A zona de contato entre as formações Motuca e Sambaíba, Permo-Triássico da bacia do Parnaíba, regiões de Filadélfia (TO), Riachão (MA) e Loreto (MA)

ABRANTES JÚNIOR, Francisco Romério

17 February 2013

Submitted by Edisangela Bastos (edisangela@ufpa.br) on 2015-02-25T20:14:27Z No. of bitstreams: 2 license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) Dissertacao_ZonaContatoFormacoes.pdf: 27913831 bytes, checksum: 355c1fb701faa0a2926f3868dfcee042 (MD5) / Approved for entry into archive by Ana Rosa Silva (arosa@ufpa.br) on 2015-02-27T14:40:30Z (GMT) No. of bitstreams: 2 license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) Dissertacao_ZonaContatoFormacoes.pdf: 27913831 bytes, checksum: 355c1fb701faa0a2926f3868dfcee042 (MD5) / Made available in DSpace on 2015-02-27T14:40:30Z (GMT). No. of bitstreams: 2 license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) Dissertacao_ZonaContatoFormacoes.pdf: 27913831 bytes, checksum: 355c1fb701faa0a2926f3868dfcee042 (MD5) Previous issue date: 2013 / CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico / O intervalo que compreende o final do Paleozóico e início do Mesozóico foi marcado por mudanças globais paleogeográficas e paleoclimáticas, em parte atribuídas a eventos catastróficos. A intensa continentalização do supercontinente Pangéia, com a implantação de extensos desertos, sucedeu os ambientes costeiros-plataformais do início do Permiano. Os registros desses eventos no norte do Brasil são encontrados nas bacias intracratônicas, particularmente na Bacia do Parnaíba, representados pela zona de contato entre as formações Motuca e Sambaíba. A Formação Motuca é constituída predominantemente por pelitos vermelhos laminados com lentes de gipsita, calcita e marga. Na porção leste da Bacia do Parnaíba, as fácies da Formação Motuca tornam-se mais arenosas com a ocorrência expressiva de arenitos com estratificação cruzada sigmoidal. A Formação Sambaíba consiste em arenitos de coloração creme alaranjada com estratificação plano-paralela e estratificação cruzada de médio a grande porte. Em geral, o contato entre as unidades é brusco, representado pela passagem de arenitos finos com laminação cruzada cavalgante e acamamento flaser/wavy da Formação Motuca para arenitos médios com falhas/microfalhas sinsedimentares e laminações convolutas da Formação Sambaíba. Foram individualizadas 14 fácies sedimentares, agrupadas em quatro associações: AF1 – Lacustre raso / Planície de lama (mudflat), AF2 – “Panela” salina (saline pan), AF3 – Lençol de areia e AF4 – Campo de dunas. A AF1 foi depositada dominantemente por processos de decantação em um extenso ambiente lacustre raso de baixa energia, influenciado por influxos esporádicos de areias oriundos de rios efêmeros. Este sistema lacustre foi, provavelmente, influenciado por períodos de contração e expansão, devido às variações das condições climáticas predominantemente áridas. Os mais expressivos períodos de contração ocorreram na porção oeste da Bacia do Parnaíba, representados pelo desenvolvimento de planícies de lama (mudflats) associadas a lagoas efêmeras saturadas em carbonatos e a “panelas” salinas (saline pans- AF2). Os lençóis de areia (AF3) são planícies arenosas extensas, localmente com área úmidas, intensamente retrabalhadas por processos eólicos. A AF4 é interpretada como parte de um erg composto por dunas/draas em zona saturada em areia, com interdunas secas subordinadas. Intervalos deformados lateralmente contínuos por centenas de quilômetros ocorrem na zona de contato entre as formações Motuca e Sambaíba. Pelitos com camadas contorcidas e brechadas (Formação Motuca) e arenitos com falhas/microfalhas sinsedimentares, laminação convoluta e diques de injeção preenchidos por argilitos (Formação Sambaíba) são interpretados como sismitos induzidos por terremotos de alta magnitude (>8 na escala Ritcher). Anomalias geoquímicas de elementos traços como Mn, Cr, Co, Cu e Ni na zona de contato entre as formações, juntamente com a presença de micropartículas de composição metálica na matriz argilosa dos sismitos, corroboram com impactos de meteoritos no limite c, possivelmente do astroblema Riachão. / The interval between the Late Paleozoic and Early Mesozoic was marked by paleogeographic, and paleoclimatic global changes, partly attributed to catastrophic events. The intense continentalization of the supercontinent Pangaea of Terminal Permian propitiated the development of extensive deserts that succeeded the coastal and platform environments of Early Permian. The records of these events in northern Brazil are found in intracratonic basins, particularly in the Parnaíba Basin, particularly in the contact between the Permian Motuca Formation and Triassic Sambaíba Formation. The Motuca Formation consists predominantly of red laminated mudstone with subordinated lenses of gypsum, calcite and marl. In the eastern Parnaiba Basin, the facies of Motuca Formation become sandier with the expressive occurrence of sigmoidal cross-bedded sandstones. The Sambaíba Formation consists of orange cream sandstones with even parallel stratification and medium- to largescale cross-bedding. Usually, the contact between these units is sharp, where fine sandstones with cross lamination and flaser/wavy bedding (Motuca Formation) are overlaid by sandstones with sin-sedimentary faults/microfaults and convolute lamination (Sambaíba Formation). Fourteen sedimentary facies grouped into four associations (FA) were identified: FA1 – shallow lake / mudflat, FA2 - saline pan, FA3 – sand sheet and FA4 – dunes field. The FA1 interpreted as an extensive, low energy shallow lacustrine environment, with predominance of suspension and sporadically influenced by sand inflow provided of ephemeral rivers. This lake system was probably influenced by expansion and contraction periods due to changes in predominantly arid climate. The most expressive periods of contraction of lake, in the western portion of the Parnaiba Basin, was marked by development of mudflats, ephemeral saturated carbonates ponds and saline pans (FA2).Extensive sandy plains or sand sheet (FA3), locally with wetlands, was intensely reworked by eolian processes. The FA4 is interpreted as part of an erg composed of eolian dune/draas in the saturated sand zone, and subordinate dry interdune. In the contact between Motuca and Sambaiba formations occurs a deformed interval, laterally continuous for hundreds of kilometers. Brecciated and contorted bedded siltstones and mudstone (Motuca Formation) and sandstone with sinsedimentary faults/microfaults, convolute lamination and mud-filled injection dykes (Sambaíba Formation) are interpreted as seismites triggered by high magnitude earthquakes (>8 according Richter scale).Geochemical anomalies of trace elements such as Mn, Cr, Co, Cu and Ni in the contact zone between the formations, together with the presence of microparticles of metallic composition in the clay matrix of these seismites, corroborate with meteorite impacts event in the Permian-Triassic boundary, related Riachão impact structure.

Sedimentologia

Permo-Triássico

Formação Motuca

Formação Sambaíba

Bacia Hidrográfica do Rio Parnaíba

Região Nordeste - Brasil

Caracterização geoquímica e cerâmica das argilas do Grupo Itacaré / Formação Aquidauana, na faixa aflorante entre os estados de São Paulo e sul de Minas Gerais

Godoy, Letícia Hirata [UNESP]

17 December 2010

Made available in DSpace on 2014-06-11T19:26:13Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-12-17Bitstream added on 2014-06-13T18:54:22Z : No. of bitstreams: 1 godoy_lh_me_rcla.pdf: 1783313 bytes, checksum: 2fda3ed0c1bb4a22b674d160e076ba79 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / A presente dissertação aborda o estudo de matérias-primas provenientes de três localidades distintas distribuídas entre São Paulo (Mina Tabajara em Limeira e Parque Ouro Fino em Sorocaba) e sul de Minas Gerais (afloramento em Jacuí), pertencentes ao Grupo Itararé/Formação Aquidauana, Permo-Carbonífero da Bacia do Paraná. Com o intuito de aprofundar os conhecimentos sobre matérias-primas cerâmicas, foram determinadas as características químicas, físicas e mineralógicas, ensaios cerâmicos, métodos de controle, petrografia e influência do intemperismo. Os ensaios cerâmicos foram realizados com as matérias-primas de Limeira e de Jacuí. A matéria-prima de Sorocaba foi abordada de outra maneira, não sendo realizados os ensaios cerâmicos devido à quantidade insuficiente de amostra, também não sendo descartada já que litotipos semelhantes podem ocorrer em outros locais. As amostras puras da Mina Tabajara (L1, L2 e L3) não apresentam resultados satisfatórios, porém, os resultados referentes a massa da mistura (LM; 70% de L1, 30% de L2 e 10% de L3), que vem sendo usada nas indústrias da região como massa para correção, pode vir a ser otimizada a nível industrial com o controle adequado da matéria-prima (granulometria e composição principalmente), por exemplo para a produção de peças cerâmicas, em especial rústicas devido a sua coloração avermelhada. Notou-se que uma pequena faixa de variação dentre os materiais da mistura (10% a mais ou a menos) provavelmente não vai causar mudanças significativas na distribuição granulométrica, e por sua vez no empacotamento dos grãos, podendo ser adotada uma tolerância de até 20%. A amostra de Jacuí (J1) é parecida com as da Mina Tabajara quanto à composição química e mineralógica, granulometria e ao grau de intemperismo, e apresenta comportamento semelhante em relação às propriedades cerâmicas... / The present thesis is based on the study of raw materials from three different localities distributed between São Paulo (Tabajara Mine – Limeira and Ouro Fino Park – Sorocaba) and southern Minas Gerais (outcrop – Jacuí), all of them belonging to Itararé Group/Aquidauana Formation, Permo-Carboniferous of Paraná Basin. The main objective was to increase knowledge of ceramic raw materials in use or potential, by determining the chemical, physical and mineralogical caractheristics, ceramic tests, control methods, petrography and weathering influence. The ceramic tests were performed with Limeira and Jacuí raw materials. The raw material of Sorocaba was differently approached, ceramic tests weren’t made because it occurs within the boundaries of a park, and it was not discarded since similar rocks can occur in other sites. The pure samples of Tabajara Mine (L1, L2 and L3) don’t show satisfactory results, however, the results regarding to the mixture mass (LM, 70% of L1, 30% of L2 and 10% of L3), which has been used by the industries in the region as correction mass, could be optimized at an industrial level with the proper control of the raw material (grain size and composition mainly), e.g. for the production of rustic ceramics because of its reddish color. It was noted that a small range of variation among the materials of the mixture (10% more or less) probably won’t cause significant changes in particle size distribution, as well as the packaging of grains, and a tolerance of up to 20% may be adopted. The Jacuí (J1) sample is similar to the ones of Tabajara Mine, as to chemical and mineralogical composition, grain size and degree of weathering, presenting similar behavior regarding to the ceramic properties. Factors such as particle size distribution with fine grain predominance, larger cation exchange capacity and specific surface and larger... (Complete abstract click electronic access below)

Ciência dos materiais

Minerais de argila

Raios X - Difração

Parana, Rio, Bacia

Argilominerais

Ensaios cerâmicos

Permo-carbonífero

Clay minerals

Ceramic tests

X-ray diffraction

Controls on river and overbank processes in an aggradation-dominated system : Permo-Triassic Beaufort Group, South Africa

Gulliford, Alice Rachel

January 2014

The Permo-Triassic lower Beaufort Group fluvial deposits extend over 100s of kilometres within the Karoo Basin, South Africa. A detailed study of the depositional architecture and stacking patterns of sand bodies within a 900 m thick succession has enabled interpretation of the controls on ancient river channel and overbank processes. Facies include very fine- to medium-grained sandstone, intra-formational conglomerate, mudstone and palaeosols. Channel-belts are dominated by upper flow regime structures, consistent with a flashy to ephemeral fluvial system. The overbank deposits comprise splays interbedded with purple, green and grey mudstone; these floodplain colour changes signify water table fluctuations. A hierarchy of channel-related elements has been established that recognises beds, bedsets, storeys, channel-belts, complexes and complex sets. Each channel-belt may be single- or multi-storey, whereby one storey represents the complete cut and fill cycle of a single migrating river, comprising bar accretion elements and channel-abandonment fill. The abandonment fill elements often consist of heterolithic plugs of climbing ripple-laminated very fine-grained sandstone, or interbedded claystone with siltstone. The Beaufort channel-belts preserve either lateral- or downstream-accretion patterns, or a combination. Each belt has either a lenticular or tabular geometry, recognisable by an erosional base overlain by intra-formational conglomerate lag and barform deposits. Genetically related channel-belts cluster to form complexes, of which two broad styles have been identified: Type A) laterally and vertically stacked channel-belts, and Type B) sub-vertically stacked channel-belts. There is evidence of localised clustering of sub-vertically stacked channel-belts adjacent to extensive overbank mudstone deposits. The apparent lack of a well-defined ‘container’ surface with mappable margins, suggests that this stacked channel-belt architecture represents an avulsion complex rather than a palaeovalley-fill. The lateral and stratigraphic variability in fluvial-overbank architecture is interpreted as the interplay of several controls. Allogenic forcing factors include, tectonic subsidence that influences accommodation, sediment supply, and high frequency climate cycles associated with the flashy discharge regime and expressed in the mudrock colour changes and distribution of palaeosols. The depositional river style, variability in channel-belt stacking patterns and compensational stacking of some channel-belt/splay complexes is interpreted to be the result of autogenic channel avulsion, supported by an absence of significant erosion. The relative merits of basin-axial trunk river and distributive fluvial system (DFS) models are assessed from detailed architectural and stratigraphic outcrop studies.

551.44

Ablagerungsfazies der Grobklastika der oberen Halle-Formation

Grieswald, Heike

21 June 2016

Die Sedimente des Halleschen Permokarbonkomplexes gaben schon immer Raum für Spekulationen. Aufgrund ihrer Dominanz an rhyolithischen Geröllen wurden sie über einen langen Zeitraum einheitlich als Postporphyrschutt ausgehalten. Vielfältig wechselnde Faziesbedingungen machten es jedoch notwendig, die Sedimente aufzugliedern. Neuere Erkenntnisse in der Erforschung des Halleschen Permokarbonkomplexes erfordern eine Überprüfung v. a. der nach KUNERT (1995) aufgestellten allgemeinen stratigraphischen Gliederung der Unterrotliegendsedimente in Halle,- Hornburg,- Sennewitz- und Brachwitz-Formation anhand einiger ausgewählter Beispiele. Der ursprüngliche Gedanke der Diplomarbeit bestand darin, eine Fazies- und eine Geröllanalyse der unterpermischen Abtragungsprodukte des Halle-Vulkanitkomplexes anzufertigen. Zur Verfügung standen zwei Kernbohrungen und zwei Aufschlüsse, sowie diverse Unterlagen zu angrenzenden Bohrungen in der Saale-Senke. Die beiden Oberflächenaufschlüsse Riveufer und Teichgrund sollten stratigraphisch aufgenommen werden, so dass eine Fazieszuordnung möglich ist. Die Bohrung Brachwitz 2/62 wurde mit dem Ziel aufgenommen, neuere Theorien über den Ablagerungszeitraum der Rotliegend-Sedimente in Bezug auf den permokarbonen Vulkanismus zu widerlegen oder zu bekräftigen. Die zweite Bohrung (Kb Lochau 7/65) wurde am Rande mit in die Diplomarbeit einbezogen, da sie das immense Spektrum der spätvulkanischen Aktivitäten im Halle Permokarbonkomplex erweitert. Ergebnis ist eine Neugliederung des Rotliegend im Halleschen Permokarbonkomplex, in der nur noch die Halle-Formation mit ihrem ausgeprägten Vulkanismus und die Hornburg-Formation, stellvertretend für alle jüngeren Abtragungsprodukte des Halle Vulkanitkomplexes, unterschieden werden. Mit einem großen Hiatus folgt anschließend die Eisleben-Formation.

Halle Vulkanitkomplex

Ober- und Unter-Rotliegend

Schichtfluten

verflochtene Fluss-Systeme

Schlammstrom

Pyroklastika

Rhyolith

Vulkanoklastika

pyroklastische Sedimente

subaerisch

Explosionsbrekzie

Alluviale Schwemmfächer

Eisleben-Formation

Hornburg-Formation

Sennewitz-Formation

Brachwitz-Formation

Faziesanalyse

Sills

Lakkolithe

großporphyrisch

kleinporphyrisch

Varistikum

Permokarbon

sedimentäre Brekzien

Halle volcanic complex

Upper and Lower Permian

sheet flow sediments

braided river systems

mudflow

pyroclastic deposits

rhyolite

volcanoclastics

pyroclastic sediments

subaerial

Alluvial fans

acid volcanics

facies analysis

sills

laccoliths

Permo-Carboniferous

sedimentary and explosive breccias

tectonic contacts

ddc:550

Halle (Saale) <Region>

Permokarbon

Rhyolith

Vulkanoklastische Sedimentation

Fazies

Pyroklastit

Formation <Geologie>

Flusssystem

Flussmäander

Schwemmfächer

Stratigraphie

Sedimentologie

Ablagerungsfazies der Grobklastika der oberen Halle-Formation

Grieswald, Heike

16 August 2004

Die Sedimente des Halleschen Permokarbonkomplexes gaben schon immer Raum für Spekulationen. Aufgrund ihrer Dominanz an rhyolithischen Geröllen wurden sie über einen langen Zeitraum einheitlich als Postporphyrschutt ausgehalten. Vielfältig wechselnde Faziesbedingungen machten es jedoch notwendig, die Sedimente aufzugliedern. Neuere Erkenntnisse in der Erforschung des Halleschen Permokarbonkomplexes erfordern eine Überprüfung v. a. der nach KUNERT (1995) aufgestellten allgemeinen stratigraphischen Gliederung der Unterrotliegendsedimente in Halle,- Hornburg,- Sennewitz- und Brachwitz-Formation anhand einiger ausgewählter Beispiele. Der ursprüngliche Gedanke der Diplomarbeit bestand darin, eine Fazies- und eine Geröllanalyse der unterpermischen Abtragungsprodukte des Halle-Vulkanitkomplexes anzufertigen. Zur Verfügung standen zwei Kernbohrungen und zwei Aufschlüsse, sowie diverse Unterlagen zu angrenzenden Bohrungen in der Saale-Senke. Die beiden Oberflächenaufschlüsse Riveufer und Teichgrund sollten stratigraphisch aufgenommen werden, so dass eine Fazieszuordnung möglich ist. Die Bohrung Brachwitz 2/62 wurde mit dem Ziel aufgenommen, neuere Theorien über den Ablagerungszeitraum der Rotliegend-Sedimente in Bezug auf den permokarbonen Vulkanismus zu widerlegen oder zu bekräftigen. Die zweite Bohrung (Kb Lochau 7/65) wurde am Rande mit in die Diplomarbeit einbezogen, da sie das immense Spektrum der spätvulkanischen Aktivitäten im Halle Permokarbonkomplex erweitert. Ergebnis ist eine Neugliederung des Rotliegend im Halleschen Permokarbonkomplex, in der nur noch die Halle-Formation mit ihrem ausgeprägten Vulkanismus und die Hornburg-Formation, stellvertretend für alle jüngeren Abtragungsprodukte des Halle Vulkanitkomplexes, unterschieden werden. Mit einem großen Hiatus folgt anschließend die Eisleben-Formation.:Inhalt Abbildungsverzeichnis Tabellenverzeichnis Abkürzungsverzeichnis 1. Einleitender Teil 1 1.1 Einleitung 1 1.2 Aufgabenstellung und Problematik 1 1.3 Geographischer Überblick über die Bohrungen und Aufschlüsse 2 2. Regionalgeologischer Teil 4 2.1 Aufbau des Halle Vulkanitkomplexes 4 2.2 Beckenentwicklung des Permokarbons im Bereich des Halle- Vulkanitkomplexes 5 2.3 Historischer Rückblick über die Einstufung der Rotliegend-Formationen im Halle Vulkanitkomplex 10 2.4 Neueste Entwicklungen in der Erforschung des Saale-Beckens 15 2.4.1 Die Ablagerungen der Halle-Formation 15 2.4.2 Die Ablagerungen der Sennewitz-Formation 16 2.4.3 Die Ablagerungen der Hornburg-Formation 17 2.4.4 Die Ablagerungen der Brachwitz-Formation 19 2.4.5 Die Ablagerungen der Eisleben-Formation 20 2.4.6 Aktuelle Stratigraphische Gliederung 22 2.5 Die späte Phase des Halle Vulkanitkomplexes und ihr Bezug zur Diplomarbeit 23 3 Arbeitsmethodik 24 3.1 Aufnahme der Bohrungen Brachwitz 2/62 und Lochau 7/65 24 3.2 Aufnahme des Aufschlusses am Teichgrund bei Döblitz 26 3.3 Aufnahme des Aufschlusses am Riveufer im Stadtgebiet von Halle 26 4. Vulkanische und sedimentäre grobklastische Transport- und Ablagerungssysteme 27 4.1 Vulkanische Massentransporte 27 4.1.1 Pyroklastische Ablagerungen 27 4.1.1.1 Pyroklastische Fallablagerungen 28 (1) Aschefallablagerungen 28 (2) Bimsführende Fallablagerungen 29 (3) Scoriaführende Fallablagerungen 29 4.1.1.2 Pyroklastische Stromablagerungen 29 (1) Bimsführende pyroklastische Stromablagerungen oder Ignimbrite 29 (2) Block- und Aschestromablagerungen 31 (3) Scoriaführende pyroklastische Stromablagerungen 32 4.1.1.3 Pyroklastische Surge-Ablagerungen 32 (1) Surgeablagerungen durch Aschewolken 32 (2) Ablagerungen am Boden der pyroklastischen Surge 33 (3) Ablagerungen an der Basis der pyroklastischen Surge 33 4.1.2 Explosive vulkanische Eruptionen 33 (1) Hawaiianische Eruptionen 34 (2) Plinianische Eruptionen 34 (3) Strombolianische Eruptionen 35 (4) Vulkanianische und Surtseyanische Eruptionen 35 4.1.3 Produkte phreatomagmatischer Eruptionen 36 (1) Maare 37 (2) Tuffkegel und Tuffringe 37 4.1.4 Tephraablagerungen 38 4.2 Sedimentäre Massentransporte 39 4.2.1 Alluviale Fächer 40 4.2.2 Schichtfluten 42 4.2.3 Flußsyteme 42 4.2.4 Überflutungsebenen 43 4.2.5 Deltas und Ästuare 44 5. Lithologien und Faziestypen 45 6. Aufschlüsse und Bohrungen 45 6.1 Aufschlußkomplex am Riveufer im Stadtteil Giebichenstein in Halle 48 6.1.1 Allgemeine Aussagen 48 6.1.2 Das Faziesmodell eines verflochtenen Flußsystems 48 (1) Ausbildung von Rinnen 48 (2) Einfallen der Rinnen 50 (3) Prallhänge 50 (4) Seitenanschnitte an beiden Enden des Aufschlusses 51 6.1.3 Ein tuffgefülltes Spaltensystem als syn- bis postsedimentäres Ereignis 52 6.1.4 Interpretation 53 6.2 Aufschluß am Teichgrund bei Döblitz 55 6.2.1 Allgemeine Aussagen 55 6.2.2 Sedimentäre Lithofaziestypen und -assoziationen 56 6.2.3 Dokumentation der einzelnen Aufschlüsse 56 6.2.3.1 Aufschluß T1 56 (1) Detaildarstellung Aufschluß am Teichgrund T1-1 56 6.2.3.2 Aufschluß T2 59 6.2.3.3 Aufschluß T3 59 6.2.4 Fazielle Diskussion 59 6.3 Kernbohrung Brachwitz BrwSk 2/62 südöstlich der Ortschaft Friedrichsschwerz 61 6.3.1 Allgemeine Informationen 61 6.3.2 Erläuterungen zu den Lithofaziestypen 61 (1) SFT-B1 Konglomerat der Eislebenformation 61 (2) SFT-T1 Sedimentäre Brekzie 61 (3) SFT-T4 Mittel- bis Grobsandstein 62 (4) SFT-B2 Schluffstein 62 (5) VFT-T0 Rhyolith, brekziös/ VFT-T1 Porphyrbrekzie, monomikt 63 (6) VFT-B12 Porphyrbrekzie mit Obsidianmatrix 64 (7) VFT-B2 Porphyrbrekzien, oligomikt und polymikt 64 (8) VFT-B3 Mittelsand, vulkanogen 65 (9) VFT-B5 Schluffstein, brekziiert 66 6.3.3 Auswertung 66 6.4 Kernbohrung Lochau 7/65 südöstlich Halle 68 6.4.1 Allgemeines 68 6.4.2 Erläuterungen zu den Vulkanischen Faziestypen 68 (1) VFT-L1 Aschentuff 68 (2) VFT-L2 Surges 69 (3) VFT-L3 Surge oder Explosionsbrekzie 70 (4) VFT-L4 Explosionsbrekzie mit Tuffzwickelfüllung 71 (5) Tuff mit einzelnen Ballistischen Bomben 72 6.4.4 Beispiel Ha-Lo7/17 73 6.4.5 Diskussion 74 7. Zusammenfassung und Ausblick 76 8. Literatur- und Quellenverzeichnis 78 9. Anhang Anlage 1: Allgemeines Anlage 2: Teichgrund bei Döblitz Anlage 3: Riveufer im Stadtzentrum von Halle (Saale) Anlage 4: Kb Brachwitz 2/62 Anlage 5: Kb Lochau 7/65

info:eu-repo/classification/ddc/550

ddc:550