Summary
The Pleistocene maars in the Eifel region of Germany, and Massif Central in France, formed when fissures opened at the bottom of older valleys allowing stream water to pour down them and come into contact with rising magma. The resulting phreato-magmatic eruptions gave rise to both base surge and air-fall deposits. Spalling of wall rock at depth enlarged the fissure into an eruption chamber. Subsidence along a ring fault into the eruption chamber accounts for the larger crater cut into the country rocks. The volume relationship between the crater excavated, the ejected pyroclastic debris of the rim and the volume below the floor of the crater, indicates that the volume of the maar ejecta is always larger than the volume of the crater.
The relationships between maars and tuff-rings are described; the distinctive features of the two depend on density differences between the pyroclastic debris and country rocks, on the distribution ratio between ejected material and debris remaining within the underlying diatreme, and most importantly on the total amount of juvenile material produced.
Larger contents of juvenile material result in the formation of tuff-rings instead of maars, and in most cases also indicate a shallower eruption source of the former.
As a result of these many variables, large diatremes, which display subsidence structures bounded by ring-faults, may produce either maars or tuff-rings at the surface.
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References
Baudry, D. andCamus, G., 1970,Les maars de la Chaîne des Puys (formations volcaniques du Massif Central français). Bull. Soc. géol. de France, (7),XII, p. 185–189.
----- and -----, 1971,Les projections volcaniques de la Chaîne des Puys et leurs utilisations. Rapport BRGM, 70SGN, 61 MCE, 2 ed.
Bout, P., 1970,Problèmes du volcanisme. V. Rev. d’Auvergne, Tome 84, p. 29–73.
Cipa, W., 1956, Der Vulkanismus in der Umgebung des Pulvermaares. Decheniana,109, p. 53–75.
Dawson, J. B., 1971,Advances in kimberlite geology. Earth-Sci. Rev.,7, p. 187–214.
—————, andPowell, D. G., 1969,The Natron-Engaruka explosion crater area, northern Tanzania. Bull. Volcanologique, Tome XXXIII, p. 791–817.
Devis, G., 1969,Le volcanisme du Brivadois. D.E.S. Université de Clermont-Ferrand, 147 pp.
Ehrlich, A., 1968,Les diatomées fossiles des sédiments villefranchiens de Senèze (Haute-Loire, Massif Central français). Bull. Assoc. Franc. Etude de Quarternaire, 5 ann.,17, p. 267.
Einarsson, T., 1965,The ring-mountains Hverfjall, Ludent, and Hrossaborg in northern Iceland. Visindafelag Islendinga. (Societas Scientiarum Islendica). Greinar,4, p. 1–28.
Fisher, R. V. andWaters, A. C., 1969,Bed forms in base-surge deposits: Lunar implications. Science,165, p. 1349–1352.
—————, 1970,Base surge bed forms in maar volcanoes. Amer. J. Sci.,268, p. 157–180.
Francis, E. H., 1962,Volcanic neck emplacement and subsidence structures at Dunbar, south-east Scotland. Trans. Roy. Soc. Edinb.,65, p. 41–58.
—————, 1970,Bedding in Scottish (Fifeshire) tuff-pipes and its relevance to maars and calderas. Bull. volcanologique,34, p. 697–712.
Frechen, J., 1951,Die Vulkane der Westeifel. In: Hopmann, M., Frechen, J. and Knetsch, G.:Die vulkanische Eifel. 50–77, (Georg Fischer Verl.). Wittlich.
—————, 1962, Führer zu vulkanologisch-petrographischen Exkursionen im Siebengebirge am Rhein, Laacher Vulkangebiet und Maargebiet der Westeifel. 151 pp., (Schweizerbart) Stuttgart.
Hamilton, W. andMyer, W. B., 1963,Menan Buttess cones of glassy tuff in the Snake River plain, Idaho. U.S.G.S. Prof. Paper 450 E2, E114–E118.
Hearn Jr., B. C., 1968,Diatremes with kimberlitic affinities in North-central Montana. Science,159, p. 622–625.
Heiken, G., 1971,Tuff-rings: examples from the Fort Rock — Christmas Lake Valley basin, South Central Oregon. J. Geophys. Res.,76, p. 5615–5626.
Illies, H., 1959,Die Entstehungsgeschichte eines Maares in Südchile (Ein aktuogeologischer Beitrag zum Problem des Maar-Vulkanismus). Geol. Rundschau,48, p. 232–247.
Jahns, R. H., 1959,Collapse depressions of the Pinacate volcanic field, Sonora, Mexico. Arizona Geol. Soc., Southern Ariz. Guidebook2, p. 165–184.
Lorenz, V., 1970,Some aspects of the eruption mechanism of the Big Hole maar, central Oregon, Geol. Soc. Amer. Bull.,81, p. 1823–1830.
-----, 1971a, An investigation of volcanic depressions. Part IV, Origin of Hole-in-the-Ground, a maar in Central Oregon. (Geological, geophysical, and energy investigations). NASA progress report (NGR-38-003,012), 113 pp., Houston, Tex., (Clearinghouse for Federal Scientific and Technical Information, Springfield, Va.: NASA CR-115237).
—————, 1971b, Collapse structures in the Permian of the Saar-Nahe-area, southwest Germany. Geol. Rundschau.60, p. 924–948.
—————, 1971c, Vulkanische Calderen und Schlote am Donnersberg/Pfalz. Oberrhein. geol. Abh.,20, p. 21–41.
-----, 1974,Vesicular tuffs sedimentology (In press).
-----,McBirney, A. R., andWilliams, H., 1970,An investigation of volcanic depressions. Part III. Maars, tuff-rings, tuff-cones, and diatremes. NASA progress report (NGR-38-003-012), 198 p., Houston, Tex. (Clearinghouse for Federal Scientific and Technical Information, Springfield, Va.; NASA CR-115236).
----- andSteinberg, G. S., 1974,Distributions and initial velocities of ejected blocks from different volcanic eruption types. (In preparation).
Moore, J. G., 1967,Base surge in recent volcanic eruptions. Bull. Volcanologique, Tome XXX, p. 337–363.
————— andAlcaraz, A., 1966,The 1965 eruption of Taal volcano. Science,151, p. 955–960.
Müller, G. andVeyl, G., 1956,The birth of Nitahue, a new maar type volcano at Rininahue, Chile. 20th Int. Geol. Congr., Mexico City, 1956, Rept. Sec. 1, p. 375–396.
Nakamura, K. andKrämer, F., 1970,Basaltic ash flow deposits from a maar in West-Eifel, Germany. N. Jb. Geol. Paläont. Mh., Jg. 1970, H. 8, p. 491–501.
Noll, H., 1967,Maare und maar-ähnliche Explosionskrater in Island. Ein Vergleich mit dem Maarvulkanismus der Eifel. Sonderveröff. des Geol. Inst. der Univ. Köln,11, p. 1–117.
Ollier, C. D., 1967,Maars, their characteristics, varieties and definition. Bull. volcanologique, Tome XXXI, p. 45–73.
Peterson, N. V. andGroh, E. A., 1961,Hole-in-the-Ground, Central Oregon. Meteorite crater or volcanic explosion? The Ore.-Bin.23, p. 95–100.
—————, 1963,Maars of South-Central Oregon. The Ore.-Bin,25, p. 73–88.
Rahm, G., 1956,Der quartäre Vulkanismus im zentralen Teil der Westeifel, ein Beitrag zum Eruptionsmechanismus der Eifelvulkane. Decheniana,109, p. 11–51.
—————, 1958,Der quartäre Vulkanismus im südöstlichen Teil der Westeifel. Ein Beitrag zum Problem des Maarvulkanismus. Gewässer und Abwässer,19, p. 77–139.
Reeves Jr., C. C. andDe Hon, R. A., 1965,Geology of Potrillo maar. New Mexico and northern Chihuahua, Mexico. Amer. J. Sci.,263, p. 401–409.
Schaub, S., 1944,Die oberpliocaene Säugetierfauna von Senèze (Haute Loire) und ihre verbreitungsgeschichtliche Stellung. Eclogae geol. Helv.,36, p. 270–289.
Shoemaker, E. M., Roach, C. H., andByers Jr., F. M., 1962,Diatremes and Uranium deposits in the Hopi Buttes, Arizona. Geol. Soc. Amer. Bull., Buddington Vol., p. 327–355.
Thorarinsson, S., 1965, Sitt af hverju um Surtseyjargosid(Some facts about the Surtsey eruption). Náttúrufraedingurinn,35, p. 153–181.
—————, 1967,Some problems of volcanism in Iceland. Geol. Rundschau,57, p. 1–20.
Waters, A. C. andFisher, R. V., 1970,Maar volcanoes. Proceedings of the second Columbia River Basalt symposium, p. 157–170. EWSC, Cheney, Wash.
—————, 1971,Base surges and their deposits: Capelinhos and Taal volcanoes. J. Geophys. Res.,76, p. 5596–5614.
Whyte, F., 1964,The Heads of Ayr vent. Trans. Geol. Soc. Glasgow,25, p. 72–97.
—————, 1968,Lower Carboniferous volcanic vents in the West of Scotland. Bull. Volcanologique, Tome XXXII, p. 253–268.
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Lorenz, V. On the formation of maars. Bull Volcanol 37, 183–204 (1973). https://doi.org/10.1007/BF02597130
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DOI: https://doi.org/10.1007/BF02597130