 707–711.
de Boer, J. Z. et al.: »The Delphic Oracle: A Multidisciplinary Defense of the Gaseous Vent Theory«, Clinical Toxicology 40.2 (2000), S. 189–196.
Etiope, G. et al.: »The geological links of the ancient Delphic Oracle (Greece): a reappraisal of natural gas occurrence and origin«, Geology 34 (2006), S. 821–824.
Piccardi, L.: »Active faulting at Delphi: seismotectonic remarks and a hypothesis for the geological environment of a myth«, Geology 28 (2000), S. 651–654.
Kapitel 14
»The Atlantis Hypothesis, Searching for a lost land«, Milos Conference 2005, Griechenland.
Platons Werke, Übersetzung und Kommentar, Band VIII 4: Kritias. Übersetzung und Kommentar von Heinz-Günther Nesselrath, Göttingen 2006.
Landerson, J., Schall, S.: »Schae planet«, Historic Meetings (1982).
Kapitel 15
Kletetschka, G. et al.: »Rock Levitation by Water and Ice; an Explanation for Trails in Racetrack Playa, California«, American Geophysical Union, Fall Meeting 2010, abstract EP21A-0743.
Lorenz, R., Jackson, B., Hayes, A.: »Racetrack and Bonnie Claire: Southwestern US Playa Lakes as Analogs for Ontario Lacus, Titan«, Planetary and Space Science 58 (2010), S. 723–731.
Lorenz, R. et al.: »Ice rafts not sails: Floating the rocks at Racetrack Playa«, American Journal of Physics 79, 1 (2011), S. 37–42.
Messina, P.: »Case Study: Using GIS and GPS to map the Sliding Rocks of Racetrack Playa«, In: Clarke, K. C.: Getting Started with Geographic Information Systems, Fourth Edition, Prentice Hall 2002.
Messina, P., Stoffer, P., Clarke, K. C.: »Mapping Death Valley ’s Wandering Rocks«, GPS World (1997), S. 34–44.
Reid, J. B. et al.: »Sliding rocks at the Racetrack, Death Valley: What makes them move?«, Geology 23, 9 (1995), S. 819–822.
Sharp, R. P. et al.: »Sliding rocks at the Racetrack, Death Valley: What makes them move? Discussion and Reply«, Geology 25, S. 766–767.
Sharp, R. P., Carey, D. L.: »Sliding stones, Racetrack Playa, California«, Bulletin of the Geological Society of America 87, 12 (1976), S. 1704–1717.
Shelton, J. S.: »Can Wind Move Rocks on Racetrack Playa?«, The American Association for the Advancement of Science, 117 (1953), S. 438–439.
Stanley, G. M.: »Origin of playa stone tracks, Racetrack Playa, Inyo County, California«, Bulletin of the Geological Society of America 66, 11 (1955), S. 1329–1350.
Kapitel 16
Hill, D. P.: »What is that Mysterious Booming Sound?«, Seismological Research Letters 82 (2011), S. 619–622.
Hill, D. P. et al.: »Earthquake sounds generated by body-wave ground motion«, Bulletin of the Seismological Society of America 66 (1976), S. 1159–1172.
Kitov, I. O. et al.: »An analysis of seismic and acoustic signals measured from a series of atmospheric and near-surface explosions«, Bulletin of the Seismological Society of America 87 (1997), S. 1553–1562.
St-Laurent, F.: »The Saguenay, Québec, earthquake lights of November 1988–January 1989«, Seismological Research Letters 71 (2000), S. 160–174.
Stiermann, D. J.: »Earthquake sounds and animal cues; some field observations«, Bulletin of the Seismological Society of America (1980), S. 639–643.
Tosi, P. et al.: »Spatial patterns of earthquake sounds and seismic source geometry«, Geophysical Research Letters (2000), S. 2749–2752.
Tsukuda, T.: »Sizes and some features of luminous sources associated with the 1995 Hyogo ken Nanbu earthquake«, Journal of Physics of the Earth (1997), S. 73–82.
Wheeler, R. et al.: »Earthquake Booms, Seneca Guns, and Other Sounds«, USGS 2011.
Wurham, G.: »High-Quality Seismic Observations of Sonic Booms«, AGU Fall Meeting 2011.
Kapitel 17
Fortey, R.: Trilobite. Eyewitness to Evolution, London 2001.
Gould, S. J.: Wonderful Life. Burgess Shale and the Nature of History, London 1990.
Gould, S. J., Morris, S. C.: »Debating the significance of the Burgess Shale: Simon Conway Morris and Stephen Jay Gould. Showdown on the Burgess Shale«, Natural History Magazine 107, 10, S. 48–55.
Morris, S. C.: The Crucible of Creation. The Burgess Shale and the Rise of Animals, Oxford University Press, Oxford 1998.
Kapitel 18
Behm, M.: »Application of stacking and inversion techniques to three-dimensional wide-angle reflection and refraction seismic data of the Eastern Alps«, Geophysical Journal International 170, 1 (2007), S. 275–298.
Castellarin, A. et al.: »The TRANSALP seismic profile and the CROP 1A sub-project Il profilo sismico TRANSALP e il sottoprogetto CROP 1A«, Mem. Descr. Carta Geol. d ’It., LXII (2003), S. 107–126.
Franke, W. et al.: »Orogenic processes: quantification and modelling in the Variscan belt«, Geological Society, London, Special Publications 2000, 179, S. 1–3.
Kapitel 19
McCarthy, D.: »Geophysical explanation for the disparity in spreading rates between the Northern and Southern hemi-
spheres«, Journal of Geophysical Research 112 (2007), B03410.
Kapitel 20
Bak, P.: How Nature Works: The Science of Self-organised Criticality, Oxford University Press, Oxford 1997.
Bilham R.: »Why we cannot predict earthquakes«, Nature 463 (2010), S. 735.
Evans, R.: »Assessment of schemes for earthquake prediction: editor ’s introduction«, Geophysical Journal International 131 (1997), S. 413–420.
Geller, R. J.: »Shake-up time for Japanese seismology«, Nature 472 (2011), S. 407–409.
Geller, R. J.: »Earthquake prediction: a critical review«, Geophysical Journal International 131 (1997), S. 425–450.
Jordan, T. H.: »Is the study of earthquakes a basic science?«, Seismological Research Letters 68 (1997), S. 259–261.
Sneider, R., van Eck, T.: »Earthquake prediction: a political problem?«, Geologische Rundschau 86 (1997), S. 446–463.
Kapitel 21
Wang, K. et al.: »Predicting the 1975 Haicheng Earthquake«, Bulletin of the Seismological Society of America 96 (Juni 2006), S. 757–795.
Kapitel 22
Grünthal, G., Wahlström, R., Stromeyer, D.: »The unified catalogue of earthquakes in central, northern, and northwestern Europe (CENEC) – updated and expanded to the last millennium«, Journal of Seismology 13, 4 (2009), S. 517–541.
Tyagunov, S. et al.: »Seismic risk mapping for Germany«, Natural Hazards and Earth System Sciences (NHESS) 6, 4 (2006), S. 573–586.
Kapitel 23
Cappa, F., Rutqvist, J.: »Impact of CO2 geological sequestration on the nucleation of earthquakes«, Geophysical Research Letters 38 (2011), L17313.
Klose, C.: »Evidence for Surface Loading as Trigger Mechanism of the 2008 Wenchuan Earthquake«, Environmental Earth Sciences 2011.
Klose, C.: »Human-triggered Earthquakes and Their Impacts on Human Security«, In: Liotta, P. H. et al. (Hrsg.), NATO Science for Peace and Security Series – E: Human and Societal Dynamics 69 (2010), S. 13–19.
Klose, C.: »Geomechanical modeling of the nucleation process of Australia ’s 1989 M5.6 Newcastle earthquake«, Earth and Planetary Science Letters 256, 3–4 (30. April 2007), S. 547–553.
Klose, C.: »Mine Water Discharge and Flooding: A Cause of Severe Earthquakes«, Mine Water and the Environment 26, 3 (2007), S. 172–180.
Seeber, N.: »Mechanical Pollution«, Seismological Research Letters 73, 3 (Mai/Juni 2002), S. 315–317.
Kapitel 24
Genevois, R., Ghirotti, M.: »The 1963 Vaiont Landslide«, Giornale di Geologia Applicata 1 (2005), S. 41–52.
Paolini, M., Vacis, G.: Der fliegende See. Chronik einer angekündigten Katastrophe, München 1998.
Veveakis, E., Vardoulakis, I., di Toro, G.: »Thermoporomechanics of creeping landslides: The 1963 Vaiont slide, northern Italy«, Journal of Geophysical Research 112 (2007), F03026.
Kapitel 25
Arp, G. et al.: »New evidence for impact-induced hydrothermal activity in the miocene ries impact crater, germany«, Fragile Earth: Geological Processes from Global to Local Scales and Associated Hazards, München, September 2011.
Buchner, E. et al.: »Establishing a 14.6 ± 0.2 Ma age for the Nördlinger Ries impact (Germany) – A prime example for concordant isotopic ages from various dating materials«, Meteoritics & Planetary Science 45, 4 (2010), S. 662–674.
Sturm, S. et al.: »Distribution of megablocks in the Ries crater, Germany: Remote sensing and field analysis«, EGU General Assembly 2010, 2.–7. Mai 2010 in Wien, Österreich, S. 5212.
Willmes, M. et al.: »Detection of Subsurface Megablocks in the Ries Crater, Germany: Results from a Field Campaign and Remote Sensing Analysis«, 25.–27. Juni 2010 in Nördlingen, LPI Contribution 1559, S. 41.
Wünnemann, K., Artemieva, N. A., Collins, G. S.: »Modeling the Ries Impact: The Role of Water and Porosity for Crater Formation and Ejecta Deposition«, 25.–27. Juni 2010 in Nördlingen, LPI Contribution 1559, S. 42.
Kapitel 26
Baales, M.: »Impact of the Late Glacial Eruption of the Laacher See Volcano, Central Rhineland, Germany«, Quaterny Research 58 (2002), S. 273–288.
Schmincke, H.-U.: Vulkane der Eifel, Heidelberg 2009.
Kapitel 27
Elders, W. A. et al.: »The Iceland Deep Drilling Project (IDDP): (I) Drilling at Krafla encountered Rhyolitic Magma«, American Geophysical Union, Fall Meeting 2009, abstract OS13A-1166.
de Natale, G.: »The Campi Flegrei Deep Drilling Project«, Scientific Drilling 4 (März 2007).
de Natale, G.: »The Campi Flegrei caldera: unrest mechanisms and hazards«, Geological Society, London, Special Publications 2006, 269, S. 25–45.
Stolper, E.: »Deep Drilling into a Mantle Plume Volcano: The Hawaii Scientific Drilling Project«, Scientific Drilling 7 (März 2009).
Troise, C.: »A New Uplift Episode at Campi Flegrei Caldera (Southern Italy): Implications for Unrest Interpretation and Eruption Hazard Evaluation«, Developments in Volcanology 10 (2008), S. 375–392.
Kapitel 28
Ambrose, S. H.: »Late Pleistocene human population bottlenecks, volcanic winter, and differentiation of modern humans«, Journal of Human Evolution 34, 6 (Juni 1998), S. 623–51.
Oppenheimer, C.: »Limited global change due to the largest known Quaternary eruption, Toba ≈ 74 kyr BP?«, Quaternary Science Reviews 21, 14–15 (August 2002), S. 1593–1609.
Petraglia, M.: »Middle Paleolithic Assemblages from the Indian Subcontinent Before and After the Toba Super-Eruption«, Science 317, 5834 (6. Juli 2007), S. 114–116.
Robock, A. et al.: »Did the Toba volcanic eruption of 74 ka B. P. produce widespread glaciation?«, Journal of Geophysical Research 114 (2009), D10107.
Timmreck, C.: »Climate response to the Toba super-eruption: Regional changes«, Quaternary International, 2011.
Timmreck, C. et al.: »Limited climate impact of the Young Toba Tuff eruption«, American Geophysical Union, Fall Meeting 2010, abstract V24A-03.
Kapitel 29
Ayalew, D.: »The relations between felsic and mafic volcanic rocks in continental flood basalts of Ethiopia: implication for the thermal weakening of the crust«, Geological Society, London, Special Publications 2011, 357, S. 1–8.
Bastow, I., Keir, D.: » The protracted development of the continent–ocean transition in Afar«, Nature Geoscience 4 (2011), S. 248–250.
Belachew, M. et al.: »Comparison of dike intrusions in an incipient seafloor-spreading segment in Afar, Ethiopia Seismicity perspectives«, Journal of Geophysical Research 116 (2011), B06405.
Beutel, E. et al.: »Formation and stability of magmatic segments in the Main Ethiopian and Afar rifts«, Earth and Planetary Science Letters 293, 3–4 (1. Mai 2010), S. 225–235.
Coté, D. et al.: »Low-Frequency Hybrid Earthquakes near a Magma Chamber in Afar: Quantifying Path Effects«, Bulletin of the Seismological Society of America 100, 5A (Oktober 2010), S. 1892–1903.
Ebinger, C.: »Tracking the movement of magma through the crust in the East African rift«, 77th Annual Meeting of the Southeastern Section of the AP 55, 10 (2010).
Ebinger C. et al.: »Length and Timescales of Rift Faulting and Magma Intrusion: The Afar Rifting Cycle from 2005 to Present«, Annual Review of Earth and Planetary Sciences 38, S. 439–466.
Field, L. et al.: »Magma storage depths beneath an active rift volcano in Afar (Dabbahu), constrained by melt inclusion analyses, seismicity and Interferometric Synthetic Aperture Radar (INSAR)«, American Geophysical Union, Fall Meeting 2010, abstract T31B-2155.
Hamling, I. et al.: »Stress transfer between thirteen successive dyke intrusions in Ethiopia«, Nature Geoscience 3 (2010), S. 713–717.
Hussein, H.: »Seismological Aspects of the Abou Dabbab Region, Eastern Desert, Egypt«, Seismological Research Letters 82, 1 (Januar/Februar 2011), S. 81–88.
Keir, D.: »Mapping the evolving strain field during continental breakup from crustal anisotropy in the Afar Depression«, Nature Communications 2, 285 (2011).
Yang, Z., Chen, W.-P.: »Earthquakes along the East African Rift System: A multiscale, system-wide perspective«, Journal of Geophysical Research 115 (2010).
Kapitel 30
Ben-Avraham, Z., »Geology and Evolution of the Southern Dead Sea Fault with Emphasis on Subsurface Structure«, Annual Review of Earth and Planetary Sciences 36 (2008), S. 357–387.
Nur, A.: Apocalypse: earthquakes, archaeology, and the wrath of God, Princeton University Press, 2008.
Kapitel 31
Gielisch, H.: »Detecting concealed coal fires«, Geological Society of America, 2007.
Grasby, S.: »Catastrophic dispersion of coal fly ash into oceans during the latest Permian extinction«, Nature Geoscience 4 (2011), S. 104–107.
Terschure, A.: »Emissions by Uncontrolled Coal Fires«, American Geophysical Union, Fall Meeting 2010, abstract A43D-0274.
Kapitel 32
Kueter, J.: »Reply to Union of Concerned Scientists, Smoke, Mirrors, and Hot Air«, George C. Marshall Institute, 2007.
Peters, H. P., Heinrichs, H.: »Öffentliche Kommunikation über Klimawandel und Sturmflutrisiken. Bedeutungskonstruktion durch Experten, Journalisten und Bürger«, Forschungszentrum Jülich, 2005.
Union of Concerned Scientists report, »Smoke, Mirrors & Hot Air: How ExxonMobil Uses Big Tobacco ’s Tactics to ›Manufacture Uncertainty‹ on Climate Change«, 2011.
Weingart, P., Engels, A., Pansegrau, P.: Von der Hypothese zur Katastrophe: Der anthropogene Klimawandel im Diskurs zwischen Wissenschaft, Politik und Massenmedien, Opladen 2007.
Kapitel 33
Reinhard Böhm, Zentralanstalt für Meteorologie und Geodynamik, Wien
Deutscher Wetterdienst
Institut für Wetter- und Klimakommunikation GmbH
Meteoschweiz
Peter Wolf, Deutscher Wetterdienst, Regionales Klimabüro Essen