manicouagan

Ries

 Crater Name  Location  Latitude  Longitude  Diameter (km)  Age (Ma)  Exposed  Drilled  Target Rock**  Bolide Type***
 Ries  Germany  N 48° 53'  E 10° 37'  24  15.1 ± 0.1  Y  Y  M  Achondrite
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1. High resolution digital elevation model (derived from the ERS-1/ERS-2 tandem mission in 1995; Image courtesy of M. Gottwald, DLR: German Aerospace Center)

2. Aumuehle Quarry - Suevite quarry in the NE of the crater. Thick layer of Suevite can be seen.On the very right side of the picture - Bunte Breccia which is also overlain by suevite. Photo October 2000. Submitted by Harald Stehlik

3. Aerial Photo

4. Topography

4. Geological map

4. Digital Elevation Model with selected overlain geology - top view

4. Digital Elevation Model with selected overlain geology - view from south

References

Abadian, M., Petrography, shock metamorphism and genesis of polymict cristalline breccias in the Nördlinger Ries, Contributions to Mineralogy and Petrology, v. 35, pp. 245-262, 1972
Abbott, J. I., Hough, R.M., Gilmore, I. and Pillinger,C.T., Impact diamonds in glass from Otting quarrry, Ries crater, Germany (abstract). Meteoritics & Planetary Science, v. 31, p. A5. 1996.
Abbott, J. I., Hough, R.M., Gilmour,I.and C.T.Pillinger., Carbon chemistry of suevites and target rocks at the Ries crater, Germany. Meteoritics and Planetary Science, v 33, p. A7. 1998.
Ambers, C. P., Gilbert, M. and Brändlein,P., Petrology of enigmatic rocks from 2.75 km depth in the Ames structural anomaly, Major County, Oklahoma, and their relationship to suevite from the Ries crater, Nördlingen, Bavaria (abstract). Ames Structure and Similar Features - A Workshop, pp. 26. 1995.
Angenheister, G., Pohl, J., Results of seismic investigations in the Ries crater area (southern Germany). In: Giese, P., Prodehl, C and Stein, A., eds., Explosion Seismology in Central Europe; Data and Results, Springer Verlag, New York, pp. 290-302. 1976.
Angenheister, G., Pohl, J., The remanent magnetization of suevite from the Ries area (southern Germany). Zeitschrift fur Geophysik, v. 30, pp. 258-259. 1964.
Arp, G., Lacustrine bioherms, spring mounds, and marginal carbonates of the Ries-impact-crater (Miocene, Southern Germany), Facies, v. 33, pp. 35-89, 1995
Artemieva, N., Pierazzo, E., Stöffler, D., Numerical modeling of tektite origin in oblique impacts: Implication to Ries-Moldavites strewn field, Vestnik Ceskeho Geologickeho Ustavu, v. 77, pp. 303-311 , 2002
Bader, K., Schmidt-Kaler, H., Location and structure of the Ries crater rim north of Ottingen by refraction-seismic measurements (abstract). Meteoritics, v. 14, pp. 340-341. 1979.
Bader, K., Schmidt-Kaler, H., Valley development before and after the impact in the area of debris on the eastern foreland of the Ries, Mitteilungen der Geographischen Gesellschaft in Munchen, v. 75, pp. 31-36, 1990
Banholzer, G., Horz, F., Distribution and shock metamorphism of crystalline clasts in the continuous deposits of the Ries crater, Germany (abstract). Lunar and Planetary Science X, pp. 63-65. 1979.
Barakat, A.O., Rullkötter, J., A Comparative Study of Molecular Paleosalinity Indicators: Chromans, Tocopherols and C20 Isoprenoid Thiophenes in Miocene Lake Sediments (Nördlinger Ries, Southern Germany), Aquatic Geochemistry, v. 3, pp. 169-190, 1997
Basilevsky, A. T., Fel'dman, V.I., Kapustkina, I.G. and Kolesov,G.M., On the distribution of iridium in the rocks of terrestrial impact craters (in Russian). Geokhimiya, v. 6, pp. 781-790. 1984.
Basilevsky, A. T., Florenskiy, K.P., Yakovlev, O.I., Ivanov, B.A., Fel'dman, V.I. and Granovskiy,I.B., Transformation of planetary material in high-speed collisions (in Russian). Geokhimiya, v. 7, pp. 946-960. 1982.
Bauberger, W., Mielke, H., Scheer, D. and Stettner,G., Petrographic profile of the Nordlingen 1973 research borehole (from meter 263 to the bottom on a 1:200 scale) (in German). Geologica Bavarica, v. 73, pp. 33-34. 1974.
Blohm, E. K., Friedrich, H. and Homilius,J., A Ries profile according to geoelectrical depth sounding (in German). Geologica Bavarica, v. 75, pp. 381-293. 1977.
Bogard, D. D., Horz, F. and Stoffler,D., Loss of radiogenic argon from shocked granitic clasts in suevite deposits from the Ries Crater. Geochimica et Cosmochimica Acta, v. 52, pp. 2639-2649. 1988.
Bogard, D. D., Horz, F., Johnson, P. and Stoffler,D., Resetting of 40Ar/39Ar ages in suevite ejecta from the Ries crater (abstract). Lunar and Planetary Science XII, pp. 92-94. 1981.
Bouska, V., Benada, J., Randa, Z. and Kuncir,J., Geochemical evidence for the origin of moldavites. Geochimica et Cosmochimica Acta, v. 37, pp. 121-132. 1973.
Bouska, V., Delano, J.W. and Randa,Z., 'Poisonous' green moldavites. Casopis Pro Mineralogii a Geologii, Roc. 35, pp. 171-184. 1990.
Bouska, V., Povondra, P., Correlation of some physical and chemical properties of moldavites. Geochimica et Cosmochimica Acta, v. 18, pp. 783-791. 1964.
Bringemeier, D., Petrogavric examination of the main suevite of the Otting Quarry, Nördlinger Ries, Germany. Meteoritics, v. 29, pp. 417-422. 1994.
Bringemeier, D., Suevite superposition on the bunte breccia in Nordlinger Ries/Germany: New findings on the transport mechanism of impactites (abstract). International Conference on Large Meteorite Impacts and Planetary Evolution, LPI Contribution No. 790, pp. 10-11. 1992.
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 and Planetary Science, v. 45, pp. 662-674, 2010
Buchner, E., et al., Simulation of trajectories and maximum reach of distal impact ejecta under terrestrial conditions: Consequences for the Ries crater, southern Germany, Icarus, v. 191, pp. 360-370, 2007
Buchner, E., Schmieder, M., Multiple fluvial reworking of impact ejecta- A case study from the Ries crater, southern Germany, Meteoritics and Planetary Science, v. 44, pp. 1051-1060, 2009
Buchner, E., Seyfried, H. , van den Bogaard, P., 40Ar/39Ar laser probe age determination confirms the Ries impact crater as the source of glass particles in Graupensand sediments (Grimmelfingen Formation, North Alpine Foreland Basin). International Journal of Earth Science, 92: 1 - 6. 2003.
Castaño, J. R., Clement, J.H., Kuykendall, M.D. and Sharpton,V.L., Source-rock potential of impact craters. Ames Structure in Northwest Oklahoma and Similar Features: Origin and Petroleum Production (1995 Symposium), K. S. Johnson and J. A. Campbell, Oklahoma Geological Survey, Norman, Oklahoma, v. Circular 100, pp. 100-103. 1997.
Chao, E. C. T., El Gorezy, A., Shock attenuation and the implantation of Fe-Cr-Ni veinlets in the compressed zones of the 1973 Ries research deep drill core. Geologica Bavarica, v. 75, pp. 289-304. 1977.
Chao, E. C. T., Geologic implications of the Apollo 14 Fra Mauro breccias and comparison with ejecta from the Ries crater, Germany. U.S. Geological Survey Journal of Research, v. 1, pp. 1-18. 1973.
Chao, E. C. T., Huttner, R. and Schmidt-Kaler,H., Principal exposures of the Ries-meteorite-crater: Description, photographic documentation and interpretation. Bayerisches Geologisches Landesamt, Munchen, 84 p. 1978.
Chao, E. C. T., Littler, J., Dense glass from the Ries crater of southern Germany. U.S. Geological Survey Open-File Report, pp. 103-114. 1963.
Chao, E. C. T., Mineral-produced high-pressure striae and clay polish: Key evidence for nonballistic transport of ejecta from Ries crater. Science, v. 194, pp. 615-618. 1976.
Chao, E. C. T., Minkin, J. A., Impact cratering phenomenon for Ries multiring structure based on constraints of geological, geophysical, and petrological studies and nature of impacting body. In: Roddy, D.J., Pepin, R.O. and Merrill, R.B., eds., Impact and Explosion Cratering, Pergamon Press, New York, pp. 405-424. 1977.
Chao, E. C. T., Pressure and temperature histories of impact-metamorphosed rocks based on petrographic observations. In: French, B.M. and Short, N.M., eds., Shock Metamorphism of Natural Materials, Mono Book Corp., Baltimore, MD, pp. 135-158. 1968.
Chao, E. C. T., Shock effects in certain rock-forming minerals. Science, v. 156, pp. 192-202. 1967.
Chao, E.C.T., Comparison of the Cretaceous-Tertiary boundary impact events and the 0.77-Ma Australasian tektite event: relevance to mass extinction, US Geological Survey Bulletin, v. 2050, pp. 22, 1993
Cockell, C. S., Lee, P., The Biology of Impact Craters - a review. Biol. Rev., 77, P. 279 - 310. 2002.
Collins, G.S., et al., Mid-sized complex crater formation in mixed crystalline-sedimentary targets: Insight from modeling and observation, Meteoritics and Planetary Science, v. 43, pp. 1955-1977, 2008
Dabizha, A. I., A new interpretation of the structure of meteorite craters (in Russian). Astronomicheskii Vestnik, v. 11, pp. 73-77. 1977.
Dabizha, A. I., Anuchin, M.S., Fedynsky, V.V. and Melikhov,V.R., Circular structures of the central part of the Russian platform (in Russian). Meteoritika, v. 34, pp. 88-91. 1975.
Dabizha, A. I., Fedynsky, V. V., Features of the gravitational field of astroblemes (in Russian). Meteoritika, v. 36, pp. 113-120. 1977.
Dabizha, A. I., Fedynsky, V. V., The Earth's "star wounds" and their diagnosis by geophysical methods (in Russian). "Zemlya i Vselennaya", v. 3, pp. 56-64. 1975.
Dabizha, A. I., Fel'dman, V. I., The geophysical properties of some astroblemes in the USSR (in Russian). Meteoritika, v. 40, pp. 91-101. 1982.
Dabizha, A. I., Ivanov, B. A., A geophysical model of the structure of meteorite craters and some problems of the mechanics of crater formation (in Russian). Meteoritika, v. 37, pp. 160-167. 1978.
Dabizha, A. I., Krass, M.S. and Fedynsky,V.V., Evolution of meteorite craters as structures of planetary crust (in Russian). Astronomicheskii Vestnik, v. 10, pp. 5-18. 1975.
David, E., Corrected impact mechanical data for the Ries impact (abstract). Meteoritics, v. 14, pp. 377-378. 1979.
David, E., The Ries event as a physical process (in German). Geologica Bavarica, v. 61, pp. 350-378. 1969.
Dennis, J. G., Ries structure, southern Germany: A review. Journal of Geophysical Research, v. 76, pp. 5394-5406. 1971.
Di Vincenzo, G., Skála, R., 40Ar-39Ar laser dating of tektites from the Cheb Basin (Czech Republic): Evidence for coevality with moldavites and influence of the dating standard on the age of the Ries impact, Geochimica et Cosmochimica Acta, v. 73, pp. 493-513, 2009
Dietz, R. S., McHone, J. F., Volcanic landforms and astroblemes. In: El-Baz, F. and Warner, D.M., eds., NASA, Scientific and Technical Information Branch, pp. 183-202. 1979.
Dressler, B. O., Graup, G. and Matzke,K., The rocks of the crystalline basement in the Nordlingen Ries (in German). Geologica Bavarica, v. 61, pp. 201-228. 1969.
Dressler, B. O., Some petrographic investigations on the suevite portion of the Wornitzostheim borehole in the Ries (in German). Foerschritte der Mineralogie, v. 44, p. 136. 1967.
El Goresy, A., Chao, E. C. T., Evidence of the impacting body of the Ries crater-the discovery of Fe-Cr-Ni veinlets below the crater bottom. Earth and Planetary Science Letters, v. 31, pp. 330-340. 1976.
El Goresy, A., Chao, E. C. T., Identification and significance of armalcolite in the Ries glass. Earth and Planetary Science Letters, v. 30, pp. 200-208. 1976.
El Goresy, A., Chen, M., Giller, Ph., Dubrovinsky,L.and G.Graup., Two novel shock-induced very dense polymorphs of rutile in suevite from the Ries crater, Germany: implications for peak-shock pressures and post-shock temperatures. Lunar and Planetary Science XXXII. 2001.
El Goresy, A., Chen, M., Gillet, P., Dubrovinsky, L., Graup, G., ahuja,R., A Natural Shock-Induced Dense Polymorph with alpha PbO2 Structure in the Suevite from the Ries Crater in Germany, Earth and Planetary Science Letters v. 192 pp 485-95. 2001.
El Goresy, A., Die Erzmineralien in den Ries-und Bosumtwi-Krater-Glasem umd ihre genetisch Dentung. Geochimica et Cosmochimica Acta, v. 28, pp. 1881-1892. 1964.
El Goresy, A., Donnay, G., A new allotropic form of carbon from the Ries crater. Science, v. 161, pp. 363-364. 1968.
El Goresy, A., et al., Akaogiite: An ultra-dense polymorph of TiO2 with the baddeleyite-type structure, in shocked garnet gneiss from the Ries Crater, Germany, American Mineralogist, v. 95, pp. 892-895, 2010
Elsila, J.E., et al. , Extracts of impact breccia samples from Sudbury, Gardnos, and Ries impact craters and the effects of aggregation on C60 detection, Geochimica et Cosmochimica Acta, v. 69, pp. 2891-2899, 2005
Elwood Madden, M.E., Kring, D.A., Bodnar, R.J., Shock re-equilibration of fluid inclusions in crystalline basement rocks from the Ries crater, Germany, Meteoritics and Planetary Science, v. 41, pp.247-262, 2006
Engelhardt, W. v., Arndt, J., Fecker, B. and Pankau,H.G., Ries impact crater, Germany: Thermal history of the suevite breccia (abstract). Meteoritics, v. 29, pp. 463-464. 1994.
Engelhardt, W. v., Bertsch, W., Shock induced planar deformation structures in quartz from the Ries crater, Germany. Contributions to Mineralogy and Petrology, v. 20, pp. 203-234. 1969.
Engelhardt, W. v., Chemical composition of Ries glass bombs. Geochimica et Cosmochimica Acta, v. 31, pp. 1677-1689. 1967.
Engelhardt, W. v., Diaplectic glasses in the breccia of the Nordlingen Ries as evidence of shock-wave metamorphism (in German). Contributions to Mineralogy and Petrology, v. 15, pp. 93-102. 1967.
Engelhardt, W. v., Distribution, petrography and shock metamorphism of the ejecta of the Ries crater in Germany-a review. Tectonophysics, v. 171, pp. 259-273. 1990.
Engelhardt, W. v., Graup, G., Origin and transport of suevite, Ries crater, Germany (abstract). Meteoritics, v. 15, p. 287. 1980.
Engelhardt, W. v., Graup, G., Ries crater, Germany: Petrography of the suevite and conclusions on crater formation (abstract). Meteoritics, v. 16, p. 311. 1981.
Engelhardt, W. v., Graup, G., Stosswellwnmetamorphose im Kristallin der Forschungsbohrung Nördlingen 1973 (in German). Geologica Bavarica, v. 75, pp. 255-271. 1977.
Engelhardt, W. v., Graup, G., Suevite of the Ries crater, Germany: Source rocks and implications for cratering mechanics. Geologischen Rundschau, v. 73, pp. 447-481. 1984.
Engelhardt, W. v., Hörz, F., Ries glasses and moldavite (in German). Geochimica et Cosmochimica Acta, v. 29, pp. 609-620. 1965.
Engelhardt, W. v., Hörz, F., Stöffler, D. and Bertsch,W., Observations on quartz deformation in breccias of West Clearwater Lake, Canada, and the Ries basin, Germany. In: French, B.M. and Short, N.M., eds., Shock Metamorphism of Natural Materials, Mono Book Corp., Baltimore, MD, pp. 475-482. 1968.
Engelhardt, W. v., Hypotheses on the origin of the Ries basin, Germany, from 1792 to 1960. Geologischen Rundschau, v. 71, pp. 475-486. 1982.
Engelhardt, W. v., Ries meteorite crater, Germany I. The Ries structure and its impact formations. Fortschritte der Mineralogie, Kristallographie, und Petrologie, v. 52, pp. 103-109. 1974.
Engelhardt, W. v., Shock produced rock glasses from the Ries crater. Contributions to Mineralogy and Petrology, v. 36, pp. 265-292. 1972.
Engelhardt, W. v., Stöffler, D. and Schneider,W., Petrological investigations in the Ries (in German). Geologica Bavarica, v. 61, pp. 229-295. 1969.
Engelhardt, W. v., Stöffler, D., Ries meteorite crater, Germany, III. Description of outcrops and quarries in the Ries area. Fortschritte der Mineralogie, Kristallographie und Petrographie, v. 52, pp. 117-122. 1974.
Engelhardt, W. v., Stoffler, D., Stages of shock metamorphism in crystalline rocks of the Ries basin, Germany. In: French, B.M. and Short, N.M., eds., Shock Metamorphism of Natural Materials, Mono Book Corp., Baltimore, MD, pp. 159-168. 1968.
Englehardt, W. v., Arndt, J., Fecker, B. and Pankau,H.G., Suevite breccia from the Ries crater, Germany: Origin, cooling history and devitrification of impact glasses. Meteoritics, v. 30, pp. 279-293. 1995.
Englehardt, W. v., Hörz, F., High-pressure glasses in the Nordlingen Ries (in German). Die Naturwissenschaften, v. 51, p. 264. 1964.
Englehardt, W. v., Luft, E., Arndt, J., Schock, H. and Weiskirchner,W., Origin of moldavites. Geochimica et Cosmochimica Acta, v. 51, pp. 1425-1443. 1987.
Ernstson, K., Pohl, J., New models of the density and velocity distribution in the Ries crater (in German). Geologica Bavarica, v. 75, pp. 355-371. 1977.
Ernstson, K., Pohl, J., Some comments on the geophysical logging measurements in the Nordlingen 1973 research borehole (in German). Geologica Bavarica, v. 72, pp. 81-90. 1974.
Ernstson, K., The structure of the Ries crater from geoelectric depth soundings. Journal of Geophysics, v. 40, pp. 639-659. 1974.
Fehn, U., Teng, R., Elmore, D. and Kubik,P.W., Isotopic composition of osmium in terrestrial samples determined by accelerator mass spectrometry. Nature, v. 323, pp. 707-710. 1986.
Fel'dman, V. I., Rare-Earth elements in astrobleme impactites. Geochemistry International, v. 32, pp. 24-48. 1995.
Fel'dman, V. I., Sazonova, L.V. and Granovsky,L.B., A classification of impactites based on petrographic and geological features (in Russian). Ispytateley Prirody Byull., Otdel. Geol., v. 57, pp. 84-94. 1982.
Ferrière, L., et al., Ballen quartz and cristobalite in impactites: New investigations, Special Paper of the Geological Society of America, Issue 465, pp. 609-618, 2010
Ferrière, L., Koeberl, C., Reimold, W.U., Characterisation of ballen quartz and cristobalite in impact breccias: New observations and constraints on ballen formation, European Journal of Mineralogy, v. 21, pp. 203-217, 2009
Forstner, U., Petrographic investigation of the suevite from the Deiningen and Wornitzostheim boreholes in the Nordlingen Ries (in German). Contributions to Mineralogy and Petrology, v. 15, pp. 281-308. 1967.
Frank, O., et al., The search for fullerenes in rocks from the Ries impact crater, Meteoritics and Planetary Science, v. 40, pp. 307-314, 2005
Fuchtbauer, H., von der Brelie, G., Dehm, R., Forstner, U., Gall, H., Hofling, R., Hoefs, J., Hillerbach, A., Hufnagel, H., Jankowski, B., Jung, W., Malz, H., Mertes, H., Roth, P., Salger, M. and Wehner,H., Tertiary lake sediments of the Ries, research borehole Nordlingen 1973 - a summary. Geologica Bavarica, v. 75, pp. 13-19. 1977.
Gall, H., Muller, D. and Pohl,J., On the geologic structure of the marginal zone of the Ries crater (in German). Neues Jahrbuch fur Geologie und Palaontologie, v. 2, pp. 65-94. 1977.
Gall, H., Müller, D., Stöffler, D., Verteilung, Eigenschaften und Entstehung der Auswurfsmassen des Impaktkraters Nördlinger Ries, Geologische Rundschau, v. 64, pp. 915-947, 1975
Gentner, W., Cogenesis of the Ries crater and moldavites and the origin of tektites (abstract). Meteoritics, v. 6, pp. 274-275. 1971.
Gentner, W., Kleinmann, B. and Wagner,G.A., New K-Ar and fission track ages of impact glasses and tektites. Earth and Planetary Science Letters, v. 2, pp. 83-86. 1967.
Giudice, A.,Lo., Pratesi, G., Vishnevsky., New SEM-CL data on the Popigai, Ries and Lappajarvi Impact diamonds, Meteoritics & Planetary Science, Vol. 36, No.9, Supplement, p. A115-116. 2001.
Goltrant, O., Cordier, P and Doukhan,J - C., Planar deformation features in shocked quartz; a transmission electron microscopy investigation. Earth and Planetary Science Letters, v. 106, pp. 103-115. 1991.
Goresy, A. E., Chao, E. C. T., Evidence of the impacting body of the Ries Crater - the discovery of Fe-Cr-Ni veinlets below the crater bottom. Earth Planet. Sci. Lett. 31 pp. 330-340. 1976.
Goresy, A.,El., Chen, M., Gillet, P., Kunstler, F. and Stahle,V., In Situ discovery of shock-induced graphite-diamond phase transformations in polished thin sections of shocked gneisses from the Ries crater, Germany, Meteoritics & Planetary Science, 34, No.4, Supplement, pp. A125-A126. 1999.
Graup, B. P., The petrography of the crystalline rocks of the Nordlingen 1973 research borehole (in German). Geologica Bavarica, v. 75, pp. 219-229. 1977.
Graup, G., Carbonate-silicate liquid immiscibility upon impact melting: Ries Crater, Germany, Meteoritics and Planetary Science, v 34, p 425-438. 1999.
Graup, G., Terrestrial chondrules, glass spherules and accretionary lapilli from the suevite, Ries crater, Germany. Earth and Planetary Science Letters, v. 55, pp. 407-418. 1981.
Grieve, R. A. F., Masaitis, V. L., The economic potential of terrestrial impact craters. International Geology Review, v. 36, pp. 105-151. 1994.
Grieve, R. A. F., The record of impact on Earth: Implications for a major Cretaceous/Tertiary impact event. Geological Society of America, Special Paper 190, pp. 25-37. 1982.
Gurov, E. P., Gurova, E. P., Impact structures on the Earth's surface (in Russian). Geologicheskii Zhurnal, v. 47, pp. 117-124. 1987.
Hahn, A., Interpretation of the magnetic anomalies in the vicinity of the Wornitzostheim borehole (in German). Geologica Bavarica, v. 61, pp. 343-347. 1969.
Horn, P., Pohl, J. and Pernicka,E., Siderophile elements in the graded fall-back unit from Ries crater, Germany (abstract). Meteoritics, v. 18, pp. 317. 1983.
Hörz, F., Banholzer, G. S., Deep seated target materials in the continuous deposits of the Ries Crater, Germany. Proceedings of the Conference on the Lunar Highlands Crust, J. J. Papike and R. B. Merrill, Pergamon Press, New York, pp. 211-231. 1980.
Hörz, F., Ejecta of the Ries crater, Germany. The Geological Society of America Special Paper 190, pp. 39-55. 1982.
Hörz, F., Gall, F, Huttner, R and Oberbeck,V R., Shallow drilling in the "Bunte Breccia" impact deposits, Ries crater, Germany. Impact and Explosion Cratering, D. J. Roddy, R. O. Pepin and R. B. Merrill, Pergamon Press, New York, pp. 425-448. 1977.
Hörz, F., Gall, F, Huttner, R, Oberbeck, V R. and Morrison,R H., The Ries crater and lunar basin deposits (abstract). Lunar and Planetary Science, v. VI, pp. 396-398. 1975.
Hörz, F., Ostertag, R., The transient cavity of the Ries crater, Germany (abstract). Lunar and Planetary Science, v. X, pp. 570-572. 1979.
Horz, F., ZERIN: A New Resource for Impact Cratering Studies in Nordlingen, Germany, Meteoritics; vol. 34, no. 3-7, p. 3-5. 2001.
Hough, R. M., Gilmour, I., Pillinger, C.T., Arden, J.K., Gildes, Yuan, J. and Milledge,H.J., Diamond and silicon carbide in suevite from the Nördlingen Ries impact crater (abstract). 4th International Workshop of the ESF Scientific Network on "Impact Cratering and Evolution of Planet Earth". The Role of Impacts on the Evolution of the Atmosphere and Biosphere with Regard to Short- and Long-Term Changes, p. 93-94. 1995.
Hough, R. M., Gilmour, I., Pillinger, C.T., Arden, J.W., Gilkes, K.W.R., Yuan, J. and Milledge,H.J., Diamond and silicon carbide in impact melt rock from the Ries impact crater, Nature, pp. 41-44. 1995.
Hough, R. M., Masaitis, V.L., Gilmour, I. and Pillinger,C.T., Diamond and silicon carbide at the Ries and Popigai impact craters (abstract). Lunar and Planetary Science XXVIII, p. 605. 1997.
Hutner, R., Homilius, J. and Schmidt-Kaler,H., Research on the structure of the Ries crater rim (abstract). Meteoritics, v. 14, pp. 507. 1979.
Iseri, D. A., Geissman, J.W., Newsom, H.E. and Graup,G., Paleomagnetic and rock magnetic examination of the natural remanent magnetization of suevite deposits at Ries crater, West Germany (abstract). Meteoritics, v. 24, p 280. 1989.
Izokh, E. P., The paradox of age: Tectites and tectite showers (in Russian). Meteoritika, v. 44, pp. 127-134. 1985.
James, O. B., Jadeite: Shock-induced formation from oligoclase, Ries crater, Germany. Science, v. 165, pp. 1005-1008. 1969.
Janssens, M. J., Hertogen, J., Horn, W. and El Goresy,A., Geochemical data for Ries crater samples (abstract). Meteoritics, v. 14, p. 432. 1979.
Janssens, M. J., Hertogen, J., Takahashi, H. and Palme,H., Meteoritic material at 4 large impact craters (abstract). EOS, v. 58, pp. 424-425. 1977.
Jessberger, E. K., Staudacher, Th., Dominik, B., Kirsten, T. and Schaeffer,O.A., Limited response of the K-Ar system to the Nordlinger Ries giant meteorite impact. Nature, v. 271, pp. 338-339. 1978.
Jessberger, E. K., Staudacher, Th., On the maximum initial temperature of the Nordlinger Ries ejecta (abstract). Meteoritics, v. 14, pp. 432-434. 1979.
Johnson, G. G., Vand, V. and Dachille,F., Additional rims around the Ries Kessel meteorite crater, Germany. Nature, v. 201, pp. 592-593. 1964.
Johnson, G. G., Vand, V. and Dachille,F., Topographical study of the Ries Kessel crater, Germany (abstracts). Geological Society of America Special Paper 76, p. 87. 1964.
Johnson, G. G., Vand, V., Application of a Fourier data smoothing technique to the meteoritic crater Ries Kessel. Journal of Geophysical Research, v. 72, pp. 1741-1750. 1967.
Jung, K., Schaaf, H. and Kahle,H.G., Results of gravimetric measurements in the Ries (in German). Geologica Bavarica, v. 61, pp. 337-342. 1969.
Kahle, H. G., Interpretation of the gravity anomalies in the Nordlingen Ries (in German). Zeitschrift fur Geophysik, v. 36, pp. 601-606. 1970.
Kaputskina, I. G., Fel'dman, V. I., Fractionation of meteoritic material in the impact process (in Russian). Geokhimiya, v. 11, pp. 1547-1557. 1988.
Kenkmann, T., Ivanov, B. A., Target delamination by spallation and ejecta dragging: An example from the Ries crater's periphery, Earth and Planetary Science Letters, 252, P. 15 - 29. 2006.
Kenkmann, T., Ivanov, B.A., Target delamination by spallation and ejecta dragging: An example from the Ries crater's periphery, Earth and Planetary Science Letters, v. 252, pp. 15-29, 2006
Kenkmann, T., Schönian, F., Ries and Chicxulub: Impact craters on Earth provide insights for Martian ejecta blankets, Meteoritics and Planetary Science, v. 41, pp. 1587-1603, 2006
Khryanina, L. P., Meteorite craters on Earth (in Russian). Moscow, Nerda, 112 p. 1987.
Khryanina, L. P., The structure of meteorite craters and their central uplifts (in Russian). Doklady Akademii Nauk SSSR, v. 238, pp. 195-198. 1978.
Koeberl, C., et al., High-resolution X-ray computed tomography of impactites, Journal of Geophysical Research E: Planets, v. 107, pp. 1-19, 2002
Koeberl, C., Masaitis, V.L., Langenhorst, F., Stöffler, D., Schrauder, M., Lengauer, C., Gilmour, I. and Hough,R.M., Diamonds from the Popigai impact structure, Russia (abstract). Lunar and Planetary Science XXVI, pp. 777-778. 1995.
Koeberl, C., Milkereit, B., Continental Drilling and the Study of Impact Craters and Processes - an ICDP Perspective, In: Continental Scientific Drilling (eds. Harms, U., Koeberl, C., and Zoback, M.D.), Springer, Heidelberg, p. 95-161. 2007.
Kölbl-Ebert, M., From volcano to impact crater: A history of the impact hypothesis at Ries Crater and Steinheim Basin from 1900 to 1970, Neues Jahrbuch fur Geologie und Palaontologie - Monatshefte, Issue 10, pp. 591-602, 2003
Kopecky, L., Relationship between fenitization, alkaline magmatism, sulphide-barite-fluorite mineralization & deep fault tectonics in the Bohemian massif & in Rhinegraben. International Geological Congress, 24th, Montreal, Canada, pp. 41-50. 1972.
Kopecký, L., The Nördlinger Ries astrobleme in the Euro-African rift system: Facts and inferences, Acta Universitatis Carolinae, Geologica, v. 48, pp. 37-66, 2004
Kring, D.A., Hypervelocity collisions into continental crust composed of sediments and an underlying crystalline basement: Comparing the Ries (?24 km) and Chicxulub (?180 km) impact craters, Chemie der Erde - Geochemistry, v. 65, pp. 1-46, 2005
Langenhorst, F., Shafranovsky, G. and Masaitis,V.L., A comparative study of impact diamonds from the Popigai, Ries, Sudbury, and Lappajarvi craters. Meteoritics & Planetary Science, vol. 33, No. 4, pp. A90-A91, Supplement. 1998.
Langenhorst, F., Shafranovsky, G. and V. L. Masaitis., A comparative study of impact diamonds from the Poigai, Ries, Sudbury, and Lappajarvi craters. Meteoritics and Planetary Science, v 33, n 4, p A90 - 91. 1998.
Lemcke, K., Oil shales in the Nordlinger Ries meteorite crater (in German). Vereinigung Schweizerisher Petroleum-Geologen und Ingenieure, Bulletin, Zurich, v. 44, pp. 1-12. 1978.
Lenz, C., Langenhorst, F. and Stöffler,D., Coesite in suevite of the Ries crater, Germany: Optical, X-ray, and TEM results (abstract). 4th International Workshop of the ESF Scientific Network on "Impact Cratering and Evolution of Planet Earth". The Role of Impacts on the Evolution of the Atmosphere and Biosphere with Regard to Short- and Long-Term Changes, p. 109. 1995.
Leroux, H., Weathering features in shocked quartz from the Ries impact crater, Germany, Meteoritics and Planetary Science, v. 40, pp. 1347-1352, 2005
Mader, D., Montanari, A., Gattacceca, J., Koeberl, C., Handler, R. Coccioni,R., 40Ar/39AR dating of a Langhian biotite-rich clay layer in the pleagic sequence of the Conero Riviera, Ancona, Italy, Earth and Planetary Science Letters v. 194, p. 111-126. 2001.
Masaitis, V. L., Danilin, A.N., Maschak, M.S., Raykhlin, A.I., Selivanovskaya, T.V. and Shadenkov,Ye.M., The Geology of Astroblemes (in Russian). Leningrad, Nedra, 231 p. 1980.
Masaitis, V. L., Diamantiferous impactites, their distribution and petrogenesis (in Russian). Regional Geology and Metallogeny, v. 1, pp. 121-134. 1993.
Masaitis, V. L., Diamond-bearing impactites and problems of their development. Mineral Resources of Russia: Diamonds and Gold. Proceedings of the Second International Symposium, Mineral Resources of Russia, pp. 41-43. 1995.
Masaitis, V. L., Shafranovsky, G. L., Comparative study of impact diamonds from the Ries and Popigai craters (abstract). European Science Foundation, Third International Workshop. Shock Wave Behaviour of Solids in Nature and Experiments, Limoges, France. 1994.
Masaitis, V. L., The origin and distribution of diamond-bearing impactites (abstract), Meteorites, v. 30, p. 541. 1995.
McHone J F., Dietz, R. S., Earth's multiple impact craters and astroblemes (abstract). Lunar and Planetary Science, v. XXIII, pp. 887-888. 1992.
McHone, J. F., Blumberg, D.G., Greeley, R. and Underwood, J.R.,Jr., Space shuttle radar images of terrestrial impact structures: SIR-C/X-SAR (abstract). Meteoritics, v. 30, pp. 543. 1995.
Melosh, H. J., Cratering the dynamics and the delivery of meteorites to the Earth (abstract). Meteoritics, v. 30, pp. 545-546. 1995.
Melosh, H. J., Stansberry, J., Doublet craters and the tidal disruption of binary asteroids (abstract). Meteoritics, v. 26, pp. 371-372. 1991.
Meyer, C., Jebrak, M., Stoeffler, D., & Riller, U., Lateral transport of suevite inferred from 3D shape-fabric analysis; evidence from the ries impact crater, germany. Geological Society of America Bulletin, 123(11-12), 2312-2319. 2011.
Miller, D. S., Wagner, G. A., Age and intensity of thermal events by fission track analysis: The Ries impact crater. Earth and Planetary Science Letters, v. 43, pp. 351-358. 1979.
Morgan, J. W., Janssens, M.J., Hertogen, J,. Gros, J. and Takahashi,H., Ries impact crater, southern Germany: Search for meteoritic material. Geochimica et Cosmochimica Acta, v. 43, pp. 803-815. 1979.
Morgan, J. W., Janssens, M.J., Hertogen, J. and Takahashi,H., Ries crater: An aubritic impact? (abstract). Meteoritics, v. 12, p. 319. 1977.
Moynier, F., Koeberl, C, Quitte, G. and Telouk, P., A tungsten isotope approach to search for meteorite componenets in terrestrial impact rocks, Earth and Planetary Science Letters, v.286, pp.35-40. 2009.
Muttik, N., et al., Stable isotope composition of smectite in suevites at the Ries crater, Germany: Implications for hydrous alteration of impactites, Earth and Planetary Science Letters, v. 299, pp. 190-195, 2010
Muttik, N., Kirsimae, K., Newsom, H. E., & Williams, L. B., Boron isotope composition of secondary smectite in suevites at the ries crater, germany; boron fractionation in weathering and hydrothermal processes. Earth and Planetary Science Letters, 310(3-4), 244-251. 2011
Newsom, H. E., Deposition of suevite at the Ries Crater, West Germany (abstract). Meteoritics, v. 25, pp. 391. 1990.
Newsom, H. E., Graup, G., Sewards, T. and Keil,K., Fluidization and hydrothermal alteration of the suevite deposit at the Ries crater, West Germany, and implications for Mars. Proceedings Lunar and Planetary Science Conference 17th, Journal of Geophysical Research, v. 91, E239-251. 1986.
Newson, H. E., Graup, G., Iseri, D.A., Geissman, J.W. and Keil,K., The formation of the Ries Crater, West Germany; Evidence of atmospheric interactions during a large cratering event. Global Catastrophes in Earth History, Geological Society of America, Special Paper 247, pp. 195-206. 1990.
Osinski, G.R., Grieve, R.A.F., Spray, J.G., The nature of the groundmass of surficial suevite from the Ries impact structure, Germany, and constraints on its origin, Meteoritics and Planetary Science, v. 39, pp. 1655-1683, 2004
Osinski, G.R., Hydrothermal activity associated with the Ries impact event, Germany, Geofluids, v. 5, pp. 202-220, 2005
Osinski, G.R., Impact glasses in fallout suevites from the Ries impact structure, Germany: An analytical SEM study, Meteoritics and Planetary Science, v. 38, pp. 1641-1667, 2003
Ostertag, R., Continuous deposits of the Ries crater, Germany (abstract). Meteoritics, v. 13, pp. 594-595. 1978.
Ostertag, R., Gasse, W., Continuous deposits of the Ries crater, Germany: Sedimentological and micropaleontological investigations of NASA drill core D. In: Pohl, J., ed., Research in Terrestrial Impact Structures, Friedr.Vieweg & Sohn, Braunschweig/Wiesbaden, pp. 69-93. 1987.
Ostertag, R., Horz, F., Lithologic content and grain sizes of the "Bunte Breccia," Ries crater, Germany (abstract). Meteoritics, v. 14, pp. 507-508. 1979.
Ostertag, R., Stoffler, D., The Ries crater continuous deposits: Sedimentological investigation of drill core. Lunar and Planetary Science IX, pp. 844-845. 1978.
Padovani, E. R., Batzle, M.L. and Simmons,G., Characteristics of microcracks in samples from the drill hole Nordlingen 1973 in the Ries crater, Germany. Proceedings Lunar and Planetary Science Conference 9th, pp. 2731-2748. 1978.
Palme, H., Wolf, R. and Grieve,R.A.F., New data on meteoritic material at terrestrial impact craters (abstract). Lunar and Planetary Science IX, pp. 856-858. 1978.
Parfenova O V., Yakovlev, O. I., Some peculiarities of selective evaporation in target rocks after meteoritic impact. Impact and Explosion Cratering, D. J. Roddy, R. O. Pepin and R. B. Merrill, Pergamon Press, New York, pp. 843-859. 1977.
Pernicka, E., Horn, P. and Pohl,J., Chemical record of the projectile in the graded fall-back sedimentary unit from the Ries Crater, Germany. Earth and Planetary Science Letters, v. 86, pp. 113-121. 1987.
Poelchau, M.H., Kenkmann, T., Feather features: A low-shock-pressure indicator in quartz, Journal of Geophysical Research B: Solid Earth, v. 116, Article number B02201 , 2011
Poesges, G., Schieber, M., The public interest in impact cratering: The Ries crater museum, Nördlingen, Germany (abstract). Large Meteorite Impacts and Planetary Evolution,. 1997.
Pohl, J., A comparison of cratering models for the Ries crater (abstract). Meteoritics, v. 14, pp. 520-521. 1979.
Pohl, J., Angenheister, G., Geomagnetic anomalies and magnetization of the rocks in the Nordlingen Ries (in German). Geologica Bavarica, v. 61, pp. 327-336. 1969.
Pohl, J., et al., Ries crater, germany: The Enkingen magnetic anomaly and associated drill core SUBO 18, Special Paper of the Geological Society of America, Issue 465, pp. 141-163, 2010
Pohl, J., Evidence for the coincidence of a geomagnetic reversal with the Ries impact event (abstract). Meteoritics, v. 13, p. 600. 1978.
Pohl, J., Gleiss, E., Investigations of the Ries crater ejecta using a digital geological map, DEM and GIS, Lunar and Planetary Science XXX. 1999.
Pohl, J., New gravity measurements and mass balance calculations for the Ries Crater (abstract). Impact Cratering and Evolution of Planet Earth, First International Workshop, Nordlingen, Germany. 1993.
Pohl, J., On the origin of the magnetization of impact breccias on Earth (in German). Zeitschrift fur Geophysik, v. 37, pp. 549-555. 1971.
Pohl, J., Stoffler, D., Gall, H. and Ernston,K., The Ries impact crater. In: Roddy, D.J., Pepin, R.O. and Merrill, R.B., eds., Impact and Explosion Cratering, Pergamon Press, New York, pp. 343-404. 1977.
Pohl, J., Will, M., Vergleich der Geschwindigkeitsmessungen im Bohrolch der Forschungsbohrung Nordlingen 1973 mit seismischen Tiefensondierungen innerhalb und ausserhalb des Ries. Geologica Bavarica, v. 72, pp. 75-80. 1974.
Popov, Y., Pohl, J. and R. Romushkevich., Geothermal investigations of the Ries impact structure. Lunar and Planetary Science XXX. 1999.
Popov, Yu., et al., Geothermal characteristics of the Ries impact structure, Geophysical Journal International, v. 154, pp. 355-378, 2003
Preuss, E., The Ries and the meteorite theory (in German). Fortschritte der Mineralogie, v. 41, pp. 271-312. 1964.
Rauser, P., Steinbrunn, F. and Storzer,D., Evidence for a triplet cratering event in the Ries area formed by fission of a single meteoroid under the Earth's tidal forces (abstract). Meteoritics, v. 6, p. 304. 1971.
Reich, H., Horrix, W., Geophysical investigations in the Ries and Fore-Ries and their geological interpretation (in German). Beihefte zum Geologischen Jahrbuch, v. 19, pp. 1-119. 1955.
Reimold, W. U., Dressler, B. O., The economic significance of impact processes (abstract). Abstracts for the International Workshop on Meteorite Impact on the Early Earth, Perth, Australia, pp. 36-37. 1990.
Reimold, W. U., Hansen, B. K., Jacob, J., Artemieva, N. A., Wuennemann, K., & Meyer, C., Petrography of the impact breccias of the enkingen (SUBO 18) drill core, southern ries crater, germany; new estimate of impact melt volume. Geological Society of America Bulletin, Pre-Issue Publication. 2011
Rondot, J., How deep are ancient astroblemes eroded? (abstract). Abstracts for the International Workshop on Meteorite Impact on the Early Earth, Perth, Australia, pp. 40-41. 1990.
Rondot, J., Modeles d'astroblemes d'apres le deplacement des masses rocheuses : Charlevoix et le Ries, Canadian Journal of Earth Science, Vol 44, P. 607 - 617. 2007.
Rost, R., Dolgov, Yu.A. and Vishevsky,S.A., Gases in inclusions of impact glass in the Ries crater, West Germany and finds of high-pressure carbon polymorphs (in Russian). Doklady Akadamii Nauk SSSR, v. 241, pp. 695-698. 1978.
Ryabenko, V. A., Val'ter, A. A., Meteorite explosion craters as an object of study in modern geology (in Russian). Visnyk, v. 1-6, pp. 7-16. 1977.
Schmidt, G., Palme, H. and Kratz,K.L., The fractionation of highly siderophile elements (HSE) in impact melts and the determination of the meteoritic components, Meteoritics, v. 30, pp. 573-574. 1995.
Schmidt, G., Pernicka, E., The determination of platinum group elements (PGE) in target rocks and fall-back material of the Nordlinger Ries impact crater, Germany. Geochimica et Cosmohimica Acta, v. 58, pp. 5083-5090. 1994.
Schmitt, R. T., Siebenshock, M., Stoffler., Distribution of Impact Diamonds in the Ries Crater, Germany, Meteoritics; vol. 34, No. 4, Supp. p. A102. 1999.
Schmitt, R.T., et al. , Distribution and origin of impact diamonds in the Ries crater, Germany, Special Paper of the Geological Society of America, Issue 384, pp. 299-314, 2005
Schneider, H., Shock-induced mechanical deformations in biotites from crystalline rocks of the Ries crater (southern Germany). Contributions to Mineralogy and Petrology, v. 37, pp. 75-85. 1972.
Schneider, H., Shock-induced thermal transformations of Ries-biotites. Contributions to Mineralogy and Petrology, v. 43, pp. 233-243. 1974.
Schnetzler, C. C., Philpotts, J.A. and Pinson,W.H.Jr., Rubidium-strontium correlation study of moldavites and Ries crater material. Geochimica et Cosmochimica Acta, v. 33, pp. 1015-1021. 1969.
Sears, D., Huang, S., Akridge, G. and Benoit,P., Glassy spherules in suevite from the Ries crater, Germany, with implications for the formation of meteoritic chondrules (abstract). Lunar and Planetary Science, v. XXVII, pp. 1165-1166. 1996.
Sears, D., Huang, S., Akridge, G. and Benoit,P., Glassy spherules in suevite from the Ries crater, Germany, with implications for the formation of meteoritic chondrules (abstract). Lunar and Planetary Science, v. XXVII, pp. 1165-1166. 1996.
Seibenschock, M., Schmitt, R. T., Stoffler., Investigations of a Diamond Bearing Gneiss Clast in the Suevite from Seelbronn, Ries Crater, Germany, LPSC XXIX, Lunar and Planetary Institute, Houston, TX, (CD-ROM). 1998.
Selivanovskaya, T. V., Suevites of Nordlingen Ries crater and their analogues in the Popigai meteorite crater (in Russian). Meteoritika, v. 36, pp. 135-139. 1977.
Schmidt-Kaler, Reconstructed pre-impact profile for the Ries center, 1978.
Shoemaker, E. M., Chao, E. C. T., New evidence for the impact origin of the Ries basin, Bavaria, Germany. Journal of Geophysical Research, v. 66, pp. 3371-3378. 1961.
Siebenschock, M., Schmitt, R. T. and D. Stöffler., Impact diamonds in glass bombs from suevite of the Ries crater, Germany: new observations. Meteoritics and Planetary Science, v. 33, n 4, p A145. 1998.
Siebenschock, M., Schmitt, R. T., Stoffler., Suevite from Hohenal Theim: A New Deposit from the Ries Crater, Germany, LPSC XXIX, Lunar and Planetary Institute, Houston, TX,(CD-ROM). 1998.
Skála, R., Shock-induced phenomena in limestones in the quarry near Ronheim, the Ries Crater, Germany, Vestnik Ceskeho Geologickeho Ustavu, v. 77, pp. 313-320, 2002
Skála, R., Zak, K., Stable isotope study of carbonates from the Ries meteorite crater - evidence for impact-induced carbonate decomposition, Lunar and Planetary Science XXXII. 2001.
Staehle, V., et al., Kyanite: A new shock-induced high-pressure silicate phase from the ries crater, Meteoritics and Planetary Science, v. 39, pp. A99, 2004
Stahle, V., Cordierite glass formed by shock in a cordierite-garnet-gneiss from the Ries crater, Germany. Earth and Planetary Science Letters, v. 18, pp. 385-390. 1973.
Stähle, V., et al., Ca-rich majorite derived from high-temperature melt and thermally stressed hornblende in shock veins of crustal rocks from the Ries impact crater (Germany), Contributions to Mineralogy and Petrology, v. 161, pp. 275-291, 2011
Stähle, V., et al., Shock-induced formation of kyanite (Al2SiO5) from sillimanite within a dense metamorphic rock from the Ries crater (Germany), Contributions to Mineralogy and Petrology, v. 148, pp. 150-159, 2004
Stähle, V., et al., Shock-induced growth and metastability of stishovite and coesite in lithic clasts from suevite of the Ries impact crater (Germany), Contributions to Mineralogy and Petrology, v. 155, pp. 457-472, 2008
Stahle, V., Gillet, P., Chen, M. and Goresy, A.,El., A new natural dense silicon dioxide glass in shocked garnet gneisses from the Ries Crater, Germany, Meteoritics & Planetary Science, 34, No. 4, Supplement, p. A112. 1999.
Stahle, V., Impact glasses from the suevite of the Nordlinger Ries. Earth and Planetary Science Letters, v. 17, pp. 275-293. 1972.
Stahle, V., Muller, W., Natural shock behaviour of amphibolites and garnet-cordierite-gneisses from the Ries crater, Germany (abstract). Meteoritics, v. 15, p. 371. 1980.
Stahle, V., Natural shock behavior of almandite in metamorphic rocks from the Ries crater, Germany. Earth and Planetary Science Letters, v. 25, pp. 71-81. 1975.
Stahle, V., Nickel and cobalt in rocks of the Nordlingen Ries (in German). Contributions to Mineralogy and Petrology, v. 28, pp. 72-88. 1970.
Stahle, V., Ottemann, J., Petrographic studies on the suevite and on the dike breccias of the Nordlingen 1973 research borehole (in German). Geologica Bavarica, v. 75, pp. 191-217. 1977.
Stahle, V., The impact melt rocks at the Ries crater (abstract). Meteoritics, v. 16, 388 p. 1981.
Staudacher, Th., Jessberger, E.K., Dominik, B., Kirsten, T. and Schaeffer,O.A., 40Ar-39Ar ages of rocks and glasses from the Nordlinger Ries crater and the temperature history of impact breccias. Journal of Geophysics, v. 51, pp. 1-11. 1982.
Stoffler, D., Artemieva, N.A., Pierazzo, E. and Ivanov,B.A., Ries Crater, Germany: Geology and numerical modeling of Impact Cratering, Meteoritics & Planetary Science, Vol. 36, No.9, Supplement, p. A199. 2001.
Stöffler, D., Deformation and transformation of plagioclase by shock-waves in the rocks of the Nordlingen Ries (in German). Beitrage zur Mineralogie und Petrologie, v. 16, pp. 51-83. 1967.
Stöffler, D., Ewald, U., Ostertag, R. and Reimold,W.U., Ries deep drilling: I. Composition and texture of polymict impact breccias. Geologica Bavarica, v. 75, pp. 163-189. 1977.
Stöffler, D., Impact signatures in the geological record (abstract). Abstracts for the International Workshop on Meteorite Impact on the Early Earth, Perth, Australia, pp. 49-50. 1990.
Stöffler, D., Ostertag, R., The Ries impact crater. Fortschr. Miner. Bd. 61, pp. 71-116. 1983.
Stöffler, D., Research drilling Nordlingen 1973, Ries: Composition and texture of polymict impact breccias. Geologica Bavarica, v. 75, pp. 163-190. 1977.
Stöffler, D., Research drilling Nordlingen 1973: Polymict breccias, crater basement of cratering model of the Ries impact structure. Geologica Bavarica, v. 75, pp. 443-458. 1977.
Stöffler, D., Ries meteorite crater, Germany II. Cratering mechanics, impact metamorphism and distribution of ejected masses of the Ries structure - An introduction. Fort. Mineralogie, Kristall., und Petrol., v. 52, pp. 109-117. 1974.
Stöffler, D., Shock deformation of sillimanite from the Ries crater, Germany. Earth and Planetary Science Letters, v. 10, pp. 115-120. 1970.
Stöffler, D., Zones of impact metamorphism in the crystalline rocks of the Nordlingen Ries crater. Contributions to Mineralogy and Petrology, v. 12, pp. 15-24. 1966.
Storzer, D., Fission track dating of some impact craters in the age range between 6,000y and 300 m.y. (abstract). Meteoritics, v. 6, p. 319-320. 1971.
Storzer, D., Gentner, W. and Steinbrunn,F., Stopfenheim kuppel, Ries kessel and Steinheim basin: A triplet cratering event. Earth and Planetary Science Letters, v. 13, pp. 76-78. 1971.
Tattevin, H., Willaime, C., Caracterisation par microscopie electronique en transmission d'une phase induite par ondes de choc dans un plagioclase., Comptes Rendus de l'Academie des Sciences, Paris, Serie II, v. 304, pp. 1063-1067, 1987
Vand, V., Dachille, F. and Simons,P.Y., Qualitative dating of glasses, applied to tektite-like objects from the Ries kessel meteoritic crater. Nature, v. 201, pp. 597-598. 1964.
Vand, V., The meteoritic craters of Ries kessel and Steinheim basin and their relation to tektites. Pennsylvania State University, Mineral Industries, v. 32, pp. 1-5, 7. 1963.
Vennemann, T. W., Stable isotope composition of impact glasses from the Nordlinger Ries impact crater, Germany, Geochimica et Cosmochimica Acta, Vol. 65, No. 8, pp. 1325-1336. 2000.
von Engelhardt, W., Berthold, C. , Wenzel, T. and Dehner, T., Chemistry, small-scale inhomogeneity, and formation of moldavites as condensates from sands vaporized by the Ries impact. Geochimica et Cosmochimica Acta, Vol. 69, No. 23, P. 5611 - 5626. 2005.
von Engelhardt, W., Suevite Breccia of the Ries Impact Crater, Germany: Petrography, Chemistry and Shock Metamorphism of Crystalline Rock Clasts, Meteoritics; vol. 32, p. 545-54. 1997.
Wagner, G. A., Miller, D. S., The Ries Crater: Age of impact, age of crystalline basement and the initial equilibrium temperatures by fission track analysis (abstract). Meteoritics, v. 13, pp. 649-651. 1978.
Westbroek, H., Stewart, R., The formation, morphology, and economic potential of meteorite impact craters, CREWES Research Report v. 8, p. 1-26. 1996.
Wittmann, A., et al., Shock-metamorphosed zircon in terrestrial impact craters, Meteoritics and Planetary Science, v. 41, pp. 433-454, 2006
Wünnemann, K., Morgan, J.V., Jödicke, H., Is ries crater typical for its size? An analysis based upon old and new geophysical data and numerical modeling, Special Paper of the Geological Society of America, Issue 384, pp. 67-83, 2005
Yakovlev, O. I., Parfenova, O. V., Petrochemical features of impactites and the significance of evaporation and condensation processes in impact crater formation (in Russian). Meteoritika, v. 40, pp. 113-121. 1982.
Yakovlev, O. I., Vernadsky, V.I. and Parfenova,O.V., The role of vaporization and condensation in the formation of the chemical composition of impactites. Lunar and Planetary Science XI, pp. 1285-1287. 1980.
Zotkin, I. T., "Moon" craters on the Earth (in Russian). Priroda, v. 9, pp. 95-105. 1969.
Zotkin, I. T., Dabizha, A. I., Evolution of a meteorite crater as a process of random displacements (in Russian). Meteoritika, v. 40, pp. 82-90. 1982.
* pre-1977 K-Ar, Ar-Ar and Rb-Sr ages recalculated using the decay constants of Steiger and Jager (1977) Ages in millions of years (Ma) before present.

** Abbreviations: C - Crystalline Target; C-Ms - Metasedimentary Target; M - Mixed Target (i.e.sedimentary strata overlying crystalline basement); S - sedimentary target (i.e. no crystalline rocks affected by the impact event). From Osinski. G. R., Spray J. G., and Grieve R. A. F. 2007. Impact melting in sedimentary target rocks: A synthesis. In The Sedimentary Record of Meteorite Impacts, Geological Society of America Special Paper. Editors: Evans K. Horton W., King D., Morrow J., and Warme J. Geological Society of America: Boulder, in press.

***From Koeberl,C. Identification of meteoritic components in impactites. 1998, Koeberl, C. The Geochemistry and Cosmochemistry of Impacts. 2007 and PASSC Files. (IAB, IIIAB, IIIB, IIID - Iron Meteorite)