Verfügbarkeit: Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe

Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe: 2 Southeastern Europe and index

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Bibliographische Detailangaben
1. Verfasser:	Mader, Detlef 1954- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Stuttgart [u.a.] Fischer 1992
Schlagworte:	Perm > Geologie Fluviale Sedimentation Trias Europa
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXII S., S. 739 - 1340 Ill., Kt.
ISBN:	1560813385

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MARC


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Datensatz im Suchindex

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adam_text	EVOLUTION OF PALAEOECOLOGY AND PALAEOENVIRONMENT OF PERMIAN AND TRIASSIE FLUVIAL BASINS IN EUROPE VOLUME 2 * SOUTHEASTERN EUROPE AND INDEX DETLEF MADER 30 FIGURES, 123 TABIES, AND 29 PLATES WITH 245 PHOTOGRAPHS )! GUSTAV FISCHER VERLAG SEMPER ~ STUTTGART . NEW YORK . 1992 OVERVIEW PREFACE V OVERVIEW XIII TABLE OF CONTENTS XV LISTS OF ILLUSTRATIONS XXX LEGEND TO THE LITHOGENETICAL FACIES ASSOCIATIONS IN THE COLUMNAR PROFILES XLIV 1 GENERAL ASPEETS OF INVESTIGATED BASINS (DETLEFMADER) 1 2 SOUTH DEVON (ENGLAND) : NEW RED SANDSTONE (UPPER CARBONIFEROUS, PERMIAN AND TRIASSIC) (DETLEF MADER & DERYCK LAMING) 15 3 NOTTINGHAM AREA (ENGLAND) : BUNTSANDSTEIN-FACIES AND KEUPER-FACIES (DETLEFMADER) 155 4 LODEVE AREA (FRANCE) : BUNTSANDSTEIN-FACIES AND KEUPER-FACIES (MICHEL LOPEZ & DETLEF MADER) 227 5 HOLY CROSS MOUNTAINS (POLAND) VS. EIFEL (Q(!RMANY/LUXEMBOURG) : BUNTSANDSTEIN (DETLEF MADER) ~ .. :.;.~ :; ;; ::~.; ;................................................................. 331 6 INTRA SUDETIC BASIN (CZECHOSLOVAKIA/POLAND) : P~RRNIL& AND BUNTSANDSTEIN (DETLEFMADER) 467 7 NORTH SUDETIC BASIN (POLAND) : BUNTSANDSTEIN (DETLEFMADER) 591 8 TATRA MOUNTAINS (POLAND/CZECHOSLOVAKIA) : BUNTSANDSTEIN AND KEUPER (DETLEFMADER) 651 9 UPPER SILESIAN BASIN (POLAND) : BUNTSANDSTEIN (DETLEFMADER) 701 10 MECSEK MOUNTAINS AND BALATON HIGHLANDS (HUNGARY) : PERMIAN AND TRIASSIC (DETLEFMADER) 739 11 TETEVEN ANTIDINORIUM (BULGARIA) : ROTLIEGEND AND BUNTSANDSTEIN (DETLEFMADER & GEORGI (5ATALOV) 853 12 ~~:E~~:E~~L~:~ ~:I:; ~~.~~~~................................................................................................. 919 13 ~~~:F~~:~:~:~:~~~~:I~.~.~~~~~~.~.~~~:.~~~.~~~~~~.: .. ~~~~.~.~.~~~~~................................ 999 14 PETROHAN PASS, TROJAN PASS AND SVITI ILIJA HEIGHTS (BULGARIA) : BUNTSANDSTEIN (DETLEFMADER & GEORGI 6ATALOV) 1041 15 MILANOVO PLATEAU, TETEVEN ANTIDINORIUM, TROJAN BALKAN AND MELJANE ANTIDINE (BULGARIA) : KEUPER-FACIES (DETLEFMADER & GEORGI (5ATALOV) 1079 16 ~:FE~:I~~::~~:~~A; G~~A:~~.~~ .... ~~~.~.~~.~.~~~.~.~.: .. ~.~~~~.~.~~~~~.............................................. 1141 V LF:F:L A;RBJ~SOD L9Z1 XAPU! P.ZOA AEA)L 61 9611 ~S!I AJUA.ZAJAH 81 1811 SUO!LB.Z~SNMJO S~S!1 LI TABLE OF CONTENTS PREFACE V OVERVIEW . XIII TABLE OF CONTENTS XV LISTS OF ILLUSTRATIONS XXX LEGEND TO THE LITHOGENETICAL FACIES ASSOEIATIONS IN THE COLUNMAR PROFILES XLN 1 GENERAL ASPECTS OF INVESTIGATED BASINS (DETLEF MADER) 1 1.1 INTRODUCTION 1 1.2 GERMAN MEGAFAEIES 3 1.3 IBERIAN MEGAFAEIES 7 1.4 ANGLOSAXONIAN MEGAFAEIES 8 1.5 LODEVIAN MEGAFAEIES 10 1.6 ALPINE MEGAFAEIES 12 1.7 TRANSDANUBIAN MEGAFAEIES 12 1.8 BALKANIAN MEGAFAEIES 12 1.9 CARPATHIAN MEGAFAEIES 13 1.10 CLASSIFICATION OFTHE EXAMPLES PRESENTED IN THIS BOOK 14 2 SOUTH DEVON (ENGLAND) : NEW RED SANDSTONE (UPPER CARBONIFEROUS, PERMIAN AND TRIASSIE) (DETLEF MADER & DERYCK LAMING) 15 2.1 INTRODUCTION 21 2.2 REGIONAL GEOLOGY 22 2.2.1 LITHOSTRATIGRAPHY OF THE TRIASSIE IN GREAT BRITAIN 22 2.2.2 STRATIGRAPHICAL INVENTORY 24 2.2.3 FAEIES INVENTORY 25 2.2.4 RESEARCH HISTORY 25 2.3 DISTRIBUTION OFLITHOFAEIES ASSOCIATIONS IN THE STRATIGRAPHICAL SEQUENCE 26 2.3.1 TORBAY FORMATION (UPPER CARBONIFEROUS) 28 2.3.2 LIVERMEAD FORMATION (UPPER CARBONIFEROUS) 30 2.3.3 CHELSTON/PAIGNTON BRECCIAS (UPPER CARBONIFEROUS) 31 2.3.4 WATCOMBE FORMATION (UPPER CARBONIFEROUS) 48 2.3.5 ODDICOMBE BRECCIAS (UPPER CARBONIFEROUS OR LOWER PERMIAN) 48 2.3.6 NESS FORMATION (UPPER CARBONIFEROUS OR LOWER PERMIAN) 49 2.3.7 TEIGNMOUTH BRECCIAS (LOWER PERMIAN) 50 2.3.8 CORYTON BRECCIAS (LOWER PERMIAN) 50 2.3.9 DAWLISH SANDS (LOWER PERMIAN) 50 2.3.10 LANGSTONE BRECCIAS/LOWER PART OFEXMOUTH FORMATION MEGAEYCLE (UPPER PERMIAN)............ 52 2.3.11 MIDDLE AND UPPER PARTS OFEXMOUTH FORMATION (UPPER PERMIAN)............................................ 53 2.3.12 LITTLEHAM MUDSTONES (UPPER PERMIAN) 54 2.3.13 BUDLEIGH SALTERTON PEBBLE BEDS (LOWER TRIASSIE) 55 2.3.14 OTTER SANDSTONES (LOWER TRIASSIE) 56 2.3.15 MERCIA MUDSTONE GROUP (UPPER TRIASSIE) 57 2.3.16 ALLUVIAL-FAN BRECCIAS INCERTAE SEDIS OF NORTH DEVON 58 2.4 INTERPRETATION OF THE DEPOSITIONAL HISTORY 58 2.4.1 TORBAY FORMATION (UPPER CARBONIFEROUS) 60 2.4.2 LIVERMEAD FORMATION 63 VII 2.4.3 CHELSTONFPAIGNTON BRECCIAS (UPPER CARBONIFEROUS) 66 2.4.4 WATCOMBE FORMATION (UPPER CARBONIFEROUS) 66 2.4.5 ODDICOMBE BRECCIAS (UPPER CARBONIFEROUS OR LOWER PERMIAN) 68 2.4.6 NESS FORMATION (UPPER CARBONIFEROUS OR LOWER PERMIAN) 69 2.4.7 TEIGNMOUTH BRECCIAS (LOWER PERMIAN) 70 2.4.8 CORYTON BRECCIAS (LOWER PERMIAN) 72 2.4.9 DAWLISH SANDS (LOWER PERMIAN) 73 2.4.10 LANGSTONE BRECCIASFLOWER PART OFEXMOUTH FORMATION MEGACYCLE (UPPER PERMIAN)............ 78 2.4.11 MIDDLE AND UPPER PARTS OFEXMOUTH FORMATION (UPPER PERMIAN)............................................ 79 2.4.12 LITTLEHAM MUDSTONES (UPPER PERMIAN) 101 2.4.13 BUDLEIGH SALTERTON PEBBLE BEDS (LOWER TRIASSIC) 102 2.4.14 OTTER SANDSTONES (LOWER TRIASSIC) 1.05 2.4.15 MERCIA MUDSTONE GROUP (UPPER TRIASSIC) 112 2.4.16 ALLUVIAL-FAN BRECCIAS INCERTAE SEDIS OF NORTH DEVON 114 2.5 CYCLIC ORGANIZATION OF THE STRATIGRAPHICAL SEQUENCE 115 2.5.1 UPPER CARBONIFEROUS MAGNACYCLE 115 2.5.2 LOWER PERMIAN MAGNACYCLE 116 2.5.3 UPPER PERMIAN MAGNACYCLE 118 2.5.4 TRIASSIC MAGNACYCLE 118 2.6 PALAEOENVIRONMENTAL EVOLUTION IN RESPONSE TO PALAEOTECTONICAL AND PALAEOCLIMATOLOGICAL EVENTS 119 2.6.1 UPPER CARBONIFEROUS MAGNACYCLE 119 2.6.2 LOWER PERMIAN MAGNACYCLE 120 2.6.3 UPPER PERMIAN MAGNACYCLE 122 2.6.4 TRIASSIC MAGNACYCLE 123 2.7 OVERALL PALAEOECOLOGICAL EVQLUTION 126 2.7.1 UPPER CARBONIFEROUS AND LOWER PERMIAN 126 2.7.2 UPPER PERMIAN 127 2.7.3 LOWER TRIASSIC 144 2.7.4 UPPER TRIASSIC 146 2.8 OVERALL PALAEOENVIRONMENTAL EVOLUTION 147 2.8.1 UPPER CARBONIFEROUS AND LOWER PERMIAN MAGNACYCLES 147 2.8.2 UPPER PERMIAN AND TRIASSIC MAGNACYCLES 147 2.9 COMPARATIVE PALAEOENVIRONMENTAL EVALUATION 149 2.9.1 UPPER CARBONIFEROUS AND LOWER PERMIAN 149 2.9.2 UPPER PERMIAN 150 2.9.3 LOWER TRIASSIC 152 2.9.4 CORRELATIONS WITHIN THE NEW RED SANDSTONE 153 2.10 ACKNOWLEDGEMENTS 154 3 NOTTINGHAM AREA (ENGLAND) : BUNTSANDSTEIN-FACIES AND KEUPER-FACIES (DETLEF MADER) 155 3.1 INTRODUCTION 159 3.2 REGIONAL GEOLOGY 159 3.2.1 LITHOSTRATIGRAPHY OF THE TRIASSIC IN GREAT BRITAIN 160 3.2.2 STRATIGRAPHY OFTHE TRIASSIC IN THE NOTTINGHAM AREA 162 3.2.3 RESEARCH HISTORY 162 3.3 DESCRIPTION OF LITHOFACIES ASSOCIATIONS 164 3.3.1 LENTON SANDSTONE FORMATION 164 3.3.2 NOTTINGHAM CASTLE SANDSTONE FORMATION 165 3.3.3 SNEINTON FORMATION 167 VIII 3.3.4 RADCLIFFE FORMATION 167 3.3.5 GUNTHORPE FORMATION AND EDWALTON FORMATION 168 3.3.6 CROPWELL BISHOP FORMATION 168 3.3.7 BLUE ANCHOR FORMATION, WESTBURY FORMATION AND LILSTOCK FORMATION 169 3.3.8 TRIASSIE SEDIMENTS OF THE CHARNWOOD FOREST 169 3.3.9 TRIASSIE SEDIMENTS OF THE ALDERLEY EDGE 172 3.4 INTERPRETATION OF DEPOSITIONAL ENVIRONMENT. 174 3.4.1 LENTON SANDSTONE FORMATION 174 3.4.2 NOTTINGHAM CASTLE SANDSTONE FORMATION 176 3.4.3 SNEINTON FORMATION 180 3.4.4 RADCLIFFE FORMATION 182 3.4.5 GUNTHORPE FORMATION AND EDWALTON FORMATION 182 3.4.6 CROPWELL BISHOP FORMATION 183 3.4.7 BIUE ANCHOR FORMATION, WESTBURY FORMATION AND LILSTOCK FORMATION 184 3.4.8 TRIASSIC SEDIMENTS OF THE CHARNWOOD FOREST 184 3.4.9 TRIASSIE SEDIMENTS OF THE ALDERLEY EDGE 187 3.5 RECONSTRUCTION OF SEDIMENTARY HISTORY 189 3.5.1 LENTON SANDSTONE FORMATION 190 3.5.2 NOTTINGHAM CASTLE SANDSTONE FORMATION 190 3.5.3 SNEINTON FORMATION 191 3.5.4 RADCLIFFE FORMATION AND GUNTHORPE FORMATION 191 3.5.5 EDWALTON FORMATION 192 3.5.6 CROPWELL BISHOP FORMATION 192 3.5.7 BIUE ANCHOR FORMATION, WESTBURY FORMATION AND LILSTOCK FORMATION 192 3.5.8 TRIASSIE SEDIMENTS OF THE CHARNWOOD FOREST 193 3.5.9 TRIASSIE SEDIMENTS OF THE ALDERLEY EDGE 194 3.6 PALAEOECOLOGICAL AND PALAEOCLIMATOLOGICAL EVOLUTION 197 3.6.1 SHERWOOD SANDSTONE GRAUP 197 3.6.2 SNEINTON FORMATION 199 3.6.3 MERCIA MUDSTONE GROUP 200 3.7 OVERALL PALAEOENVIRONMENTAL EVOLUTION 201 3.7.1 EVOLUTION OFPALAEOENVIRONMENTAL STYLE 201 3.7.2 MAIN STAGES OF SEDIMENTARY HISTORY 202 3.7.3 GENERAL DEPOSITIONAL MODELLING 202 3.7.4 PALAEOGEOGRAPHICAL BASIN ZONATION 204 3.8 COMPARATIVE PALAEOENVIRONMENTAL EVALUATION 206 3.8.1 LENTON SANDSTONE FORMATION 206 3.8.2 NOTTINGHAM CASTLE SANDSTONE FORMATION 206 3.8.3 SNEINTON FORMATION 207 3.8.4 MERCIA MUDSTONE GROUP 224 3.9 ACKNOWLEDGEMENTS 225 4 LODEVE AREA (FRANCE) : BUNTSANDSTEIN-FAEIES AND KEUPER-FAEIES (MICHEL LOPEZ & DETLEF MADER) 227 4.1 INTRODUCTION 231 4.2 GEOLOGICAL SETTING 232 4.3 STRATIGRAPHY OF THE TRIASSIE 232 4.3.1 TRADITIONALLITHOSTRATIGRAPHICAL DIVISION 232 4.3.2 REVISED LITHOSTRATIGRAPHICAL DIVISION 234 4.3.3 CHRONOSTRATIGRAPHY 234 4.3.4 LATERAL VARIATION OF COMPOSITION AND DISTRIBUTION OF SEDIMENTARY FACIES 237 IX 4.3.5 RESEARCH HISTORY 238 4.4 TOP OF THE UNDERLYING PENNIAN BASEMENT 240 4.4.1 DESCRIPTION 240 4.4.2 INTERPRETATION 242 4.5 LOWER FORMATION (BUNTSANDSTEIN-FACIES) 244 4.5.1 LOWER SANDSTONES AND CONGLOMERATES 244 4.5.2 LOWER MUDSTONES 276 4.5.3 UPPER SANDSTONES AND CONGLOMERATES 279 4.5.4 AEOLIAN SANDS 283 4.5.5 PALAEOSOLS 285 4.5.6 AGGRADATION OF CHANNELS 292 4.6 MIDDLE FORMATION (KEUPER-FACIES) 298 4.6.1 DESCRIPTION 298 4.6.2 INTERPRETATION 298 4.7 UPPER FORMATION (KEUPER-FACIES) 299 4.7.1 DESCRIPTION 299 4.7.2 INTERPRETATION 300 4.8 RHAETIAN FORMATION 300 4.8.1 LOWER MEMBER 301 4.8.2 UPPER MEMBER 306 4.8.3 THE PARLATGES FACIES AT THE BASE OFTHE LIASSIC 307 4.9 PALAEOENVIRONMENTAL EVOLUTION OFTHE ALLUVIAL PLAIN 307 4.9.1 TOP OFTHE UNDERLYING PERMIAN BASEMENT 308 4.9.2 LOWER CONGLOMERATES 308 4.9.3 DOLOMITE BRECCIA 310 4.9.4 LOWER SANDSTONES 310 4.9.5 LOWER MUDSTONES 312 4.9.6 UPPER SANDSTONES AND CONGLOMERATES 314 4.9.7 MIDDLE FORMATION, UPPER FORMATION AND RHAETIAN FORMATION (KEUPER-FACIES) 315 4.9.8 OVERALL COURSE OFTHE DEPOSITIONAL HISTORY 316 4.10 PALAEOCLIMATE AND SIGNIFICANCE OF DOLOCRETE PALAEOSOLS 318 4.10.1 LOWER FORMATION (BUNTSANDSTEIN-FACIES) 318 4.10.2 MIDDLE FORMATION, UPPER FORMATION AND RHAETIAN FORMATION (KEUPER-FACIES) 320 4.11 COMPARATIVE EVALUATION 321 4.11.1 INLAND AND COASTAL BRAIDPLAINS OFMUSCHELKALK SEA....................................................................... 321 4.11.2 PROGRADATION AND RETROGRADATION OFALLUVIAL PLAINS 322 4.11.3 SIGNIFICANCE OF SYMMETRICALLARGE-SCALE CYCLES 324 4.11.4 COEXISTENCE OFPEDOGENIC AND NON-PEDOGENIC CARBONATES 325 4.11.5 COMPARATIVE EXAMPLES OFPALAEOENVIRONMENTAL EVOLUTION 325 4.12 PALAEOECOLOGICAL EVOLUTION 327 4.12.1 LOWER AND UPPER SANDSTONES AND CONGLOMERATES 327 4.12.2 LOWER MUDSTONES 328 4.13 ACKNOWLEDGEMENTS 330 5 HOLY CROSS MOUNTAINS (POLAND) VS. EIFEL (GERMANYJLUXEMBOURG) : BUNTSANDSTEIN (DETIEFMADER) 331 5.1 INTRODUCTION 338 5.1.1 FACTORS INFLUENCING THE EVOLUTION OFFLUVIAL STYLE 338 X 5.1.2 TYPES OF EVOLUTION OFFLUVIAL STYLE IN THE BUNTSANDSTEIN . 5.1.3 COMPARABILITY OFFLUVIAL EVOLUTION IN HOLY CROSS MOUNTAINS AND EIFEL . 5.2 REGIONAL GEOLOGY OF THE BUNTSANDSTEIN IN HOLY CROSS MOUNTAINS AND EIFEL .. 5.2.1STRATIGRAPHY AND PALAEOENVIRONMENT OFTHE BUNTSANDSTEIN IN THE HOLY CROSS MOUN- TAINS . 5.2.2 COMPARATIVE EVALUATION OF THE BUNTSANDSTEIN IN HOLY CROSS MOUNTAINS AND EIFEL . 5.2.3 RESEARCH HISTORY OFTHE BUNTSANDSTEIN IN THE HOLY CROSS MOUNTAINS .. 5.2.4 DISTRIBUTION OFOUTCROPS OF THE BUNTSANDSTEIN IN THE HOLY CROSS MOUNTAINS .. 5.3 EVOLUTION OFFLUVIAL STYLE IN THE BUNTSANDSTEIN OFTHE NORTHEASTERN HOLY CROSS MOUN- TAINS . 5.3.1 PASSAGE BEDS . 5.3.2 CZERWONA G6RA BEDS . 5.3.3 STRYCZOWICE BEDS . 5.3.4 LABYRINTHODONTIDAE BEDS .. 5.3.5 HIEROGLYPHIC BEDS AND PSEUDOOOLITHIC BEDS .. 5.3.6 UPPER BUNTSANDSTEIN . 5.3.7 EVALUATION . 5.4 EVOLUTION OF FLUVIAL AND AEOLIAN STYLE IN THE BUNTSANDSTEIN OF THE NORTHWESTERN HOLY CROSS MOUNTAINS . ~:::~ ~=S~E~~:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: 5.4.3 TUMLIN BEDS . 5.4.4 HIGHER MEMBERS OF MIDDLE BUNTSANDSTEIN . 5.4.5 UPPER BUNTSANDSTEIN . 5.4.6 EVALUATION . 5.5 EVOLUTION OF FLUVIAL STYLE IN THE BUNTSANDSTEIN OF THE EIFEL . 5.5.1 FIRST MEGACYCLE . 5.5.2 SECOND MEGACYCLE . 5.5.3 THIRD MEGACYCLE . 5.5.4 THE MAGNACYCLE AND POSITION IN THE BASIN MODEL .. 5.6 COMPARISON OF THE EVOLUTION OF FLUVIAL STYLE IN THE BUNTSANDSTEIN OF HOLY CROSS MOUN- TAINS AND EIFEL . 5.6.1 FIRST MEGACYCLE . 5.6.2 SECOND MEGACYCLE . 5.6.3 THIRD MEGACYCLE . 5.6.4 THE MAGNACYCLE . 5.7 GENERAL PALAEOENVIRONMENTAL EVOLUTION . 5.7.1 EVOLUTION OFFLUVIAL STYLE . 5.7.2 MAIN STAGES OFTHE SEDIMENTARY HISTORY .. 5.7.3 OVERALL DEPOSITIONAL MODELLING . 5.7.4 PALAEOGEOGRAPHICAL BASIN ZONATION . 339 339 341 341 348 349 350 351 351 354 356 358 361 362 365 369 370 374 377 384 384 387 390 392 393 396 398 400 401 407 413 418 422 422 426 428 429 5.8 PALAEOECOLOGICAL AND PALAEOCLIMATOLOGICAL EVOLUTION 429 5.8.1 HOLY CROSS MOUNTAINS 430 5.8.2 EIFEL........................................................................................................................................................ 441 5.9 COMPARATIVE PALAEOENVIRONMENTAL EVALUATION 451 5.9.1 HOLY CROSS MOUNTAINS 451 5.9.2 EIFEL 457 5.10 PALAEOGEOGRAPHICAL CONSTELLATION 462 5.10.1 PROVENANCE AREA AND PALAEOTRANSPORT DIREETIONS IN THE MIDDLE BUNTSANDSTEIN....................... 462 5.10.2 PROVENANCE AREA AND PALAEOTRANSPORT DIREETIONS IN THE UPPER BUNTSANDSTEIN 463 5.10.3 PROGRESSIVE ONLAP ON THE PRE-TRIASSIC BASEMENT 464 XI 5.10.4 PRIMARY EXTENSION OFTHE BUNTSANDSTEIN COVER 464 5.11 ACKNOWLEDGEMENTS 465 6 INTRA SUDETIC BASIN (CZECHOSLOVAKIA/POLAND): PERMIAN AND BUNTSANDSTEIN (DETLEF MADER) 467 6.1 INTRODUCTION 474 6.1.1 IMPACT OFPOLITICAL RESTRUCTURING ON GEOLOGICAL RESEARCH 474 6.1.2 RESEARCH HISTORY OFPERMIAN AND TRIASSIC IN THE SUDETES 474 6.1.3 INTEGRATED APPROACH TO PERMIAN AND TRIASSIC IN THE INTRA SUDETIC BASIN .. 477 6.1.4 EMPHASIS AND SCOPE OFTHE DISCUSSION 477 6.2 REGIONAL GEOLOGY 478 6.2.1 NORTH SUDETIC BASIN 478 6.2.2 INTRA SUDETIC BASIN 480 6.2.3 KRKONOE PIEDMONT BASIN 480 6.2.4 STRATIGRAPHY 482 6.2.5 DISTRIBUTION OF OUTCROPS 485 6.2.6 SCHEDULE OFTHE REVIEW 486 6.3 DESCRIPTION OFLITHOFACIES ASSOCIATIONS 486 6.3.1 TRUTNOV FORMATION (UPPER ROTLIEGEND) 487 6.3.2 BOHUSLAVICE FORMATION (ZECHSTEIN) 495 6.3.3 BOHDA8 INFORMATION (BUNTSANDSTEIN) 501 6.4 INTERPRETATION OF SEDIMENTARY ENVIRONMENT 508 6.4.1 TRUTNOV FORMATION (UPPER ROTLIEGEND) 509 6.4.2 BOHUSLAVICE FORMATION (ZECHSTEIN) 525 6.4.3 BOH~FN FORMATION (BUNTSANDSTEIN) 536 6.5 RECONSTRUCTION OF DEPOSITIONAL HISTORY 557 6.5.1 GENERAL EVOLUTION OFTHE MEGACYCLES 557 6.5.2 TRUTNOV FORMATION (UPPER ROTLIEGEND) 560 6.5.3 BOHUSLAVICE FORMATION (ZECHSTEIN) 565 6.5.4 BOHDIN FORMATION (BUNTSANDSTEIN) 569 6.6 OVERALL PALAEOENVIRONMENTAL EVOLUTION 573 6.6.1 TRUTNOV FORMATION (UPPER ROTLIEGEND) 573 6.6.2 BOHUSLAVICE FORMATION (ZECHSTEIN) 574 6.6.3 BOHDIN FORMATION (BUNTSANDSTEIN) 574 6.6.4 MAIN STAGES OFTHE SEDIMENTARY HISTORY 575 6.6.5 GENERAL DEPOSITIONAL MODELLING 576 6.6.6 PALAEOGEOGRAPHICAL BASIN ZONATION 576 6.7 PALAEOECOLOGICAL AND PALAEOCLIMATOLOGICAL EVOLUTION 577 6.7.1 LOWER AND MIDDLE PARTS OF THE TRUTNOV FORMATION 577 6.7.2 UPPER PART OFTHE TRUTNOV FORMATION AND BOHUSLAVICE FORMATION............................................. 578 6.7.3 LOWER AND MIDDLE PARTS OFTHE BOHD~FN FORMATION 580 6.7.4 UPPER PART OFTHE BOHDA1FN FORMATION 581 6.8 COMPARATIVE PALAEOENVIRONMENTAL EVALUATION 584 6.8.1 LOWER PART OFTHE TRUTNOV FORMATION 584 6.8.2 MIDDLE PART OFTHE TRUTNOV FORMATION 586 6.8.3 UPPER PART OF THE TRUTNOV FORMATION AND BOHUSLAVICE FORMATION 587 6.8.4 LOWER AND MIDDLE PARTS OF THE BOHDA1FN FORMATION 588 6.8.5 UPPER PART OFTHE BOHDIN FORMATION 589 6.9 ACKNOWLEDGEMENTS 589 XII 7 NORTH SUDETIC BASIN (POLAND) : BUNTSANDSTEIN (DETLEF MADER) 591 7.1 INTRODUCTION 594 7.2 REGIONAL GEOLOGY AND RESEARCH HISTORY 595 7.2.1 EARLIER GEOLOGICAL AND SEDIMENTOLOGICAL INVESTIGATIONS 596 7.2.2 IMPACT OFTHE NEW STUDIES 596 7.2.3 STRATIGRAPHY OF THE BUNTSANDSTEIN 597 7.2.4 DISTRIBUTION OF OUTCROPS 602 7.2.5 RESEARCH HISTORY 603 7.3 DESCRIPTION OF SEDIMENTARY FAEIES 604 7.3.1 AEOLIAN SEDIMENTS 604 7.3.2 FLUVIAL SEDIMENTS 606 7.3.3 PEDOGENIC FEATURES 608 7.3.4 LOWER BUNTSANDSTEIN 608 7.3.5 UPPER BUNTSANDSTEIN 609 7.4 INTERPRETATION OF DEPOSITIONAL ENVIRONMENT 610 7.4.1 AEOLIAN SEDIMENTS 611 7.4.2 FLUVIAL SEDIMENTS 616 7.4.3 PEDOGENIC FEATURES 622 7.4.4 LOWER BUNTSANDSTEIN 623 7.4.5 UPPER BUNTSANDSTEIN 624 7.5 RECONSTRUCTION OF SEDIMENTARY HISTORY 625 7.5.1 GENERAL EVOLUTION OFTHE FLUVIAL MEGACYCLES 625 7.5.2 LOWER BUNTSANDSTEIN 626 7.5.3 MIDDLE BUNTSANDSTEIN 627 7.5.4 UPPER BUNTSANDSTEIN 632 7.6 OVERALL PALAEOENVIRONMENTAL EVOLUTION 633 7.6.1 EVOLUTION OFFLUVIAL STYLE 633 7.6.2 MAIN STAGES OFTHE SEDIMENTARY HISTORY 635 7.6.3 GENERAL DEPOSITIONAL MODELLING 635 7.6.4 PALAEOGEOGRAPHICAL BASIN ZONATION 636 7.7 PALAEOECOLOGICAL AND PALAEOCLIMATOLOGICAL EVOLUTION 636 7.7.1 LOWER BUNTSANDSTEIN 636 7.7.2 MIDDLE BUNTSANDSTEIN 637 7.7.3 LOWER PART OFUPPER BUNTSANDSTEIN 638 7.7.4 MIDDLE AND UPPER PARTS OFUPPER BUNTSANDSTEIN 640 7.8 COMPARATIVE PALAEOENVIRONMENTAL EVOLUTION 640 7.8.1 LOWER BUNTSANDSTEIN 640 7.8.2 MIDDLE BUNTSANDSTEIN 641 7.8.3 LOWER PART OFUPPER BUNTSANDSTEIN 648 7.8.4 MIDDLE AND UPPER PARTS OFUPPER BUNTSANDSTEIN 648 7.9 ACKNOWLEDGEMENTS 649 8 TATRA MOUNTAINS (POLANDJCZECHOSLOVAKIA) : BUNTSANDSTEIN AND KEUPER (DETLEF MADER) 651 8.1 INTRODUCTION 654 8.2 REGIONAL GEOLOGY 654 8.2.1 DISTRIBUTION OFHIGH-TATRIC SERIES AND SUB-TATRIC SERIES 655 8.2.2 STRATIGRAPHY OFTHE TRIASSIC IN THE HIGH-TATRIC SERIES 656 8.2.3 MEGACYCLIC AND MAGNACYCLIC ORGANIZATION OF THE TRIASSIC 658 XIII 8.2.4 RESEARCH HISTORY 659 8.2.5 DISTRIBUTION OF OUTCROPS .,. 660 8.3 DESCRIPTION OF SEDIMENTARY FAEIES 661 8.3.1 MIDDLE BUNTSANDSTEIN AND GRAVELLY SANDSTONE COMPLEXES IN THE MIDDLE KEUPER 661 8.3.2 LOWER PART OF UPPER BUNTSANDSTEIN AND LOWER AND UPPER PARTS OF MIDDLE KEUPER 663 8.3.3 UPPER PART OF UPPER BUNTSANDSTEIN AND MIDDLE PART OF MIDDLE KEUPER 664 8.3.4 FLUVIAL RHAETIAN 665 8.3.5 CAMPILIAN, ANISIAN, LADINIAN AND MARINE RHAETIAN 666 8.4 INTERPRETATION OF DEPOSITIONAL ENVIRONMENT 667 8.4.1 MIDDLE BUNTSANDSTEIN AND GRAVELLY SANDSTONE COMPLEXES IN THE MIDDLE KEUPER 668 8.4.2 LOWER PART OFUPPER BUNTSANDSTEIN AND LOWER AND UPPER PARTS OFMIDDLE KEUPER 669 8.4.3 UPPER PART OF UPPER BUNTSANDSTEIN AND MIDDLE PART OF MIDDLE KEUPER 671 8.4.4 FLUVIAL RHAETIAN 673 8.4.5 CAMPILIAN, ANISIAN, LADINIAN AND MARINE RHAETIAN 674 8.5 RECONSTRUCTION OF DEPOSITIONAL HISTORY 674 8.5.1 OVERALL EVOLUTION OFTHE MAGNACYCLE 675 8.5.2 MIDDLE BUNTSANDSTEIN 676 8.5.3 UPPER BUNTSANDSTEIN 678 8.5.4 CAMPILIAN, ANISIAN AND LADINIAN 678 8.5.5 MIDDLE KEUPER ;............................................................................. .... 679 8.5.6 UPPERMOST PART OF MIDDLE KEUPER AND LOWER PART OFRHAETIAN 680 8.5.7 UPPER PART OFRHAETIAN 682 8.5.8 OVERALL EVOLUTION OF DEPOSITIONAL STYLE 683 8.5.9 SYMMETRICAL TRIASSIC PALAEOENVIRONMENTAL MAGNACYCLE 686 8.5.10 MAIN STAGES OF THE SEDIMENTARY HISTORY 688 8.5.11 GENERAL DEPOSITIONAL MODELLING 688 8.5.12 PALAEOGEOGRAPHICAL BASIN ZONATION 689 8.6 PALAEOECOLOGICAL AND PALAEOCLIMATOLOGICAL EVOLUTION 689 8.6.1 MIDDLE BUNTSANDSTEIN 689 8.6.2 UPPER BUNTSANDSTEIN AND MIDDLE KEUPER 690 8.6.3 GRAVELLY SANDSTONE COMPLEXES IN THE MIDDLE KEUPER 692 8.6.4 FLUVIAL RHAETIAN 693 8.6.5 CAMPILIAN, ANISIAN, LADINIAN, MARINE RHAETIAN AND JURASSIC 693 8.7 COMPARATIVE PALAEOENVIRONMENTAL EVALUATION 694 8.7.1 MIDDLE BUNTSANDSTEIN 694 8.7.2 LOWER PART OFUPPER BUNTSANDSTEIN AND LOWER AND UPPER PARTS OFMIDDLE KEUPER 695 8.7.3 UPPER PART OFUPPER BUNTSANDSTEIN AND MIDDLE PART OFMIDDLE KEUPER..................................... 696 8.7.4 FLUVIAL RHAETIAN AND GRAVELLY SANDSTONE COMPLEXES IN THE MIDDLE KEUPER 697 8.7.5 CAMPILIAN, ANISIAN, LADINIAN AND MARINE RHAETIAN 697 8.7.6 GENERAL COMPARATIVE EVALUATION OFMIDDLE EUROPE AND TATRA MOUNTAINS.................................. 698 8.8 ACKNOWLEDGEMENTS 699 9 UPPER SILESIAN BASIN (POLAND) : BUNTSANDSTEIN (DETLEF MADER) 701 9.1 INTRODUCTION 703 9.2 REGIONAL GEOLOGY 704 9.2.1 TRADITIONALLITHOSTRATIGRAPHY AND ITS MODIFICATIONS 704 9.2.2 PALAEOGEOGRAPHY AND THICKNESS DISTRIBUTION 706 9.2.3 RELIEF OF THE PRE-TRIASSIC BASEMENT 706 9.2.4 REVISED LITHOSTRATIGRAPHY 707 9.2.5 DISTRIBUTION OF OUTCROPS 709 9.2.6 RESEARCH HISTORY 709 XN 9.3 DESCRIPTION OF SEDIMENTARY FACIES 710 9.3.1 BASAL CONGLOMERATE AND TOP OF PALAEOZOIC BASEMENT 710 9.3.2 MIDDLE BUNTSANDSTEIN 711 9.3.3 LOWER PART OFUPPER BUNTSANDSTEIN 712 9.3.4 MIDDLE AND UPPER PARTS OFUPPER BUNTSANDSTEIN 713 9.3.5 DISTINCTION OFTWO FLUVIAL MEGACYCLES 714 9.4 INTERPRETATION OF DEPOSITIONAL ENVIRONMENT 715 9.4.1 BASAL CONGLOMERATE AND TOP OFPALAEOZOIC BASEMENT..................................................................... 715 9.4.2 MIDDLE BUNTSANDSTEIN 716 9.4.3 LOWER PART OFUPPER BUNTSANDSTEIN 718 9.4.4 MIDDLE AND UPPER PARTS OFUPPER BUNTSANDSTEIN 722 9.5 RECONSTRUCTION OF SEDIMENTARY HISTORY 723 9.5.1 BASAL CONGLOMERATE 724 9.5.2 MIDDLE BUNTSANDSTEIN 724 9.5.3 LOWER PART OFUPPER BUNTSANDSTEIN 726 9.5.4 MIDDLE AND UPPER PARTS OFUPPER BUNTSANDSTEIN 727 9.5.5 OVERALL PALAEOENVIRONMENTAL EVOLUTION 728 9.5.6 GENERAL DEPOSITIONAL MODELLING 729 9.6 PALAEOECOLOGICAL AND PALAEOCLIMATOLOGICAL EVOLUTION 730 9.6.1 MIDDLE BUNTSANDSTEIN 730 9.6.2 LOWER PART OFUPPER BUNTSANDSTEIN 732 9.6.3 MIDDLE AND UPPER PARTS OFUPPER BUNTSANDSTEIN 734 9.7 COMPARATIVE PALAEOENVIRONMENTAL EVALUATION 735 9.7.1 MIDDLE BUNTSANDSTEIN 735 9.7.2 LOWER PART OFUPPER BUNTSANDSTEIN 735 9.7.3 MIDDLE AND UPPER PARTS OFUPPER BUNTSANDSTEIN 736 9.7.4 CORRELATION OFTHE EVOLUTION OFFLUVIAL STYLE 737 9.8 ACKNOWLEDGEMENTS 738 10 MECSEK MOUNTAINS AND HALATON HIGHLANDS (HUNGARY) : PERMIAN AND TRIASSIC (DETLEF MADER) 739 10.1 INTRODUCTION 744 10.2 REGIONAL GEOLOGY AND RESEARCH HISTORY 746 10.2.1 STRATIGRAPHICAL POSITION OFTHE JAKABHEGY SANDSTONE FORMATION 746 10.2.2 STRATIGRAPHICAL CORRELATION WITH OTHER AREAS 748 10.2.3 DEPOSITIONAL ENVIRONMENT OFTHE JAKABHEGY SANDSTONE FORMATION 749 10.3 DESCRIPTION OFSEDIMENTARY FACIES IN THE J AKABHEGY SANDSTONE FORMATION 750 10.3.1 CHANNEL DEPOSITS 750 10.3.2 OVERBANK SEDIMENTS 753 10.3.3 PALAEOSOLS AND AEOLIAN SANDS 754 10.3.4 COASTAL SABKHA TO MARINE MUD FLAT SEDIMENTS.. 755 10.4 INTERPRETATION OF DEPOSITIONAL ENVIRONMENT IN THE JAKABHEGY SANDSTONE FORMATION 755 10.4.1 CHANNEL DEPOSITS 756 10.4.2 OVERBANK SEDIMENTS 760 10.4.3 PALAEOSOLS 762 10.4.4 AEOLIAN DUNE AND SHEET SANDS 764 10.4.5 COASTAL SABKHA TO MARINE MUD FLAT SEDIMENTS 764 10.5 DESCRIPTION OF THE CYCLIC COMPOSITION OF THE PERMIAN AND TRIASSIC IN THE MECSEK MOUNTAINS 765 10.5.1 CSERDI CONGLOMERATE FORMATION AND BODA ALEUROLITE FORMATION 766 XV 10.5.2 KOEVAGOSZOELOESSANDSTONE FORMATION 767 10.5.3 FIRST MEGACYCLE OF THE JAKABHEGY SANDSTONE FORMATION 785 10.5.4 SECOND MEGACYCLE OFTHE JAKABHEGY SANDSTONE FORMATION 786 10.5.5 THIRD MEGACYCLE OFTHE JAKABHEGY SANDSTONE FORMATION 786 10.5.6 FOURTH MEGACYCLE OFTHE JAKABHEGY SANDSTONE FORMATION 787 10.5.7 ANISIAN 787 10.5.8 OVERALL CYCLICITY 788 10.6 INTERPRETATION OF DEPOSITIONAL HISTORY AND EVOLUTION OF FLUVIAL STYLE IN THE PER- MIAN AND TRIASSIE OF THE MECSEK MOUNTAINS 788 10.6.1 MEGACYCLIC AND MAGNACYCLIC EVOLUTION OFTHE PERMIAN AND TRIASSIC FLUVIAL SYS- TEMS 789 10.6.2 KORPAED SANDSTONE FORMATION 790 10.6.3 CSERDI CONGLOMERATE FORMATION AND BODA ALEUROLITE FORMATION 791 10.6.4 KOEVAGOSZOELOESSANDSTONE FORMATION 792 10.6.5 FIRST MEGACYCLE OFTHE JAKABHEGY SANDSTONE FORMATION 796 10.6.6 SECOND MEGACYCLE OFTHE JAKABHEGY SANDSTONE FORMATION 798 10.6.7 THIRD MEGACYCLE OFTHE JAKABHEGY SANDSTONE FORMATION 801 10.6.8 FOURTH MEGACYCLE OF THE JAKABHEGY SANDSTONE FORMATION 804 10.6.9 ANISIAN 805 10.6.10 EVALUATION 807 10.7 DESCRIPTION OF SEDIMENTARY FADES AND CYCLIC ORGANIZATION OF THE BALATON RED SAND- STONE FORMATION 812 10.7.1 GENERAL SETTING 814 10.7.2 COMPOSITION OFLITHOFACIES 814 10.7.3 CYCLIC ORGANIZATION 816 10.8 INTERPRETATION OF DEPOSITIONAL ENVIRONMENT IN THE BALATON RED SANDSTONE FORMATION 816 10.8.1 CHANNEL SEDIMENTATION 817 10.8.2 FRESHWATER OVERBANK DEPOSITION AND EVAPORITIC FLOODPLAIN PLAYA SEDIMENTATION 818 10.8.3 CALCRETE PEDOGENESIS 819 10.9 INTERPRETATION OF SEDIMENTARY HISTORY AND EVOLUTION OF FLUVIAL STYLE IN THE BALATON RED SANDSTONE FORMATION 820 10.9.1 FIRST MEGACYCLE OFTHE BALATON RED SANDSTONE FORMATION 821 10.9.2 SECOND MEGACYCLE OFTHE BALATON RED SANDSTONE FORMATION 822 10.9.3 THIRD MEGACYCLE OF THE BALATON RED SANDSTONE FORMATION 822 10.9.4 FOURTH MEGACYCLE OFTHE BALATON RED SANDSTONE FORMATION 824 10.9.5 WERFEN FORMATION 825 10.9.6 EVALUATION 825 10.10 COMPARATIVE ASSESSMENT OFJAKABHEGY SANDSTONE FORMATION AND BALATON RED SANDSTONE FORMATION 827 10.10.1 PALAEOGEOGRAPHY AND PALAEOCLIMATOLOGY 827 10.10.2 PALAEOTECTONICS AND EVOLUTION OFFLUVIAL STYLE 828 10.10.3 STRATIGRAPHY 828 10.11 CORRELATION OFTHE JAKABHEGY SANDSTONE FORMATION WITH THE GERMAN BUNTSAND- STEIN AND STRATIGRAPHICAL IMPACT 829 10.11.1 INTERBASINAL PALAEOENVIRONMENTAL CONNECTION 829 10.11.2 LIMITATIONS OFTHE PALAEOGEOGRAPHICAL AND PALAEOTECTONICAL EVALUATION 831 10.12 OVERALL PALAEOENVIRONMENTAL EVOLUTION 831 10.12.1 EVOLUTION OFFLUVIAL STYLE 831 10.12.2 MAIN STAGES OFTHE SEDIMENTARY HISTORY 833 10.12.3 OVERALL DEPOSITIONAL MODELLING 834 10.12.4 PALAEOGEOGRAPHICAL BASIN ZONATION 835 XVI 10.13 PALAEOECOLOGICAL AND PALAEOCLIMATOLOGICAL EVOLUTION 835 10.13.1 COARSE CONGLOMERATE COMPLEXES IN VARIOUS STRATIGRAPHICAL MEMBERS 836 10.13.2 KORPAED SANDSTONE FORMATION, CSERDI CONGLOMERATE FORMATION AND LOWER TO MIDDLE PARTS OF KOEVAGOESZOELOESSANDSTONE FORMATION 836 10.13.3 BODA ALEUROLITE FORMATION 838 10.13.4 UPPER PART OFKOEVAG6SZOELOES SANDSTONE FORMATION 839 10.13.5 LOWER TO MIDDLE PARTS OF JAKABHEGY SANDSTONE FORMATION 841 10.13.6 UPPER PART OFJAKABHEGY SANDSTONE FORMATION 842 10.13.7 PATACS MEMBER 844 10.13.8 MAGYARFUOEG ANHYDRITE MEMBER 845 10.13.9 BALATON RED SANDSTONE FORMATION 846 10.14 COMPARATIVE PALAEOENVIRONMENTAL EVALUATION 847 10.14.1 COARSE CONGLOMERATE COMPLEXES IN VARIOUS STRATIGRAPHICAL MEMBERS 847 10.14.2 KORPAED SANDSTONE FORMATION, CSERDI CONGLOMERATE FORMATION AND KOEVAGOESZOELOES SANDSTONE FORMATION 848 10.14.3 BODA ALEUROLITE FORMATION 848 10.14.4 LOWER TO MIDDLE PARTS OF JAKABHEGY SANDSTONE FORMATION 850 10.14.5 UPPER PART OF JAKABHEGY SANDSTONE FORMATION AND BALATON RED SANDSTONE FORMA- TION 850 10.14.6 ANISIAN 851 10.15 ACKNOWLEDGEMENTS 852 11 TETEVEN ANTICLINORIUM (ULGARIA) : ROTLIEGEND AND BUNTSANDSTEIN (DETLE! MADER & GEORGI TATALOV) 853 11.1 INTRODUCTION 856 11.2 BUNTSANDSTEIN 860 11.2.1 REGIONAL GEOLOGY 860 11.2.2 LOWER CONGLOMERATES 863 11.2.3 MIDDLE CONGLOMERATES AND SANDSTONES 868 11.2.4 UPPER SANDSTONES AND MUDSTONES 876 11.2.5 TERMINAL MUDSTONES 881 11.2.6 EVOLUTION OFFLUVIAL STYLE 884 11.3 AEOLIAN ROTLIEGEND IN THE NORTHERN LIMB 889 11.3.1 LITHOFACIES DESCRIPTION 890 11.3.2 LITHOGENETICAL INTERPRETATION 891 11.3.3 PALAEOGEOGRAPHICAL CONSTELLATION 893 11.3.4 COMPARATIVE PALAEOENVIRONMENTAL MODELLING 894 11.4 FLUVIAL ROTLIEGEND IN THE SOUTHERN LIMB 898 11.4.1 REGIONAL GEOLOGY 898 11.4.2 LOWER CONGLOMERATES 900 11.4.3 MIDDLE GRAVELLY SANDSTONES 903 11.4.4 UPPER SANDSTONES 908 11.4.5 EVOLUTION OFFLUVIAL STYLE 911 11.4.6 PALAEOGEOGRAPHICAL CONSTELLATION 913 11.5 ACKNOWLEDGEMENTS 917 12 ~~~:;~:~~~;;~~:~: ~::~:~~~~~~~................................................................................ 919 12.1 INTRODUCTION 922 12.2 DISTRIBUTION OF AEOLIAN SANDS AND CALCRETE PALAEOSOLS IN THE EUROPEAN BUNTSAND- STEIN 922 XVII 12.3 OCCURRENCE OF CALCRETE PALAEOSOLS AND AEOLIAN SANDS IN THE BUNTSANDSTEIN OF BULGA- RIA 923 12.4 STRATIGRAPHY OFTHE BUNTSANDSTEIN IN BULGARIA 924 12.4.1 DIVISION OF THE BUNTSANDSTEIN INTO INFORMALLITHOFACIES UNITS AND THEIR VARIABI. LITY 924 12.4.2 OCCURRENCE AND DISTRIBUTION OF AEOLIAN SANDS AND CALCRETE PALAEOSOLS 925 12.5 DISTRIBUTION AND CONTENT OFTHE INVESTIGATED PROFILES IN THE ISKAR VALLEY 926 12.6 LITHOFACIES DESCRIPTION 926 12.6.1 BOV PROFILE 928 12.6.2 CEROVO PROFILE 930 12.6.3 LAKATNIK PROFILE 932 12.7 LITHOGENETICAL INTERPRETATION 935 12.7.1 BOV PROFILE 935 12.7.2 CEROVO PROFILE 940 12.7.3 LAKATNIK PROFILE 946 12.8 PALAEOENVIRONMENTAL AND PALAEOECOLOGICAL EVOLUTION 949 12.8.1 BOV PROFILE 950 12.8.2 CEROVO PROFILE. 956 12.8.3 LAKATNIK PROFILE 958 12.8.4 PALAEOECOLOGICAL EVOLUTION 976 12.9 COMPARATIVE PALAEOENVIRONMENTAL AND PALAEOECOLOGICAL MODELLING 982 12.9.1 DISTRIBUTION AND IMPACT OFBASEMENT SWELLS 982 12.9.2 MIDDLE BUNTSANDSTEIN 984 12.9.3 UPPER BUNTSANDSTEIN 987 12.9.4 COMPARABILITY OFISKAR VALLEY (BULGARIA) AND EIFEL (GERMANY) IN THE MIDDLE BUNT- SANDSTEIN 989 12.10 PALAEOGEOGRAPHICAL CONSTELLATION 990 12.11 LITHOSTRATIGRAPHICAL CORRELATION OFBULGARIAN AND MID-EUROPEAN BUNTSANDSTEIN.................... 990 12.12 COMPARATIVE INTERPRETATION OF SEDIMENTARY ENVIRONMENT OF THE BUNTSANDSTEIN IN THE ISKAR VALLEY 992 12.12.1 FINING- VB. COARSENING-UPWARDS CYCLOTHEILLS 992 12.12.2 SIGNIFICANCE OF AEOLIAN DUNE SANDS AND VIOLETTE HORIZONTE CALCRETE PALAEOBOLS.. 994 12.12.3 COMPARISON OFTHE MIDDLE BUNTSANDSTEIN OFCEROVO (BULGARIA) AND UPPER FRANCONIA (GERMANY) 995 12.12.4 PALAEOPEDOLOGICAL IMPLICATIONS OFBROECKELBANK REWORKING BRECCIAS 996 12.12.5 TERMINAL MUDSTONES 997 12.13 ACKNOWLEDGEMENTS 997 13 Y;;:~:R~:::;U.:~:~;~:~A; I~.::.~~~~~.~~:~~.~~:::~~!..:.~.:~.:~~~.~~~............. 999 13.1 INTRODUCTION 1001 13.2 DISTRIBUTION OF AEOLIAN SANDS IN THE PERMIAN AND TRIASSIE OF EUROPE 1001 13.3 OCCURRENCE OF AEOLIAN SANDS IN BUNTSANDSTEIN AND ROTLIEGEND IN BULGARIA 1002 13.4 STRATIGRAPHY OF THE BUNTSANDSTEIN IN BULGARIA 1002 13.5 THE BUNTSANDSTEIN IN THE VITOSA MOUNTAINS 1003 13.5.1 LITHOFACIES DESCRIPTION 1004 13.5.2 LITHOGENETICAL INTERPRETATION 1006 13.5.3 COMPARATIVE PALAEOENVIRONMENTAL MODELLING 1013 13.5.4 INTERBASINALLITHOSTRATIGRAPHICAL AND PALAEOCLIMATOLOGICAL CORRELATION 1016 13.5.5 PALAEOGEOGRAPHICAL CONSTELLATION 1018 XVIII 13.5.6 PALAEOECOLOGICAL EVOLUTION 1019 13.6 THE BUNTSANDSTEIN IN THE BELOGRADIK ANTICLINORIUM 1023 13.6.1 LITHOFAEIES DESCRIPTION 1023 13.6.2 LITHOGENETICAL INTERPRETATION 1025 13.6.3 DEPOSITIONAL EVOLUTION 1029 13.6.4 COMPARATIVE PALAEOENVIRONMENTAL MODELLING 1032 13.6.5 PALAEOGEOGRAPHICAL CONSTELLATION 1036 13.6.6 PALAEOECOLOGICAL EVOLUTION 1038 13.7 ACKNOWLEDGEMENTS 1040 14 PETROHAN PASS, TROJAN P6SS AND SVITI ILIJA HEIGHTS (BULGARIA) : BUNTSANDSTEIN (DETLEF MADER & GEORGI CATALOV) 1041 14.1 INTRODUCTION 1043 14.2 REGIONAL GEOLOGY 1043 14.3 PETROHAN PASS 1043 14.3.1 LITHOFACIES DESCRIPTION 1044 14.3.2 LITHOGENETICAL INTERPRETATION 1046 14.3.3 DEPOSITIONAL EVOLUTION 1047 14.3.4 COMPARATIVE PALAEOENVIRONMENTAL MODELLING 1049 14.3.5 PALAEOGEOGRAPHICAL CONSTELLATION 1051 14.3.6 PALAEOECOLOGICAL EVOLUTION 1052 14.4 TROJAN PASS 1054 14.4.1 LITHOFACIES DESCRIPTION 1055 14.4.2 LITHOGENETICAL INTERPRETATION 1070 14.4.3 COMPARATIVE PALAEOENVIRONMENTAL MODELLING 1070 14.4.4 PALAEOGEOGRAPHICAL CONSTELLATION 1072 14.4.5 PALAEOECOLOGICAL EVOLUTION 1072 14.5 SVITI ILIJA HEIGHTS 1072 14.5.1 LITHOFAEIES DESCRIPTION 1073 14.5.2 LITHOGENETICAL INTERPRETATION 1074 14.5.3 DEPOSITIONAL EVOLUTION 1075 14.5.4 COMPARATIVE PALAEOENVIRONMENTAL MODELLING 1076 14.5.5 PALAEOGEOGRAPHICAL CONSTELLATION 1078 14.5.6 PALAEOECOLOGICAL EVOLUTION 1078 14.6 ACKNOWLEDGEMENTS 1078 15 MILANOVO PLATEAU, TETEVEN ANTICLINORIUM, TROJAN BALKAN AND MELJANE ANTICLINE (BULGARIA) : KEUPER-FACILIOE (DEUEF MADER & GEORGI CATALOV) 1079 15.1 INTRODUCTION 1082 15.2 REGIONAL GEOLOGY 1084 15.2.1 STRATIGRAPHY 1084 15.2.2 DISTRIBUTION OF OUTCROPS AND COMPOSITION OF THE SEQUENCES 1086 15.3 DESCRIPTION OF SEDIMENTARY FAEIES 1087 15.3.1 COASTAL ALLUVIAL-FAN TO FAN-DELTA CARBONATE CONGLOMERATES 1088 15.3.2 COASTAL FLOODPLAIN TO SABKHA OR MARINE NEAR-SHORE MARLS 1090 15.3.3 COASTAL TO INLAND FLUVIAL BRAIDPLAIN SANDSTONES 1090 15.3.4 COASTAL TO INLAND FLUVIAL FLOODPLAIN TO PLAYA MUDSTONES 1092 15.3.5 COASTAL TO INLAND LACUSTRINE PLAYA CARBONATES 1092 15.3.6 CALCRETE PALAEOSOLS 1092 XIX 15.4 INTERPRETATION OF DEPOSITIONAL ENVIRONMENT 1094 15.4.1 COASTAL ALLUVIAL-FAN TO FAN-DELTA CARBONATE CONGLOMERATES 1094 15.4.2 COASTAL FLOODPLAIN TO SABKHA OR MARINE NEAR-SHORE MARLS 1100 15.4.3 COASTAL TO INLAND FLUVIAL BRAIDPLAIN SANDSTONES 1102 15.4.4 COASTAL TO INLAND FLUVIAL FLOODPLAIN TO PLAYA MUDSTONES 1106 15.4.5 COASTAL TO INLAND LACUSTRINE PLAYA CARBONATES 1110 15.4.6 CALCRETE PALAEOSOLS 1110 15.5 RECONSTRUCTION OFSEDIMENTARY HISTORY 1111 15.5.1 GENERAL EVOLUTION OF THE TRIASSIC 1112 15.5.2 COASTAL ALLUVIAL-FAN TO FAN-DELTA CARBONATE CONGLOMERATE ASSEMBLAGE 1116 15.5.3 COASTAL TO INLAND FLUVIAL FLOODPLAIN TO PLAYA MUDSTONE ASSEMBLAGE 1118 15.5.4 COASTAL TO INLAND FLUVIAL BRAIDPLAIN SANDSTONE ASSEMBLAGE 1120 15.6 OVERALL PALAEOENVIRONMENTAL EVOLUTION 1122 15.6.1 EVOLUTION OF DEPOSITIONAL ENVIRONMENT 1122 15.6.2 MAIN STAGES OFTHE SEDIMENTARY HISTORY 1125 15.6.3 GENERAL DEPOSITIONAL MODELLING 1126 15.6.4 PALAEOGEOGRAPHICAL BASIN ZONATION 1128 15.7 PALAEOECOLOGICAL EVOLUTION 1130 15.7.1 COASTAL TO INLAND FLUVIAL FLOODPLAIN TO PLAYA MUDSTONE ASSEMBLAGE 1130 15.7.2 COASTAL TO INLAND FLUVIAL BRAIDPLAIN SANDSTONE ASSEMBLAGE 1131 15.7.3 COASTAL ALLUVIAL-FAN TO FAN-DELTA CARBONATE CONGLOMERATE ASSEMBLAGE 1132 15.8 COMPARATIVE PALAEOENVIRONMENTAL MODELLING 1133 15.8.1 COASTAL TO INLAND FLUVIAL FLOODPLAIN TO PLAYA MUDSTONE ASSEMBLAGE 1134 15.8.2 COASTAL TO INLAND FLUVIAL BRAIDPLAIN SANDSTONE ASSEMBLAGE 1136 15.8.3 COASTAL ALLUVIAL-FAN TO FAN-DELTA CARBONATE CONGLOMERATE ASSEMBLAGE 1137 15.8.4 SYMMETRY VS. ASYMMETRY OFTHE TRIASSIC MAGNACYCLE 1138 15.9 ACKNOWLEDGEMENTS 1140 16 COMPARATIVE EVALUATIONBULGARIA VB. MIDDLE EUROPE: BUNTSANDSTEIN (DETLEFMADER& GEORGI ~ATALOV) ............................................................................. ............. 1141 16.1 INTRODUCTION 1142 16.2 RESEARCH HISTORY 1144 16.3 MEGAFACIES AND PALAEOGEOGRAPHY 1144 16.4 STRATIGRAPHY 1146 16.5 DISTRIBUTION OF THE BUNTSANDSTEIN IN BULGARIA 1148 16.6 COMPOSITION OF THE REVIEW............................ 1150 16.7 PALAEOENVIRONMENTAL STYLE INTERPRETATION 1152 16.7.1 MIDDLE AND UPPER BUNTSANDSTEIN 1152 16.7.2 MEGACYCLICITY OFTHE EVOLUTION OFFLUVIAL STYLE 1154 16.8 GENERAL DEPOSITIONAL MODELLING 1154 16.9 COMPARATIVE PALAEOENVIRONMENTAL MODELLING 1156 16.9.1 MIDDLE BUNTSANDSTEIN 1158 16.9.2 UPPER BUNTSANDSTEIN 1161 16.10 INTERBASINALLITHOSTRATIGRAPHICAL AND PALAEOENVIRONMENTAL CORRELATION 1163 16.10.1 AEOLIAN DUNE AND SHEET SANDS 1163 16.10.2 CALCRETE PALAEOSOLS AND BROECKELBANK CARBONATE BRECCIAS 1163 16.11 PALAEOECOLOGICAL AND PALAEOCLIMATOLOGICAL EVOLUTION 1164 16.11.1 MIDDLE BUNTSANDSTEIN 116I XX 16.11.2 UPPER BUNTSANDSTEIN 1166 16.12 ACKNOWLEDGEMENTS 1180 17 LISTS OFILLUSTRATIONS .........*......................***...................................................................... 1181 17.1 LIST OFTABLES 1181 17.2 LIST OFFIGURES 1189 17.3 LIST OFPLATES 1192 18 REFERENCE LIST ...................***................*............****.................................................. 1195 19 KEY WORD INDEX ************..........................*......***................................................... 1267 POSTFACE 1337 XXI
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author	Mader, Detlef 1954-
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format	Book
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id	DE-604.BV005908675
illustrated	Illustrated
indexdate	2024-07-09T16:36:40Z
institution	BVB
isbn	1560813385
language	English
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physical	XXII S., S. 739 - 1340 Ill., Kt.
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spelling	Mader, Detlef 1954- Verfasser (DE-588)109367472 aut Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe 2 Southeastern Europe and index Detlef Mader Stuttgart [u.a.] Fischer 1992 XXII S., S. 739 - 1340 Ill., Kt. txt rdacontent n rdamedia nc rdacarrier Perm Geologie (DE-588)4173820-2 gnd rswk-swf Fluviale Sedimentation (DE-588)4113593-3 gnd rswk-swf Trias (DE-588)4186023-8 gnd rswk-swf Europa (DE-588)4015701-5 gnd rswk-swf Europa (DE-588)4015701-5 g Perm Geologie (DE-588)4173820-2 s Fluviale Sedimentation (DE-588)4113593-3 s DE-604 Trias (DE-588)4186023-8 s (DE-604)BV005908673 2 GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003698619&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Mader, Detlef 1954- Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe Perm Geologie (DE-588)4173820-2 gnd Fluviale Sedimentation (DE-588)4113593-3 gnd Trias (DE-588)4186023-8 gnd
subject_GND	(DE-588)4173820-2 (DE-588)4113593-3 (DE-588)4186023-8 (DE-588)4015701-5
title	Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe
title_auth	Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe
title_exact_search	Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe
title_full	Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe 2 Southeastern Europe and index Detlef Mader
title_fullStr	Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe 2 Southeastern Europe and index Detlef Mader
title_full_unstemmed	Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe 2 Southeastern Europe and index Detlef Mader
title_short	Evolution of palaeoecology and palaeoenvironment of Permian and Triassic fluvial basins in Europe
title_sort	evolution of palaeoecology and palaeoenvironment of permian and triassic fluvial basins in europe southeastern europe and index
topic	Perm Geologie (DE-588)4173820-2 gnd Fluviale Sedimentation (DE-588)4113593-3 gnd Trias (DE-588)4186023-8 gnd
topic_facet	Perm Geologie Fluviale Sedimentation Trias Europa
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003698619&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV005908673
work_keys_str_mv	AT maderdetlef evolutionofpalaeoecologyandpalaeoenvironmentofpermianandtriassicfluvialbasinsineurope2

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