@phdthesis{Rettinger1997, author = {Rettinger, Rolf}, title = {Thermometamorphic characterisation of the transition zone between the Archean Sao Francisco Craton and the Proterozoic mobile belt, Minas Gerais, Brazil}, pages = {161 S. : graph. Darst.}, year = {1997}, language = {en} } @phdthesis{MacCann1997, author = {MacCann, Tommy}, title = {Pre-Zechstein tectono-stratigraphy of NE Germany - sediment composition and provenance}, pages = {getr. Z{\"a}hlung}, year = {1997}, language = {en} } @phdthesis{Boike1997, author = {Boike, Julia}, title = {Thermal, hydrological and geochemical dynamics of the active layer at a continuous permafrost site, Taymyr Peninsula, Siberia}, pages = {XIV, 104 S. : graph. Darst.}, year = {1997}, language = {en} } @phdthesis{Back1998, author = {Back, Stefan}, title = {Tectonics, Climate, and Sedimentation in the Northern Baikal Rift, Russia}, address = {Potsdam}, pages = {95 S.}, year = {1998}, language = {en} } @phdthesis{Xiao1999, author = {Xiao, Xiaohui}, title = {Experimental study of the rheology of synthetic anorthite-quarz aggregates}, series = {Scientific technical report / GeoForschungsZentrum Potsdam}, volume = {99, 14}, journal = {Scientific technical report / GeoForschungsZentrum Potsdam}, publisher = {GeoForschungsZentrum}, address = {Potsdam}, pages = {125 S. : graph. Darst., Ill.}, year = {1999}, language = {en} } @phdthesis{Hermanns1999, author = {Hermanns, Reginald L.}, title = {Spatial-temporal distribution of mountain-front collapse and formation of glant landslides in the arid andes of northwest Argentina (24-28° S, 65-68° W)}, pages = {Bl. iii - xi; 123 Bl. : graph. Darst.}, year = {1999}, language = {en} } @phdthesis{Wagner1999, author = {Wagner, Bernd}, title = {Holocene environmental history of East Greenland - evidence from lake sediments}, address = {Potsdam}, pages = {VIII, 92 S. : graph. Darst., Kt.}, year = {1999}, language = {en} } @phdthesis{Schmid2000, author = {Schmid, Robert}, title = {Geology of ultra-high-pressure rocks from the Dabie Shan, Eastern China}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0000093}, school = {Universit{\"a}t Potsdam}, year = {2000}, abstract = {Um das Verst{\"a}ndnis der geologischen Entwicklung des gr{\"o}ßten bekannten Vorkommens von ultra-hochdruck (UHP) Gesteinen auf der Erde, des Dabie Shan im {\"o}stlichen China, zu erh{\"o}hen, wurde eine multidisziplin{\"a}re Studie durchgef{\"u}hrt. Geophysikalische Daten wurden entlang einer ca. 20 km langen seismischen Linie im {\"o}stlichen Dabie Shan gesammelt. Diese reflektionsseismischen Daten zeigen, dass die Kruste aus drei Lagen besteht. Die Oberkruste besitzt eine durchgehend niedrige Reflektivit{\"a}t und meist subhorizontale Reflektoren bis in eine Tiefe von ca. 15 km. Aufgrund dieser Charakteristika wird diese Zone als UHP-bezogener krustaler Keil interpretiert, der auf nicht UHP Kruste {\"u}berschoben wurde. Ein abrupter Wechsel in der Geometrie aber auch Intensit{\"a}t der Reflektoren markiert die Grenze zu einer mittel- bis unterkrustalen Zone, die sich bis ca. 33 km Tiefe erstreckt. Diese Zone repr{\"a}sentiert wahrscheinlich kratonale Yangtze Kruste, die von der triassischen UHP-Orogenese nicht erfasst wurde, aber w{\"a}hrend der Exhumierung das Liegende relativ zum UHP Keil war. Starke und kontinuierliche Reflektoren im Tiefenintervall von 33-40 km bilden h{\"o}chstwahrscheinlich die Moho an der Basis der Kruste ab. Relikte einer Krustenwurzel, die sich wahrscheinlich w{\"a}hrend der Kollisionstektonik gebildet hatte, sind nicht sichtbar. Ein flaches tomographisches Geschwindigkeitsmodell, das auf der Inversion der Ersteins{\"a}tze gr{\"u}ndet, konnte zus{\"a}tzlich erstellt werden. Dieses Modell bildet deutlich die unterschiedlichen Lithologien auf beiden Seiten der Tan Lu St{\"o}rung ab. Sedimente {\"o}stlich der St{\"o}rung zeigen Geschwindigkeiten von 3.4 - 5.0 km* s^-1, wohingegen die Gneise im Westen 5.2 - 6.0 km*s^-1 aufweisen. Die Geometrie der Geschwindigkeits-Isolinien kann als Ausdruck der Strukturen der Gesteine angenommen werden. Somit zeigen die Sedimente ein nordwestliches Einfallen zur St{\"o}rung hin, wohingegen isoklinale Falten in den Gneisen abgebildet werden. Gel{\"a}ndedaten aus der UHP Einheit des Dabie Shan erm{\"o}glichen die Definition von Grundgebirgs- und Deckeinheiten, die Teile des ehemaligen passiven Kontinentalrandes des Yangtze Kratons repr{\"a}sentieren. Eine der Deckeinheiten, die Changpu Einheit, besitzt nach wie vor einen stratigraphischen Kontakt zu den Grundgebirgs-Gneisen. Der anderen Einheit hingegen, der Ganghe Einheit, fehlt ein entsprechendes Grundgebirge. Diese Einheit steht vielmehr {\"u}ber einen Blasto-Mylonit in tektonischem Kontakt zum Grundgebirge der vorherigen. Die Changpu Einheit baut sich aus kalk-arenitischen Metasedimenten auf, die mit Metabasalten assoziiert sind. Die Ganghe Einheit wird von arenitisch-vulkanoklastischen Metasedimenten, die ebenfalls mit metabasaltischen Gesteinen vergesellschaftet sind, dominiert. Das Grundgebirge baut sich aus diversen felsischen Gneisen auf, die von reliktisch eklogitfaziell bis gr{\"u}nschieferfaziell ausgepr{\"a}gt sind, und in denen, zus{\"a}tzlich zu Metabasalten, sporadisch mafisch-ultramafische Meta-Plutone auftreten. Mit Ausnahme der Ganghe Einheit, f{\"u}hren die Metabasite Coesit und belegen somit das UHP Ereignis. Die Mineralchemie der analysierten Proben dokumentiert deutliche Variationen in der Zusammensetzung der Hauptminerale, Granat und Omphazit, was entweder unterschiedliche Protolithe oder unterschiedliche Grade von Stoffaustausch mit den Wirtsgesteinen reflektiert. Gehalte von dreiwertigem Eisen in Omphaziten mit geringen Gesamteisengehalten, wurden mittels Titration bestimmt, wobei sich Werte von 30-40 \% ergaben. Dennoch wurde ein noch konservativerer Wert von 50\% dreiwertigem Eisen in den entsprechenden Berechnungen angenommen, haupts{\"a}chlich, um mit anderen Arbeiten vergleichbar zu sein. Texturen und chemische Zonierungen in den Mineralen sind kompatibel mit Gleichgewichtsbedingungen w{\"a}hrend dem H{\"o}hepunkt der Metamorphose, der retrograd {\"u}berpr{\"a}gt wird. P-T Daten wurden mit deutlicher Betonung auf das Granat-Omphazit-Phengit Barometer, das mit Fe-Mg Austausch-Thermometern kombiniert wurde, berechnet. H{\"o}chstdrucke reichen von 42-48 kbar (f{\"u}r die Changpu Einheit) bis ca. 37 kbar (f{\"u}r das Grundgebirge und die Ganghe Einheit). W{\"a}hrend der eklogitfaziellen Metamorphose wurden Temperaturen von ca. 750 °C erreicht. Obwohl die maximalen Drucke deutlich schwanken, sind die Temperaturbestimmungen in guter {\"U}bereinstimmung. Die Druckschwankungen k{\"o}nnen zum einen durch deutlich Ca-dominierte Granate (bis zu 50 mol\% Grossular in der Changpu Einheit) und/oder zum anderen durch Modifikationen der Mineralzusammensetzungen w{\"a}hrend der retrograden Metamorphose erkl{\"a}rt werden. Die pr{\"a}sentierten integrativen geologischen Daten erm{\"o}glichen die folgenden Schlussfolgerungen i) Grundgebirgs- und Deckeinheiten treten im Dabie Shan auf und wurden beide UHP metamorph {\"u}berpr{\"a}gt ii) Der Dabie Shan ist das metamorphe {\"A}quivalent des fr{\"u}heren passiven Kontinentalrandes des Yangtze Kratons iii) felsische Gneise, die eine UHP Metamorphose durchlaufen, sind von Volumenver-{\"a}nderungen betroffen, die durch großr{\"a}umige Phasenumwandlungen (Quarz <-> Coesit) hervorgerufen werden, was direkt die tektono-metamorphen Prozesse beeinflusst iv) Initiale Unterschiede in der Temperatur sind m{\"o}glicherweise daf{\"u}r verantwortlich, dass generell Unterkrustengesteine in UHP Fazies fehlen}, language = {en} } @phdthesis{Brauer2000, author = {Brauer, Hans-Joachim}, title = {Rapid environmental fluctuations and their relation to climate variability an investigation of varved lake sediment records}, pages = {getr. Z{\"a}hl.}, year = {2000}, language = {en} } @phdthesis{Mueller2000, author = {Mueller, Johannes}, title = {Late Pliocene environmental history of SE Siberia as inferred from Lake Baikal sediments}, pages = {67 S.}, year = {2000}, language = {en} } @phdthesis{Kleinert2000, author = {Kleinert, Katrin}, title = {Late Miocene to present climate response to uplift in the northern Sierras Pampeanas : a reconstruction from palosols and stable isotopes of the Santa Maria basin, northwest Argentinia}, address = {Potsdam}, pages = {xi, 106, VI S. : graph. Darst., Ill., Kt.}, year = {2000}, language = {en} } @phdthesis{Bianchi2000, author = {Bianchi, Gianphino Walter}, title = {Magmatism and tectonics during the initial opening of the piemont-ligurian ocean}, address = {Potsdam}, pages = {97, 81 Bl. : Ill., graph. Darst., Kt. + 4 Kt. Beil.}, year = {2000}, language = {en} } @phdthesis{Ohrnberger2001, author = {Ohrnberger, Matthias}, title = {Continuous automatic classification of seismic signals of volcanic origin at Mt. Merapi, Java, Indonesia}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0000028}, school = {Universit{\"a}t Potsdam}, year = {2001}, abstract = {Aufgrund seiner nahezu kontinuierlichen eruptiven Aktivit{\"a}t z{\"a}hlt der Merapi zu den gef{\"a}hrlichsten Vulkanen der Welt. Der Merapi befindet sich im Zentralteil der dicht bev{\"o}lkerten Insel Java (Indonesien). Selbst kleinere Ausbr{\"u}che des Merapi stellen deswegen eine große Gefahr f{\"u}r die ans{\"a}ssige Bev{\"o}lkerung in der Umgebung des Vulkans dar. Die am Merapi beobachtete enge Korrelation zwischen seismischer und vulkanischer Aktivit{\"a}t erlaubt es, mit Hilfe der {\"U}berwachung der seismischen Aktivit{\"a}t Ver{\"a}nderungen des Aktivit{\"a}tszustandes des Merapi zu erkennen. Ein System zur automatischen Detektion und Klassifizierung seismischer Ereignisse liefert einen wichtigen Beitrag f{\"u}r die schnelle Analyse der seismischen Aktivit{\"a}t. Im Falle eines bevorstehenden Ausbruchszyklus bedeutet dies ein wichtiges Hilfsmittel f{\"u}r die vor Ort ans{\"a}ssigen Wissenschaftler. In der vorliegenden Arbeit wird ein Mustererkennungsverfahren verwendet, um die Detektion und Klassifizierung seismischer Signale vulkanischen Urprunges aus den kontinuierlich aufgezeichneten Daten in Echtzeit zu bewerkstelligen. Der hier verwendete A nsatz der hidden Markov Modelle (HMM) wird motiviert durch die große {\"A}hnlichkeit von seismischen Signalen vulkanischen Ursprunges und Sprachaufzeichnungen und den großen Erfolg, den HMM-basierte Erkennungssysteme in der automatischen Spracherkennung erlangt haben. F{\"u}r eine erfolgreiche Implementierung eines Mustererkennungssytems ist es notwendig, eine geeignete Parametrisierung der Rohdaten vorzunehmen. Basierend auf den Erfahrungswerten seismologischer Observatorien wird ein Vorgehen zur Parametrisierung des seismischen Wellenfeldes auf Grundlage von robusten Analyseverfahren vorgeschlagen. Die Wellenfeldparameter werden pro Zeitschritt in einen reell-wertigen Mustervektor zusammengefasst. Die aus diesen Mustervektoren gebildete Zeitreihe ist dann Gegenstand des HMM-basierten Erkennungssystems. Um diskrete hidden Markov Modelle (DHMM) verwenden zu k{\"o}nnen, werden die Mustervektoren durch eine lineare Transformation und nachgeschaltete Vektor Quantisierung in eine diskrete Symbolsequenz {\"u}berf{\"u}hrt. Als Klassifikator kommt eine Maximum-Likelihood Testfunktion zwischen dieser Sequenz und den, in einem {\"u}berwachten Lernverfahren trainierten, DHMMs zum Einsatz. Die am Merapi kontinuierlich aufgezeichneten seismischen Daten im Zeitraum vom 01.07. und 05.07.1998 sind besonders f{\"u}r einen Test dieses Klassifikationssystems geeignet. In dieser Zeit zeigte der Merapi einen rapiden Anstieg der Seismizit{\"a}t kurz bevor dem Auftreten zweier Eruptionen am 10.07. und 19.07.1998. Drei der bekannten, vom Vulkanologischen Dienst in Indonesien beschriebenen, seimischen Signalklassen konnten in diesem Zeitraum beobachtet werden. Es handelt sich hierbei um flache vulkanisch-tektonische Beben (VTB, h < 2.5 km), um sogenannte MP-Ereignisse, die in direktem Zusammenhang mit dem Wachstum des aktiven Lavadoms gebracht werden, und um seismische Ereignisse, die durch Gesteinslawinen erzeugt werden (lokaler Name: Guguran). Die spezielle Geometrie des digitalen seismischen Netzwerkes am Merapi besteht aus einer Kombination von drei Mini-Arrays an den Flanken des Merapi. F{\"u}r die Parametrisierung des Wellenfeldes werden deswegen seismische Array-Verfahren eingesetzt. Die individuellen Wellenfeld Parameter wurden hinsichtlich ihrer Relevanz f{\"u}r den Klassifikationsprozess detailliert analysiert. F{\"u}r jede der drei Signalklassen wurde ein Satz von DHMMs trainiert. Zus{\"a}tzlich wurden als Ausschlussklassen noch zwei Gruppen von Noise-Modellen unterschieden. Insgesamt konnte mit diesem Ansatz eine Erkennungsrate von 67 \% erreicht werden. Im Mittel erzeugte das automatische Klassifizierungssystem 41 Fehlalarme pro Tag und Klasse. Die G{\"u}te der Klassifikationsergebnisse zeigt starke Variationen zwischen den individuellen Signalklassen. Flache vulkanisch-tektonische Beben (VTB) zeigen sehr ausgepr{\"a}gte Wellenfeldeigenschaften und, zumindest im untersuchten Zeitraum, sehr stabile Zeitmuster der individuellen Wellenfeldparameter. Das DHMM-basierte Klassifizierungssystem erlaubte f{\"u}r diesen Ereignistyp nahezu 89\% richtige Entscheidungen und erzeugte im Mittel 2 Fehlalarme pro Tag. Ereignisse der Klassen MP und Guguran sind mit dem automatischen System schwieriger zu erkennen. 64\% aller MP-Ereignisse und 74\% aller Guguran-Ereignisse wurden korrekt erkannt. Im Mittel kam es bei MP-Ereignissen zu 87 Fehlalarmen und bei Guguran Ereignissen zu 33 Fehlalarmen pro Tag. Eine Vielzahl der Fehlalarme und nicht detektierten Ereignisse entstehen jedoch durch eine Verwechslung dieser beiden Signalklassen im automatischen Erkennnungsprozess. Dieses Ergebnis konnte aufgrund der {\"a}hnlichen Wellenfeldeigenschaften beider Signalklassen erkl{\"a}rt werden, deren Ursache vermutlich in den bekannt starken Einfl{\"u}ssen des Mediums entlang des Wellenausbreitungsweges in vulkanischen Gebieten liegen. Insgesamt ist die Erkennungsleistung des entwickelten automatischen Klassifizierungssystems als sehr vielversprechend einzustufen. Im Gegensatz zu Standardverfahren, bei denen in der Seismologie {\"u}blicherweise nur der Startzeitpunkt eines seismischen Ereignisses detektiert wird, werden in dem untersuchten Verfahren seismische Ereignisse in ihrer Gesamtheit erfasst und zudem im selben Schritt bereits klassifiziert.}, language = {en} } @phdthesis{Meyer2001, author = {Meyer, Hanno}, title = {Late quaternary climate history of Northern Siberia : evidence from ground ice}, pages = {91 S.}, year = {2001}, language = {en} } @phdthesis{Schwamborn2001, author = {Schwamborn, Georg Johannes}, title = {Late quaternary sedimentation history of the lena delta}, pages = {99 S.}, year = {2001}, language = {en} } @phdthesis{HoffmannRothe2002, author = {Hoffmann-Rothe, Arne}, title = {Combined structural and magnetotelluric investigation across the West Fault Zone in northern Chile}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0000569}, school = {Universit{\"a}t Potsdam}, year = {2002}, abstract = {Untersuchungen zur internen Architektur von großen St{\"o}rungszonen beschr{\"a}nken sich {\"u}blicherweise auf die, an der Erdoberfl{\"a}che aufgeschlossene, st{\"o}rungsbezogene Deformation. Eine Methode, die es erm{\"o}glicht, Informationen {\"u}ber die Tiefenfortsetzung einer St{\"o}rung zu erhalten, ist die Abbildung der elektrischen Leitf{\"a}higkeit des Untergrundes. Die vorliegende Arbeit besch{\"a}ftigt sich mit der kombinierten strukturgeologischen und magnetotellurischen Untersuchung eines Segmentes der 'West Fault'-St{\"o}rung in den nordchilenischen Anden. Die West Fault ist ein Abschnitt des {\"u}ber 2000 km langen Pr{\"a}kordilleren-St{\"o}rungssystem, welches im Zusammenhang mit der Subduktion vor der s{\"u}damerikanischen Westk{\"u}ste entstanden ist. Die Aktivit{\"a}t dieses St{\"o}rungssystems reichte vom Eoz{\"a}n bis in das Quart{\"a}r. Der Verlauf der West Fault ist im Untersuchungsgebiet (22\&\#176;04'S, 68\&\#176;53'W) an der Oberfl{\"a}che klar definiert und weist {\"u}ber viele zehner Kilometer eine konstante Streichrichtung auf. Die Aufschlussbedingungen und die Morphologie des Arbeitsgebietes sind ideal f{\"u}r kombinierte Untersuchungen der st{\"o}rungsbezogenen Deformation und der elektrischen Leitf{\"a}higkeit des Untergrundes mit Hilfe magnetotellurischer Experimente (MT) und der erdmagnetischen Tiefensondierung (GDS). Ziel der Untersuchungen war es, eine m{\"o}gliche Korrelation der beiden Meßmethoden herauszuarbeiten, und die interne St{\"o}rungsarchitektur der West Fault umfassend zu beschreiben. Die Interpretation von Spr{\"o}dbruch-Strukturen (kleinmaßst{\"a}bliche St{\"o}rungen sowie St{\"o}rungsfl{\"a}chen mit/ohne Bewegungslineationen) im Untersuchungsgebiet weist auf {\"u}berwiegend seitenverschiebende Deformation entlang von subvertikal orientierten Scherfl{\"a}chen hin. Dextrale und sinistrale Bewegungsrichtungen k{\"o}nnen innerhalb der St{\"o}rungszone best{\"a}tigt werden, was auf Reaktivierungen des St{\"o}rungssystems schliessen l{\"a}ßt. Die j{\"u}ngsten Deformationen im Arbeitsgebiet haben dehnenden Charakter, wobei die kinematische Analyse eine unterschiedliche Orientierung der Extensionsrichtung beiderseits der St{\"o}rung andeutet. Die Bruchfl{\"a}chendichte nimmt mit Ann{\"a}herung an die St{\"o}rung zu und zeichnet einen etwa 1000 m breiten Bereich erh{\"o}hter Deformationsintensit{\"a}t um die St{\"o}rungsspur aus (damage zone). Im Zentrum dieser Zone weist das Gestein eine intensive Alteration und Brekzierung auf, die sich {\"u}ber eine Breite von etwa 400 m erstreckt. Kleine St{\"o}rungen und Scherfl{\"a}chen in diesem zentralen Abschnitt der St{\"o}rung fallen {\"u}berwiegend steil nach Osten ein (70-80\&\#176;). Innerhalb desselben Arbeitsgebietes wurde ein 4 km langes MT/GDS Profil vermessen, welches senkrecht zum Streichen der West Fault verl{\"a}uft. F{\"u}r die zentralen 2 km dieses Hauptprofils betr{\"a}gt der Abstand der Meßstationen jeweils 100 m. Ein weiteres Profil, bestehend aus 9 Stationen mit einem Abstand von 300 m zueinander, quert die St{\"o}rung einige Kilometer entfernt vom eigentlichen Arbeitsgebiet. Die Aufzeichnung der Daten erfolgte mit vier S.P.A.M MkIII Apparaturen in einem Frequenzbereich von 1000 Hz bis 0.001 Hz. In den GDS Daten beider Profile ist die St{\"o}rung f{\"u}r Frequenzen >1 Hz deutlich abgebildet: Die Induktionspfeile kennzeichnen eine mehrere hundert Meter breite Zone erh{\"o}hter Leitf{\"a}higkeit, welche sich entlang der West Fault erstreckt. Die Dimensionalit{\"a}tsanalyse der MT Daten rechtfertigt die Anpassung der gemessenen Daten mit einem zwei-dimensionalen Modell f{\"u}r einen Frequenzbereich von 1000 Hz bis 0.1 Hz. In diesem Frequenzbereich, der eine Aufl{\"o}sung der Leitf{\"a}higkeitsstruktur bis mindestens 5 km Tiefe erm{\"o}glicht, l{\"a}ßt sich eine regionale geoelektrische Streichrichtung parallel zum Verlauf der West Fault nachweisen. Die Modellierung der MT Daten beruht auf einem Inversionsalgorithmus von Mackie et al. (1997). Leitf{\"a}higkeitsanomalien, die sich aus der Inversions-Modellierung ergeben, werden anhand von empirischen Sensitivit{\"a}tsstudien auf ihre Robustheit {\"u}berpr{\"u}ft. Dabei werden die Eigenschaften (Geometrie, Leitf{\"a}higkeit) der Strukturen systematisch variiert und sowohl Vorw{\"a}rts- als auch Inversionsrechnungen der modifizierten Modelle durchgef{\"u}hrt. Die jeweiligen Modellergebnisse werden auf ihre Konsistenz mit dem Ausgangsdatensatz {\"u}berpr{\"u}ft. Entlang beider MT Profile wird ein guter elektrischer Leiter im zentralen Abschnitt der West Fault aufgel{\"o}st, wobei die Bereiche erh{\"o}hter Leitf{\"a}higkeit {\"o}stlich der St{\"o}rungsspur liegen. F{\"u}r das dicht vermessene MT Profil ergibt sich eine Breite des St{\"o}rungsleiters von etwa 300 m sowie ein steiles Einfallen der Anomalie nach Osten (70\&\#176;). Der St{\"o}rungsleiter reicht bis in eine Tiefe von mindestens 1100 m, w{\"a}hrend die Modellierungsstudien auf eine maximale Tiefenerstreckung <2000 m hinweisen. Das Profil zeigt weitere leitf{\"a}hige Anomalien, deren Geometrie aber weniger genau aufgel{\"o}st ist. Die St{\"o}rungsleiter der beiden MT Profile stimmen in ihrer Position mit der Alterationszone {\"u}berein. Im zentralen Bereich des Hauptprofils korreliert dar{\"u}ber hinaus das Einfallen der Spr{\"o}dbruch-Strukturen und der Leitf{\"a}higkeitsanomalie. Dies weist darauf hin, daß die Erh{\"o}hung der Leitf{\"a}higkeit im Zusammenhang mit einem Netzwerk von Bruchstrukturen steht, welches m{\"o}gliche Wegsamkeiten f{\"u}r Fluide bietet. Der miteinander in Verbindung stehende Gesteins-Porenraum, der ben{\"o}tigt wird, um die gemessene Erh{\"o}hung der Leitf{\"a}higkeit durch Fluide im Gestein zu erkl{\"a}ren, kann anhand der Salinit{\"a}t einiger Grundwasserproben abgesch{\"a}tzt werden (Archies Gesetz). Wasserproben aus gr{\"o}ßerer Tiefe, weisen aufgrund intensiverer Fluid-Gesteins-Wechselwirkung eine h{\"o}here Salinit{\"a}t, und damit eine verbesserte Leitf{\"a}higkeit, auf. F{\"u}r eine Probe aus einer Tiefe von 200 m ergibt sich demnach eine ben{\"o}tigte Porosit{\"a}t im Bereich von 0.8\% - 4\%. Dies legt nahe, daß W{\"a}sser, die von der Oberfl{\"a}che in die Bruchzone der St{\"o}rung eindringen, ausreichen, um die beobachtete Leitf{\"a}higkeitserh{\"o}hung zu erkl{\"a}ren. Diese Deutung wird von der geochemischen Signatur von Gesteinsproben aus dem Alterationsbereich best{\"a}tigt, wonach die Alteration in einem Regime niedriger Temperatur (<95\&\#176;C) stattfand. Der Einfluß von aufsteigenden Tiefenw{\"a}ssern wurde hier nicht nachgewiesen. Die geringe Tiefenerstreckung des St{\"o}rungsleiters geht wahrscheinlich auf Verheilungs- und Zementationsprozesse der Bruchstrukturen zur{\"u}ck, die aufgrund der L{\"o}sung und F{\"a}llung von Mineralen in gr{\"o}ßerer Tiefe, und damit bei erh{\"o}hter Temperatur, aktiv sind. Der Vergleich der Untersuchungsergebnisse der zur Zeit seismisch inaktiven West Fault mit ver{\"o}ffentlichten Studien zur elektrischen Leitf{\"a}higkeitsstruktur der aktiven San Andreas St{\"o}rung, deutet darauf hin, daß die Tiefenerstreckung und die Leitf{\"a}higkeit von St{\"o}rungsleitern eine Funktion der St{\"o}rungsaktivit{\"a}t ist. Befindet sich eine St{\"o}rung in einem Stadium der Deformation, so bleibt das Bruchnetzwerk f{\"u}r Fluide permeabel und verhindert die Versiegelung desselben.}, subject = {Anden / St{\"o}rung / Strukturgeologie / Magnetotellurik / Chile }, language = {en} } @phdthesis{Trauth2002, author = {Trauth, Martin H.}, title = {Orbital forcing and environmental changes in East Africa and South Amerika}, pages = {122 S.}, year = {2002}, language = {en} } @phdthesis{Rosner2003, author = {Rosner, Martin Siegfried}, title = {Boron as a tracer for material transfer in subduction zones}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0000899}, school = {Universit{\"a}t Potsdam}, year = {2003}, abstract = {Sp{\"a}t-mioz{\"a}ne bis quart{\"a}re Vulkanite der vulkanischen Front und der Back-arc Region der Zentralen Vulkanischen Zone in den Anden weisen eine weite Spannbreite von delta 11B Werten (+4 bis \–7 \‰) and Borkonzentrationen (6 bis 60 ppm) auf. Die positiven delta 11B Werte der Vulkanite der vulkanischen Front zeigen eine Beteiligung einer 11B-reichen Komponente am Aufbau der andinen Vulkanite, die am wahrscheinlichsten aus Fluiden der alterierten ozeanischen Kruste der abtauchenden Nazca-Platte stammt. Diese Beobachtung macht einen alleinigen Ursprung der untersuchten Laven aus der kontinentalen Kruste und/oder dem Mantelkeil unwahrscheinlich. Der Trend zu systematisch negativeren delta 11B Werten und kleineren B/Nb Verh{\"a}ltnissen von der vulkanischen Front zum Back-arc wird als Resultat einer Borisotopenfraktionierung einhergehend mit einer stetigen Abnahme der Fluidkomponente und einer relativ konstanten krustalen Kontamination, die sich durch relativ gleichbleibende Sr, Nd und Pb Isotopenverh{\"a}ltnisse ausdr{\"u}ckt, interpretiert. Weil die delta 11B Variation {\"u}ber den andinen vulkanischen Bogen sehr gut mit einer modellierten, sich als Funktion der Temperatur dynamisch ver{\"a}ndernden, Zusammensetzung des Subduktionszonenfluides {\"u}bereinstimmt, folgern wir, dass die Borisotopenzusammensetzung von Arc-Vulkaniten durch die sich dynamisch {\"a}ndernde delta 11B Signatur eines Bor-reichen Subduktionsfluides bestimmt ird. Durch die Abnahme dieses Subduktionsfluides w{\"a}hrend der Subduktion nimmt der Einfluss der krustalen Kontamination auf die Borisotopie der Arc-Vulkanite im Back-arc zu. In Anbetracht der Borisotopenfraktionierung m{\"u}ssen hohe delta 11B Werte von Arc-Vulkaniten nicht notwendigerweise Unterschiede in der initialen Zusammensetzung der subduzierten Platte reflektieren. Eine Dreikomponenten Mischungskalkulation zwischen Subduktionsfluid, dem Mantelkeil und der kontinentalen Kruste, die auf Bor-, Strontium- und Neodymiumisotopendaten beruht, zeigt, dass das Subduktionsfluid die Borisotopie des fertilen Mantels dominiert und, dass die prim{\"a}ren Arc-Magmen durchschnittlich einen Anteil von 15 bis 30 \% krustalem Materiales aufweisen.}, language = {en} } @phdthesis{Bergner2003, author = {Bergner, Andreas G. N.}, title = {Lake-level fluctuations and Late Quaternary climate change in the Central Kenya Rift}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0001428}, school = {Universit{\"a}t Potsdam}, year = {2003}, abstract = {Diese Arbeit besch{\"a}ftigt sich mit der Rekonstruktion von Klima in historischen Zeiten im tropischen Ostafrika. Nach einer {\"U}bersicht {\"u}ber die heutigen klimatischen Bedingungen der Tropen und den Besonderheiten des ostafrikanischen Klimas, werden die M{\"o}glichkeiten der Klimarekonstruktion anhand von Seesedimenten diskutiert. Es zeigt sich, dass die hoch gelegenen Seen des Zentralen Keniarifts, als Teil des Ostafrikanischen Grabensystems, besonders geeignete Klimaarchive darstellen, da sie sensibel auf klimatische Ver{\"a}nderungen reagieren. Ver{\"a}nderungen der Seechemie, wie sie in den Sedimenten aufgezeichnet werden, eignen sich um die nat{\"u}rlichen Schwankungen in der Quart{\"a}ren Klimageschichte Ostafrikas nachzuzeichnen. Basierend auf der guten 40Ar/39Ar- und 14C-Datierbarkeit der Seesedimente wird eine Chronologie der pal{\"a}o{\"o}kologischen Bedingungen anhand von Diatomeenvergesellschaftungen restauriert. Dabei zeigen sich f{\"u}r die Seen Nakuru, Elmenteita und Naivasha kurzfristige Transgression/ Regressions-Zyklen im Intervall von ca. 11.000 Jahren w{\"a}hrend des letzten (ca. 12.000 bis 6.000 J.v.H.) und vorletzten Interglazials (ca. 140.000 bis 60.000 J.v.H.). Zus{\"a}tzlich kann ein allgemeiner, langfristiger Trend der Seeentwicklung von großen Frischwasserseen hin zu st{\"a}rker salinen Gew{\"a}ssern innerhalb der letzen 1 Mio. Jahre festgestellt werden. Mittels Transferfunktionen und einem hydro-klimatischen Modellansatz k{\"o}nnen die restaurierten limnologischen Bedingungen als klimatische Schwankungen des Einzugsgebietes interpretiert werden. Wenngleich auch der zus{\"a}tzliche Einfluss von tektonischen Ver{\"a}nderungen auf das Seeeinzugsgebiet und das Gewicht ver{\"a}nderter Grundwasserstr{\"o}me abgewogen werden, zeigt sich, dass allein geringf{\"u}gig erh{\"o}hte Niederschlagswerte von ca. 30±10 \% zu dramatischen Seespiegelanstiegen im Zentralen Keniarift f{\"u}hren. Aufgrund der etablierten hydrrologisch-klimatischen Wechselwirkungen werden R{\"u}ckschl{\"u}sse auf die nat{\"u}rliche Variabilit{\"a}t des ostafrikanischen Klimas gezogen. Zudem wird die Sensitivit{\"a}t der Keniarift-Seen in Bezug auf die St{\"a}rke der {\"a}quatorialen Insolation und hinsichtilch variabler Oberfl{\"a}chenwassertemperaturen des Indischen Ozeans bewertet.}, language = {en} } @phdthesis{Kito2003, author = {Kito, Tadashi}, title = {Heterogeneities in the D\” layer beneath the southwestern Pacific inferred from anomalous P- and S-waves}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0000847}, school = {Universit{\"a}t Potsdam}, year = {2003}, abstract = {Die P- und S-Wellen-Geschwindigkeitsstruktur der D\” Schicht unter dem s{\"u}dwestlichen Pazifik wurde mittels kurzperiodischer Daten von 12 Tiefbeben in der Tonga-Fiji-Region untersucht, die vom J-Array und Hi-net-Array in Japan registriert wurden. Es wurde f{\"u}r Punktstreuer und ebene Schichten migriert, um schwache Signale zu extrahieren, die an relativ kleinr{\"a}umigen Heterogenit{\"a}ten des unteren Mantels entstehen. Um eine h{\"o}here Aufl{\"o}sung zu erzielen, wurde die Double Array-Methode (DAM) verwendet, die Empf{\"a}ngerarray und Quellarray gleichzeitig nutzt. Hierbei ist auch das Phase-Weighted Stack-Verfahren angewendet worden, um inkoh{\"a}rentes Rauschen zu reduzieren und somit schwache koh{\"a}rente Signale aus dem unteren Mantel aufzul{\"o}sen. Das Ergebnis der Ebenen-Schichten-Methode (RWB) zeigt, dass sich in der D\”-Schicht negative Geschwindigkeitsdiskontinuit{\"a}ten mit P-Wellen Geschwindigkeitskontrasten von h{\"o}chstens \–1 \% in den Tiefen von 2520 km und 2650 km befinden. Zus{\"a}tzlich befindet sich eine positive Geschwindigkeitsdiskontinuit{\"a}ten in der Tiefe von 2800 km. Bei den S Wellen treten Geschwindigkeitsdiskontinuit{\"a}ten in einer Tiefe von etwa 2550 km und 2850 km auf. Die scheinbare Verschiebung (50 km) der S-Wellen-Geschwindigkeitsdiskontinuit{\"a}t in der Tiefe von 2850 km deutet darauf hin, daß die S-Wellen-Geschwindigkeitsreduktion im unteren Mantel 2-3 mal st{\"a}rker ist als die P- Wellen-Geschwindigkeitsreduktion. Ein zweidimensionaler Querschnitt, der mittels der RWB Methode und der Aufspaltung des Gesamtempf{\"a}ngerarrays in Subarrays gewonnen wurde, deutet darauf hin, dass die beobachteten Diskontinuit{\"a}ten als intermittierende laterale Heterogenit{\"a}ten mit einer Wellenl{\"a}nge von einigen hundert km charakterisiert werden k{\"o}nnen. Die Kern-Mantel-Grenze (KMG) weist m{\"o}glicherweise Undulationen mit einer Amplitude von 10 km auf. Die Migration weist nur schwache Hinweise f{\"u}r r{\"a}umliche Streuk{\"o}rper auf. Die in der Migration abgebildeten heterogenen Regionen korrespondieren mit den mittels der RWB Methode gefundenen seismischen Diskontinuit{\"a}ten. Bei den gefundenen Heterogenit{\"a}ten k{\"o}nnte es sich um einen Teil eines aufsteigenden heißen Stroms unter dem s{\"u}dwestlichen Pazifik handeln.}, language = {en} } @phdthesis{John2003, author = {John, C{\´e}dric Micha{\"e}l}, title = {Miocene climate as recorded on slope carbonates : examples from Malta (Central Mediterranean) and Northeastern Australia (Marion Plateau, ODP LEG 194)}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0000820}, school = {Universit{\"a}t Potsdam}, year = {2003}, abstract = {Im Rahmen dieser Doktorarbeit wurden die Hangkarbonate von zwei mioz{\"a}nen heterozoischen Karbonatsystemen n{\"a}her untersucht: die Malta Inselgruppe (zentrales Mittelmeer) und das Marion Plateau (Nordost Australien, ODP Leg 194). Die Auswirkungen der mittelmioz{\"a}nen Abk{\"u}hlung (Mi3), die auf 13.6 Ma datiert wird und starken Einfluß auf die Sauerstoffisotopenkurve hatte, in den oben genannten Flachwassersystemen stellten das Ziel dieser Arbeit dar. Dieses Abk{\"u}hlungsereignis beeinflußte außerdem sehr stark die ozeanographischen und klimatischen Muster, die im weiteren Verlauf zum modernen Eishausklima f{\"u}hrten. So steht insbesondere die Vereisung von Ostantarktika mit diesem Ereignis in Verbindung. Diese Arbeit untersucht den Einfluß dieses Ereignisses auf Flachwassersysteme, um vorliegende Untersuchungen in Tiefwassersystemen zu erg{\"a}nzen und so zum globalen Verst{\"a}ndnis des mioz{\"a}nen Klimawechsels beizutragen. Die Profile auf der Maltainselgruppe wurden mit Hilfe von Kohlenstoff- und Sauerstoffisotopen Auswertungen im Gesamtgestein, Gesamtgesteinmineralogie, Tonmineralanalyse und organischer Geochemie untersucht. Durch einen Wechsel von karbonatischeren zu tonigeren Sedimenten beeinflußte das mittelmioz{\"a}ne Abk{\"u}hlungsereignis die Sedimentation in diesem Gebiet sehr stark. Weiterhin wurde beobachtet, daß jede Phase der antarktischen Vereisung, nicht nur das mittelmioz{\"a}ne Hauptereignis, zu einem erh{\"o}hten terrigenen Eintrag in den Hangsedimenten der Maltainselgruppe f{\"u}hrte. Akkumulationsraten zeigen, daß dieser erh{\"o}hte terrigene Eintrag den einzelnen Vereisungsperioden zusammenh{\"a}ngt und die karbonatischen Sedimente durch tonreiche Sedimente \“verunreinigt\” wurden. Das daraufhin entwickelte Modell erkl{\"a}rt diesen erh{\"o}hten terrigenen Eintrag mit einer nordw{\"a}rtigen Verlagerung der innertropischen Konvergenzzone durch die Bildung von kalten, dichten Luftmassen, die zu verst{\"a}rkten Niederschl{\"a}gen in Nordafrika f{\"u}hrten. Diese verst{\"a}rkten Niederschl{\"a}ge (oder verst{\"a}rkter afrikanischer Monsun) beeinflußten die kontinentale Verwitterung und den Eintrag, mit der Folge, daß verst{\"a}rkt terrigene Sedimente im Bereich der Hangsedimente der Maltainselgruppe abgelagert wurden. Die tonreichen Intervalle weisen {\"A}hnlichkeiten zu sapropelischen Ablagerungen auf, was mit Hilfe der Spektral analyse des Karbonatgehalts und der geochemischen Analyse des organischen Materials gezeigt wurde. Auf dem Marion Plateau wurden die Sauerstoff- und Kohlenstoffisotopenkurven anhand von Foraminiferen der Gattung Cibicidoides spp. rekonstruiert. Der Karbonatgehalt wurde mit Hilfe einer chemischen Methode (Coulometer) ermittelt. Genauso wie die Sedimente der Maltainselgruppe beeinflußte das mittelmioz{\"a}ne Abk{\"u}hlungsereignis (Mi3) auch die Sedimente auf dem Marion Plateau. So kam es bei 13,8 Ma, in etwa zur Zeit der Vereisung von Ostantarktika, zu einem Abfall der Karbonatakkumulationsraten. Weiterhin traten {\"A}nderungen in der Zusammensetzung der Sedimente auf, so nehmen neritische Karbonatfragmente ab, der planktische Foraminiferengehalt nimmt zu und es wurden verst{\"a}rkt Quarz und Glaukonit abgelagert. Ein {\"u}berraschendes Ergebnis ist die Tatsache, daß der große N12-N14 Meeresspiegelabfall um 11,5 Ma die Akkumulationsraten der Karbonate auf dem Hang nicht beeinflußte. Dieses Ergebnis ist umso erstaunlicher, da Karbonatplattformen normalerweise sehr sensitiv auf Meeresspiegel{\"a}nderungen reagieren. Der Grund, warum sich die Karbonatakkumulationsraten schon um 13,6 Ma (Mi3) und nicht erst um 11,5 Ma (N12-N14) verringerten, liegt in der Tatsache, daß die ozeanischen Str{\"o}mungen die Karbonatsedimentation auf dem Hang des Marion Plateau schon im Mioz{\"a}n kontrollierten. Das mittelmioz{\"a}ne Ereignis (Mi3) erh{\"o}hte die St{\"a}rke diese Str{\"o}mungen und als eine Ursache wurde die Karbonatakkumulation auf den H{\"a}ngen reduziert. Die Amplitude des N12-N14 Meeresspiegelabfalls liegt bei 90 m unter der Ber{\"u}cksichtigung der Sauerstoffisotopendaten aus der Tiefsee und Berechnungen des Meeresspiegels anhand des \“coastal onlaps\”, die w{\"a}hrend Leg 194 gemacht wurden. Die Isotopendaten dieser Arbeit weisen hingegen auf einen verringerten Meeresspiegelabfall von 70 m hin. Als allgemeine Schlußfolgerung kann gesagt werden, daß der mittelmioz{\"a}ne Klimaumschwung die Karbonatsysteme zumindest an den beiden untersuchten Lokalit{\"a}ten beeinflußt hat. Allerdings waren die Auswirkungen sehr von den unterschiedlichen lokalen Gegebenheiten abh{\"a}ngig. Insbesondere wirkten sich die Anwesenheit einer Landmasse (Malta) und die Abwesenheit einer Barriere vor den Einfl{\"u}ssen des offenen Ozeans (Marion Plateau) stark auf die Ablagerung der Karbonate aus.}, language = {en} } @phdthesis{Rimmele2003, author = {Rimmel{\´e}, Ga{\"e}tan}, title = {Structural and metamorphic evolution of the Lycian Nappes and the Menderes Massif (southwest Turkey) : geodynamic implications and correlations with the Aegean domain}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0001094}, school = {Universit{\"a}t Potsdam}, year = {2003}, abstract = {West Anatolien, welches die {\"o}stliche laterale Verl{\"a}ngerung der {\"a}g{\"a}ischen Dom{\"a}ne darstellt, besteht aus mehreren tektono-metamorphen Einheiten, die Hochdruck/Niedrigtemperatur (HP/LT) Gesteine aufweisen. Einige dieser metamorphen Gesteine Zeugen der panafrikanischen oder der kimmerischen Orogenese sind, entstanden andere w{\"a}hrend die j{\"u}ngere Alpine Orogenese. Das Menderes Massiv, in der SW T{\"u}rkei, wird im N von Decken der Izmir-Ankara Suturzone, im E von der Afyon Zone sowie im S von den Lykischen Decken tektonisch {\"u}berlagert. In den Metasedimenten der Lykischen Decken und dem darunterliegenden Menderes Massiv treten weitverbreitete Vorkommen von Fe-Mg-Carpholith-f{\"u}hrenden Gesteinen auf. Diese neue Entdeckung belegt, dass beide Deckenkomplexe w{\"a}hrend der alpinen Orogenese unter HP/LT Bedingungen {\"u}berpr{\"a}gt wurden. Die P-T Bedingungen f{\"u}r die HP-Phase liegen bei 10-12 kbar/400\&\#176;C in den Lykischen Decken und 12-14 kbar/470-500\&\#176;C im s{\"u}dlichen Menderes Massiv, was eine Versenkung von min. 30 km w{\"a}hrend der Subduktion und Deckenstapelung dokumentiert. Die Analyse der duktilen Deformation sowie thermobarometrische Berechnungen zeigen, dass die Lykischen Metasedimente unterschiedliche Exhumierungspfade nach der gemeinsamen HP-Phase durchliefen. In Gesteinen, die weiter entfernt vom Kontakt der Lykischen Decken mit dem Menderes Massiv liegen, l{\"a}sst sich lediglich ein Hochdruck-Abk{\"u}hlungspfad belegen, der mit einer \„top-NNE\“ Bewegung an die Ak{\c{c}}akaya Scherzone gebunden ist. Diese Scherzone ist ein Intra-Deckenkontakt, der in den fr{\"u}hen Stadien, innerhalb des Stabilit{\"a}tsfeldes von Fe-Mg-Carpholith, der Exhumierung aktiv war. Die nahe am Kontakt mit dem Menderes Massiv gelegenen Gesteine weisen w{\"a}rmere Exhumierungspfade auf, die mit einer \„top-E\“ Scherung assoziiert sind. Diese Deformation erfolgte nach dem S-Transport der Lykischen Decken und somit zeitgleich mit der Reaktivierung des Kontakts der Lykischen Decken/Menderes Massiv als Hauptscherzone (der Gerit Scherzone), die eine sp{\"a}te Exhumierung der HP-Gesteine unter w{\"a}rmeren Bedingungen erlaubte. Die Hochdruckgesteine des s{\"u}dlichen Menderes Massiv weisen eine einfache isothermale Dekompression bei etwa 450\&\#176;C w{\"a}hrend der Exhumierung nach. Die begleitende Deformation w{\"a}hrend der Hochdruckphase und der Exhumierung ist durch eine starke N-S bis NE-SW\–Dehnung charakterisiert. Das Alter der Hochdruckmetamorphose in den Lykischen Decken kann zwischen oberster Kreide (j{\"u}ngste Sedimente in der Lykischen allochthonen Einheit) und Eoz{\"a}n (Kykladische Blauschiefer) festgelegt werden. Ein m{\"o}gliches Pal{\"a}oz{\"a}nes Alter kann somit angenommen werden. Das Alter der Hochdruckmetamorphose in den Deckschichten des Menderes Massiv liegt demnach zwischen mittlerem Pal{\"a}oz{\"a}n (oberste Metaolistostrome der Menderes \„Cover\“-Einheit) und dem mittleren Eoz{\"a}n (HP-Metamorphose in der Dilek-Sel{\c{c}}uk Region des Kykladenkomplex). Apatit-Spaltspur-Daten von beiden Seiten des Kontakts der Lykischen Decken/Menderes Massiv lassen darauf schließen, daß diese Gesteine im sp{\"a}ten Oligoz{\"a}n/fr{\"u}hen Mioz{\"a}n sehr nahe der Pal{\"a}o-Oberfl{\"a}che waren. Die hier dargestellten Arbeiten in den Lykischen Decken und im Menderes Massiv lassen auf die Existenz eines ausgedehnten alpinen HP-Metamorphose-G{\"u}rtels im SW der T{\"u}rkei schließen. Die Hochdruckgesteine wurden im Akkretionskomplex einer N-w{\"a}rtigen Subduktion des Neo-Tethys Ozeans gebildet, der sp{\"a}t-Kretazisch obduziert und dann in die fr{\"u}h-Terti{\"a}re Kontinentalkollision des passiven Randes (Anatolid-Taurid Block) mit der n{\"o}rdlichen Platte (Sakarya Mikrokontinent) miteinbezogen war. Im Eoz{\"a}n bestand der Akkretionskomplex aus drei gestapelten Hochdruckeinheiten. Die Unterste entspricht dem eingeschuppten Kern und Hochdruck-\„Cover\“ des Menderes Massivs. Die Mittlere besteht aus dem Kykladischen Blauschiefer-Komplex (Dilek-Sel{\c{c}}uk Einheit) und die oberste Einheit wird von den Hochdruck Lykischen Decken gebildet. W{\"a}hrend die Basiseinheiten der {\"a}g{\"a}ischen und anatolischen Region tektonisch unterschiedliche Pr{\"a}-mesozoische Geschichten durchliefen, wurden sie wahrscheinlich am Ende des Pal{\"a}ozikums zusammengef{\"u}hrt und durchliefen dann ein gemeinsame mesozoische Geschichte. Dann wurden die Basis und ihre Deckschichten, ebenso wie die Kykladischen Blauschiefer und Lykischen Decken, in {\"a}hnlich entstandene akkretion{\"a}re Komplexe w{\"a}hrend des Eoz{\"a}ns und Oligoz{\"a}ns involviert.}, language = {en} } @phdthesis{Demory2004, author = {Demory, Fran{\c{c}}ois}, title = {Paleomagnetic dating of climatic events in Late Quaternary sediments of Lake Baikal (Siberia)}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0001720}, school = {Universit{\"a}t Potsdam}, year = {2004}, abstract = {Der Baikalsee ist ein ideales Klimaarchiv f{\"u}r die Mitte Eurasiens. In dieser Arbeit wurde gesteinsmagnetische und paleomagnetische Analysen an hemipelagischen Sequenzen von vier Lokationen analysiert. Die Kerne erreichen ein Alter von maximal 300 ky. In Kombination mit TEM, XRD, XRF und geochemischen Analysen zeigt die gesteinsmagnetische Studie, dass detritischer Magnetit das magnetische Signal der glazialen Sedimente dominiert. Die magnetischen Signale der interglazialen Sedimente wurden durch diagenetische Prozesse ver{\"a}ndert. Mittels HIRM k{\"o}nnen H{\"a}matit und Goethit quantifiziert werden. Diese Methode eignet sich, den detritischen Eintrag in den Baikalsee abzusch{\"a}tzen. Relative Paleointensit{\"a}ten des Erdmagnetfeldes ergaben reproduizerbare Muster, welche in Korrelation mit gutdatierten Referenzproben die Ableitung eines alternativen Altersmodells f{\"u}r die Datierung der Baikalsedimente erm{\"o}glichten. Bei Anwendung des paleomagnetischen Altersmodells beobachtet man, dass die Abk{\"u}hlung im Baikalgebiet und im Oberfl{\"a}chenwasser des Nordatlantiks wie sie aus den \&\#948;18 O-Werten planktonischer Foraminiferen abgeleitet werden kann, zeitgleich ist. Wird das aus benthischen \&\#948;18 O-Werten abgeleitete Altermdodell auf den Baikalsee angewandt, ergibt sich eine deutliche Zeitverschiebung. Das benthische Altersmodell repr{\"a}sentiert die globale Ver{\"a}nderung des Eisvolumens, welche sp{\"a}ter als die V{\"a}nderung der Oberfl{\"a}chenwassertemperatur auftritt. Die Kompilation paleomagnetischer Kurven ergab eine neue relative Paleointensit{\"a}tskurve \“Baikal 200\”. Mittels Korngr{\"o}ssenanalyse des Detritus konnten drei Faziestypen mit unterschiedlicher Sedimentationsdynamik unterschieden werden: 1) Glaziale Peroiden werden durch hohe Tongehalte infolge von Windeintrag und durch grobe Sandfraktion mittels Transport durch lokale Winde {\"u}ber das Eis charakterisiert. Dieser Faziestyp deutet auf arides Klima. 2) W{\"a}hrend der Glazial/Interglazial-{\"U}berg{\"a}nge steigt die Siltfraktion an. Dies deutet auf erh{\"o}hte Feuchtigkeit und damit verbunden erh{\"o}hte Sedimentdynamik. Windtransport und in den Schnee der Eisdecke eingetragener Staub sind die vorherrschenden Prozesse, welche den Silt in hemipelagischer Position zur Ablagerung bringen. 3) W{\"a}hrend des klimatischen Optimum des Eeemian werden Gr{\"o}sse und Quantit{\"a}t des Silts minimal, was auf eine geschlossene Vegetationsdecke im Hinterland deutet.}, language = {en} } @phdthesis{Kesten2004, author = {Kesten, Dagmar}, title = {Structural observations at the southern Dead Sea Transform from seismic reflection data and ASTER satellite images}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0001807}, school = {Universit{\"a}t Potsdam}, year = {2004}, abstract = {Die folgende Arbeit ist Teil des multidisziplin{\"a}ren Projektes DESERT (DEad SEa Rift Transect), welches seit dem Jahr 2000 im Nahen Osten durchgef{\"u}hrt wird. Dabei geht es prim{\"a}r um die Struktur der s{\"u}dlichen Dead Sea Transform (DST; Tote-Meer-Transformst{\"o}rung), Plattengrenze zwischen Afrika (Sinai) und der Arabischen Mikroplatte. Seit dem Mioz{\"a}n betr{\"a}gt der sinistrale Versatz an dieser bedeutenden aktiven Blattverschiebung mehr als 100 km. Das steilwinkelseismische (NVR) Experiment von DESERT querte die DST im Arava Tal zwischen Rotem Meer und Totem Meer, wo die Hauptst{\"o}rung auch Arava Fault genannt wird. Das 100 km lange Profil erstreckte sich von Sede Boqer/Israel im Nordwesten nach Ma'an/Jordanien im S{\"u}dosten und f{\"a}llt mit dem zentralen Teil einer weitwinkelseismischen Profillinie zusammen. Steilwinkelseismische Messungen stellen bei der Bestimmung der Krustenstruktur bis zur Krusten/Mantel-Grenze ein wichtiges Instrument dar. Obwohl es kaum m{\"o}glich ist, steilstehende St{\"o}rungszonen direkt abzubilden, geben abrupte Ver{\"a}nderungen des Reflektivit{\"a}tsmuster oder pl{\"o}tzlich endende Reflektoren indirekte Hinweise auf Transformbewegung. Da bis zum DESERT Experiment keine anderen reflexionsseismischen Messungen {\"u}ber die DST ausgef{\"u}hrt worden waren, waren wichtige Aspekte dieser Transform-Plattengrenze und der damit verbundenen Krustenstruktur nicht bekannt. Mit dem Projekt sollte deshalb untersucht werden, wie sich die DST sowohl in der oberen als auch in der unteren Kruste manifestiert. Zu den Fragestellungen geh{\"o}rte unter anderem, ob sich die DST bis in den Mantel fortsetzt und ob ein Versatz der Krusten/Mantel-Grenze beobachtet werden kann. So ein Versatz ist von anderen großen Transformst{\"o}rungen bekannt. In der vorliegenden Arbeit werden zun{\"a}chst die Methode der Steilwinkelseismik und die Datenverarbeitung kurz erl{\"a}utert, bevor die Daten geologisch interpretiert werden. Bei der Interpetation werden die Ergebnisse anderer relevanter Studien ber{\"u}cksichtigt. Geologische Gel{\"a}ndearbeiten im Gebiet des NVR Profiles ergaben, dass die Arava Fault zum Teil charakterisiert ist durch niedrige Steilstufen in den neogenen Sedimenten, durch kleine Druckr{\"u}cken oder Rhomb-Gr{\"a}ben. Ein typischer Aufbau der St{\"o}rungszone mit einem St{\"o}rungskern, einer st{\"o}rungsbezogenen Deformationszone und einem undeformierten Ausgangsgestein, wie er von anderen großen St{\"o}rungszonen beschrieben worden ist, konnte nicht gefunden werden. Deshalb wurden zur Erg{\"a}nzung der Reflexionsseismik, welche vor allem die tieferen Krustenstrukturen abbildet, ASTER (Advanced Spacebourne Thermal Emission and Reflection Radiometer) Satellitendaten herangezogen, um oberfl{\"a}chennahe Deformation und neotektonische Aktivit{\"a}t zu bestimmen.}, language = {en} } @phdthesis{Sobiesiak2004, author = {Sobiesiak, Monika}, title = {Fault plane structure of the 1995 Antofagasta Earthquake (Chile) derived from local seismological parameters}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-2430}, school = {Universit{\"a}t Potsdam}, year = {2004}, abstract = {Fault planes of large earthquakes incorporate inhomogeneous structures. This can be observed in teleseismic studies through the spatial distribution of slip and seismic moment release caused by the mainshock. Both parameters are often concentrated on patches on the fault plane with much higher values for slip and moment release than their adjacent areas. These patches are called asperities which obviously have a strong influence on the mainshock rupture propagation. Condition and properties of structures in the fault plane area, which are responsible for the evolution of such asperities or their significance on damage distributions of future earthquakes, are still not well understood and subject to recent geo-scientific studies. In the presented thesis asperity structures are identified on the fault plane of the Mw=8.0 Antofagasta earthquake in northern Chile which occurred on 30th of July, 1995. It was a thrust-type event in the seismogenic zone between the subducting pacific Nazca plate and the overriding South American plate. In cooperation of the German Task Force for Earthquakes and the CINCA'95 project a network of up to 44 seismic stations was set up to record the aftershock sequence. The seaward extension of the network with 9 OBH stations increased significantly the precision of hypocenter determinations. They were distributed mainly on the fault plane itself around the city of Antofagasta and Mejillones Peninsula. The asperity structures were recognized here by the spatial variations of local seismological parameters; at first by the spatial distribution of the seismic b-value on the fault plane, derived from the magnitude-frequency relation of Gutenberg-Richter. The correlation of this b-value map with other parameters like the mainshock source time function, the gravity isostatic residual anomalies, the aftershock radiated seismic energy distribution and the vp/vs ratios from a local earthquake tomograhpy study revealed some ideas about the composition and asperity generating processes. The investigation of 295 aftershock focal mechanism solutions supported the resulting fault plane structure and proposed a 3D similar stress state in the area of the Antofagasta fault plane.}, language = {en} } @phdthesis{Maercklin2004, author = {Maercklin, Nils}, title = {Seismic structure of the Arava Fault, Dead Sea Transform}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0001469}, school = {Universit{\"a}t Potsdam}, year = {2004}, abstract = {Ein transversales St{\"o}rungssystem im Nahen Osten, die Dead Sea Transform (DST), trennt die Arabische Platte von der Sinai-Mikroplatte und erstreckt sich von S{\"u}den nach Norden vom Extensionsgebiet im Roten Meer {\"u}ber das Tote Meer bis zur Taurus-Zagros Kollisionszone. Die sinistrale DST bildete sich im Mioz{\"a}n vor etwa 17 Ma und steht mit dem Aufbrechen des Afro-Arabischen Kontinents in Verbindung. Das Untersuchungsgebiet liegt im Arava Tal zwischen Totem und Rotem Meer, mittig {\"u}ber der Arava St{\"o}rung (Arava Fault, AF), die hier den Hauptast der DST bildet. Eine Reihe seismischer Experimente, aufgebaut aus k{\"u}nstlichen Quellen, linearen Profilen {\"u}ber die St{\"o}rung und entsprechend entworfenen Empf{\"a}nger-Arrays, zeigt die Untergrundstruktur in der Umgebung der AF und der Verwerfungszone selbst bis in eine Tiefe von 3-4 km. Ein tomographisch bestimmtes Modell der seismischen Geschwindigkeiten von P-Wellen zeigt einen starken Kontrast nahe der AF mit niedrigeren Geschwindigkeiten auf der westlichen Seite als im Osten. Scherwellen lokaler Erdbeben liefern ein mittleres P-zu-S Geschwindigkeitsverh{\"a}ltnis und es gibt Anzeichen f{\"u}r {\"A}nderungen {\"u}ber die St{\"o}rung hinweg. Hoch aufgel{\"o}ste tomographische Geschwindigkeitsmodelle best{\"a}tigen der Verlauf der AF und stimmen gut mit der Oberfl{\"a}chengeologie {\"u}berein. Modelle des elektrischen Widerstands aus magnetotellurischen Messungen im selben Gebiet zeigen eine leitf{\"a}hige Schicht westlich der AF, schlecht leitendes Material {\"o}stlich davon und einen starken Kontrast nahe der AF, die den Fluss von Fluiden von einer Seite zur anderen zu verhindern scheint. Die Korrelation seismischer Geschwindigkeiten und elektrischer Widerst{\"a}nde erlaubt eine Charakterisierung verschiedener Lithologien im Untergrund aus deren physikalischen Eigenschaften. Die westliche Seite l{\"a}sst sich durch eine geschichtete Struktur beschreiben, wogegen die {\"o}stliche Seite eher einheitlich erscheint. Die senkrechte Grenze zwischen den westlichen Einheiten und der {\"o}stlichen scheint gegen{\"u}ber der Oberfl{\"a}chenauspr{\"a}gung der AF nach Osten verschoben zu sein. Eine Modellierung von seismischen Reflexionen an einer St{\"o}rung deutet an, dass die Grenze zwischen niedrigen und hohen Geschwindigkeiten eher scharf ist, sich aber durch eine raue Oberfl{\"a}che auf der L{\"a}ngenskala einiger hundert Meter auszeichnen kann, was die Streuung seismischer Wellen beg{\"u}nstigte. Das verwendete Abbildungsverfahren (Migrationsverfahren) f{\"u}r seismische Streuk{\"o}rper basiert auf Array Beamforming und der Koh{\"a}renzanalyse P-zu-P gestreuter seismischer Phasen. Eine sorgf{\"a}ltige Bestimmung der Aufl{\"o}sung sichert zuverl{\"a}ssige Abbildungsergebnisse. Die niedrigen Geschwindigkeiten im Westen entsprechen der jungen sediment{\"a}ren F{\"u}llung im Arava Tal, und die hohen Geschwindigkeiten stehen mit den dortigen pr{\"a}kambrischen Magmatiten in Verbindung. Eine 7 km lange Zone seismischer Streuung (Reflektor) ist gegen{\"u}ber der an der Oberfl{\"a}che sichtbaren AF um 1 km nach Osten verschoben und l{\"a}sst sich im Tiefenbereich von 1 km bis 4 km abbilden. Dieser Reflektor markiert die Grenze zwischen zwei lithologischen Bl{\"o}cken, die vermutlich wegen des horizontalen Versatzes entlang der DST nebeneinander zu liegen kamen. Diese Interpretation als lithologische Grenze wird durch die gemeinsame Auswertung der seismischen und magnetotellurischen Modelle gest{\"u}tzt. Die Grenze ist m{\"o}glicherweise ein Ast der AF, der versetzt gegen{\"u}ber des heutigen, aktiven Asts verl{\"a}uft. Der Gesamtversatz der DST k{\"o}nnte r{\"a}umlich und zeitlich auf diese beiden {\"A}ste und m{\"o}glicherweise auch auf andere St{\"o}rungen in dem Gebiet verteilt sein.}, language = {en} } @phdthesis{Backers2004, author = {Backers, Tobias}, title = {Fracture toughness determination and micromechanics of rock under Mode I and Mode II loading}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-2294}, school = {Universit{\"a}t Potsdam}, year = {2004}, abstract = {This thesis work describes a new experimental method for the determination of Mode II (shear) fracture toughness, KIIC of rock and compares the outcome to results from Mode I (tensile) fracture toughness, KIC, testing using the International Society of Rock Mechanics Chevron-Bend method.Critical Mode I fracture growth at ambient conditions was studied by carrying out a series of experiments on a sandstone at different loading rates. The mechanical and microstructural data show that time- and loading rate dependent crack growth occurs in the test material at constant energy requirement.The newly developed set-up for determination of the Mode II fracture toughness is called the Punch-Through Shear test. Notches were drilled to the end surfaces of core samples. An axial load punches down the central cylinder introducing a shear load in the remaining rock bridge. To the mantle of the cores a confining pressure may be applied. The application of confining pressure favours the growth of Mode II fractures as large pressures suppress the growth of tensile cracks.Variation of geometrical parameters leads to an optimisation of the PTS- geometry. Increase of normal load on the shear zone increases KIIC bi-linear. High slope is observed at low confining pressures; at pressures above 30 MPa low slope increase is evident. The maximum confining pressure applied is 70 MPa. The evolution of fracturing and its change with confining pressure is described.The existence of Mode II fracture in rock is a matter of debate in the literature. Comparison of the results from Mode I and Mode II testing, mainly regarding the resulting fracture pattern, and correlation analysis of KIC and KIIC to physico-mechanical parameters emphasised the differences between the response of rock to Mode I and Mode II loading. On the microscale, neither the fractures resulting from Mode I the Mode II loading are pure mode fractures. On macroscopic scale, Mode I and Mode II do exist.}, language = {en} } @phdthesis{Bookhagen2004, author = {Bookhagen, Bodo}, title = {Late quaternary climate changes and landscape evolution in the Northwest Himalaya : geomorphologic processes in the Indian Summer Monsoon Domain}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-0001956}, school = {Universit{\"a}t Potsdam}, year = {2004}, abstract = {The India-Eurasia continental collision zone provides a spectacular example of active mountain building and climatic forcing. In order to quantify the critically important process of mass removal, I analyzed spatial and temporal precipitation patterns of the oscillating monsoon system and their geomorphic imprints. I processed passive microwave satellite data to derive high-resolution rainfall estimates for the last decade and identified an abnormal monsoon year in 2002. During this year, precipitation migrated far into the Sutlej Valley in the northwestern part of the Himalaya and reached regions behind orographic barriers that are normally arid. There, sediment flux, mean basin denudation rates, and channel-forming processes such as erosion by debris-flows increased significantly. Similarly, during the late Pleistocene and early Holocene, solar forcing increased the strength of the Indian summer monsoon for several millennia and presumably lead to analogous precipitation distribution as were observed during 2002. However, the persistent humid conditions in the steep, high-elevation parts of the Sutlej River resulted in deep-seated landsliding. Landslides were exceptionally large, mainly due to two processes that I infer for this time: At the onset of the intensified monsoon at 9.7 ka BP heavy rainfall and high river discharge removed material stored along the river, and lowered the baselevel. Second, enhanced discharge, sediment flux, and increased pore-water pressures along the hillslopes eventually lead to exceptionally large landslides that have not been observed in other periods. The excess sediments that were removed from the upstream parts of the Sutlej Valley were rapidly deposited in the low-gradient sectors of the lower Sutlej River. Timing of downcutting correlates with centennial-long weaker monsoon periods that were characterized by lower rainfall. I explain this relationship by taking sediment flux and rainfall dynamics into account: High sediment flux derived from the upstream parts of the Sutlej River during strong monsoon phases prevents fluvial incision due to oversaturation the fluvial sediment-transport capacity. In contrast, weaker monsoons result in a lower sediment flux that allows incision in the low-elevation parts of the Sutlej River.}, language = {en} } @phdthesis{Martin2005, author = {Martin, Sebastian}, title = {Subduction zone wave guides : deciphering slab structure using intraslab seismicity at the Chile-Peru subduction zone}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-5820}, school = {Universit{\"a}t Potsdam}, year = {2005}, abstract = {Subduction zones are regions of intense earthquake activity up to great depth. Sources are located inside the subducting lithosphere and, as a consequence, seismic radiation from subduction zone earthquakes is strongly affected by the interior slab structure. The wave field of these intraslab events observed in the forearc region is profoundly influenced by a seismically slow layer atop the slab surface. This several kilometer thick low-velocity channel (wave guide) causes the entrapment of seismic energy producing strong guided wave phases that appear in P onsets in certain regions of the forearc. Observations at the Chile-Peru subduction zone presented here, as well as observations at several other circum-pacific subduction zones show such signals. Guided wave analysis contributes details of immense value regarding the processes near the slab surface, such as layering of subducted lithosphere, source locations of intraslab seismicity and most of all, range and manner of mineralogical phase transitions. Seismological data stem from intermediate depth events (depth range 70 km - 300 km) recorded in northern Chile near 21 Grad S during the collaborative research initiative " Deformation Processes in the Andes" (SFB 267). A subset of stations - all located within a slab-parallel transect close to 69 Grad W - show low-frequency first arrivals (2 Hz), sometimes followed by a second high-frequency phase. We employ 2-dimensional finite-difference simulations of complete P-SV wave propagation to explore the parameter space of subduction zone wave guides and explain the observations. Key processes underlying the guided wave propagation are studied: Two distinct mechanisms of decoupling of trapped energy from the wave guide are analyzed - a prerequisite to observe the phases at stations located at large distances from the wave guide (up to 100 km). Variations of guided wave effects perpendicular to the strike of the subduction zone are investigated, such as the influence of phases traveling in the fast slab. Further, the merits and limits of guided wave analysis are assessed. Frequency spectra of the guided wave onsets prove to be a robust quantity that captures guided wave characteristics at subduction zones including higher mode excitation. They facilitate the inference of wave guide structure and source positioning: The peak frequency of the guided wave fundamental mode is associated with a certain combination of layer width and velocity contrast. The excitation strength of the guided wave fundamental mode and higher modes is associated with source position and orientation relative to the low-velocity layer. The guided wave signals at the Chile-Peru subduction zone are caused by energy that leaks from the subduction zone wave guide. On the one hand, the bend shape of the slab allows for leakage at a depth of 100 km. On the other, equalization of velocities between the wave guide and the host rocks causes further energy leakage at the contact zone between continental and oceanic crust (70 km depth). Guided waves bearing information on deep slab structure can therefore be recorded at specific regions in the forearc. These regions are determined based on slab geometry, and their locations coincide with the observations. A number of strong constraints on the structure of the Chile-Peru slab are inferred: The deep wave guide for intraslab events is formed by a layer of 2 km average width that remains seismically slow (7 percent velocity reduction compared to surrounding mantle). This low-velocity layer at the top of the Chile-Peru slab is imaged from a depth of 100 km down to at least 160 km. Intermediate depth events causing the observed phases are located inside the layer or directly beneath it in the slab mantle. The layer is interpreted as partially eclogized lower oceanic crust persisting to depth beyond the volcanic arc.}, subject = {Anden}, language = {en} } @phdthesis{Grosse2005, author = {Grosse, Guido}, title = {Characterisation and evolution of periglacial landscapes in Northern Siberia during the Late Quaternary : remote sensing and GIS studies}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-5544}, school = {Universit{\"a}t Potsdam}, year = {2005}, abstract = {About 24 \% of the land surface in the northern hemisphere are underlayed by permafrost in various states. Permafrost aggradation occurs under special environmental conditions with overall low annual precipitation rates and very low mean annual temperatures. Because the general permafrost occurrence is mainly driven by large-scale climatic conditions, the distribution of permafrost deposits can be considered as an important climate indicator. The region with the most extensive continuous permafrost is Siberia. In northeast Siberia, the ice- and organic-rich permafrost deposits of the Ice Complex are widely distributed. These deposits consist mostly of silty to fine-grained sandy sediments that were accumulated during the Late Pleistocene in an extensive plain on the then subaerial Laptev Sea shelf. One important precondition for the Ice Complex sedimentation was, that the Laptev Sea shelf was not glaciated during the Late Pleistocene, resulting in a mostly continuous accumulation of permafrost sediments for at least this period. This shelf landscape became inundated and eroded in large parts by the Holocene marine transgression after the Last Glacial Maximum. Remnants of this landscape are preserved only in the present day coastal areas. Because the Ice Complex deposits contain a wide variety of palaeo-environmental proxies, it is an excellent palaeo-climate archive for the Late Quaternary in the region. Furthermore, the ice-rich Ice Complex deposits are sensible to climatic change, i.e. climate warming. Because of the large-scale climatic changes at the transition from the Pleistocene to the Holocene, the Ice Complex was subject to extensive thermokarst processes since the Early Holocene. Permafrost deposits are not only an environmental indicator, but also an important climate factor. Tundra wetlands, which have developed in environments with aggrading permafrost, are considered a net sink for carbon, as organic matter is stored in peat or is syn-sedimentary frozen with permafrost aggradation. Contrary, the Holocene thermokarst development resulted in permafrost degradation and thus the release of formerly stored organic carbon. Modern tundra wetlands are also considered an important source for the climate-driving gas methane, originating mainly from microbial activity in the seasonal active layer. Most scenarios for future global climate development predict a strong warming trend especially in the Arctic. Consequently, for the understanding of how permafrost deposits will react and contribute to such scenarios, it is necessary to investigate and evaluate ice-rich permafrost deposits like the widespread Ice Complex as climate indicator and climate factor during the Late Quaternary. Such investigations are a pre-condition for the precise modelling of future developments in permafrost distribution and the influence of permafrost degradation on global climate. The focus of this work, which was conducted within the frame of the multi-disciplinary joint German-Russian research projects "Laptev Sea 2000" (1998-2002) and "Dynamics of Permafrost" (2003-2005), was twofold. First, the possibilities of using remote sensing and terrain modelling techniques for the observation of periglacial landscapes in Northeast Siberia in their present state was evaluated and applied to key sites in the Laptev Sea coastal lowlands. The key sites were situated in the eastern Laptev Sea (Bykovsky Peninsula and Khorogor Valley) and the western Laptev Sea (Cape Mamontovy Klyk region). For this task, techniques using CORONA satellite imagery, Landsat-7 satellite imagery, and digital elevation models were developed for the mapping of periglacial structures, which are especially indicative of permafrost degradation. The major goals were to quantify the extent of permafrost degradation structures and their distribution in the investigated key areas, and to establish techniques, which can be used also for the investigation of other regions with thermokarst occurrence. Geographical information systems were employed for the mapping, the spatial analysis, and the enhancement of classification results by rule-based stratification. The results from the key sites show, that thermokarst, and related processes and structures, completely re-shaped the former accumulation plain to a strongly degraded landscape, which is characterised by extensive deep depressions and erosional remnants of the Late Pleistocene surface. As a results of this rapid process, which in large parts happened within a short period during the Early Holocene, the hydrological and sedimentological regime was completely changed on a large scale. These events resulted also in a release of large amounts of organic carbon. Thermokarst is now the major component in the modern periglacial landscapes in terms of spatial extent, but also in its influence on hydrology, sedimentation and the development of vegetation assemblages. Second, the possibilities of using remote sensing and terrain modelling as a supplementary tool for palaeo-environmental reconstructions in the investigated regions were explored. For this task additionally a comprehensive cryolithological field database was developed for the Bykovsky Peninsula and the Khorogor Valley, which contains previously published data from boreholes, outcrops sections, subsurface samples, and subsurface samples, as well as additional own field data. The period covered by this database is mainly the Late Pleistocene and the Holocene, but also the basal deposits of the sedimentary sequence, interpreted as Pliocene to Early Pleistocene, are contained. Remote sensing was applied for the observation of periglacial strucures, which then were successfully related to distinct landscape development stages or time intervals in the investigation area. Terrain modelling was used for providing a general context of the landscape development. Finally, a scheme was developed describing mainly the Late Quaternary landscape evolution in this area. A major finding was the possibility of connecting periglacial surface structures to distinct landscape development stages, and thus use them as additional palaeo-environmental indicator together with other proxies for area-related palaeo-environmental reconstructions. In the landscape evolution scheme, i.e. of the genesis of the Late Pleistocene Ice Complex and the Holocene thermokarst development, some new aspects are presented in terms of sediment source and general sedimentation conditions. This findings apply also for other sites in the Laptev Sea region.}, subject = {Dauerfrostboden}, language = {en} } @phdthesis{Knoerich2005, author = {Kn{\"o}rich, Andrea Claudia}, title = {Investigations on the importance of early diagenetic processes for the mineralogical stabilisation and lithification of heterozoan carbonate assemblages : (Oligo-Miocene, Maltese Islands and Sicily)}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-5405}, school = {Universit{\"a}t Potsdam}, year = {2005}, abstract = {Diagenetic studies of carbonate rocks focused for a long time on photozoan carbonate assemblages deposited in tropical climates. The results of these investigations were taken as models for the diagenetic evolution of many fossil carbonates. Only in recent years the importance of heterozoan carbonates, generally formed out of the tropics or in deeper waters, was realized. Diagenetic studies focusing on this kind of rocks are still scarce, but indicate that the diagenetic evolution of these rocks might be a better model for many fossil carbonate settings ("calcite-sea" carbonates) than the photozoan model used before. This study deals with the determination of the diagenetic pathways and environments in such shallow-water heterozoan carbonate assemblages. Special emphasis is put on the identification of early, near-seafloor diagenetic processes and on the evaluation of the amount of constructive diagenesis in form of cementation in this diagenetic environment. As study area the Central Mediterranean, the Maltese Islands and Sicily, was chosen. Here two sections were logged in Olio-Miocene shallow-water carbonates consisting of different kinds of heterozoan assemblages. The study area is very suitable for the investigation of constructive early diagenetic processes, as the rocks were never deeply buried and burial diagenetic pressure solution and cementation as cause of lithification could be ruled out. Nevertheless, the carbonate rocks are well lithified and form steep cliffs, implying cementation/lithification in another, shallower diagenetic environment. To determine the diagenetic pathways and environments, detailed transmitted light and cathodoluminescence petrography was carried out on thin sections. Furthermore the stable isotope (δ18O and δ13C) composition of the bulk rock, single biota and single cement phases was determined, as well as the major and trace element composition of the single cement phases. Petrographically three (Sicily) to four (Maltese Islands) cementation phases, two phases of fabric selective and one of non-fabric selective dissolution, one phase of neomorphism and one of chemical compaction could be distinguished. The stable isotope measurements of the single cement phases pointed to cement precipitation from marine, marine-derived and meteoric waters. The trace element analysis indicated precipitation under reducing conditions, (A) in an open system with low rock-water interaction on the Maltese Islands and (B) in a closed system with high rock-water interaction on Sicily. For the closed systems case, aragonite as cement source could be concluded because its chemical composition was preserved in the newly formed cements. By integrating these results, diagenetic pathways and environments for the investigated locations were established, and the cement source(s) in the different environments were determined. The diagenetic evolution started in the marine environment with the precipitation of fibrous/fibrous-bladed and epitaxial cement I. These cements formed as High Mg Calcite (HMC) directly out of marine waters. The paleoenvironmentally shallowest part of the section on the Maltese Islands was also exposed to meteoric diagenetic fluids. This meteoric influence lead to the dissolution of aragonitic and HMC skeletons, which sourced the cementation by Low Mg Calcitic (LMC) epitaxial cement II in this part of the Maltese section. Entering the burial-marine environment the main part of dissolution, cementation and neomorphism started to take place. The elevated CO2 content in this environment, caused by the decay of organic matter, lead to the dissolution of aragonitic skeletons, which sourced the cementation by LMC epitaxial cement II, bladed and blocky cements. The earlier precipitated HMC cement phases were either partly dissolved (epitaxial cement I) or neomorphosed to LMC (fibrous/fibrous-bladed and epitaxial cement I). In the burial environment weak chemical compaction took place without sourcing significant amounts of cementation. In a last phase the rocks entered the meteoric realm by uplift, which caused non-fabric selective dissolution. This study shows that early diagenetic processes, taking place at or just below the sediment-water-interface, are very important for the mineralogical stabilization of heterozoan carbonate strata. The main amount of constructive diagenesis in form of cementation takes place in this environment, sourced by dissolution of aragonitic and, to a lesser degree, of HMC skeletons. The results of this study imply that the primary amount of aragonitic skeletons in heterozoan carbonate sediments must be carefully assessed, as they are the main early diagenetic cement source. In fossil heterozoan carbonate rocks, aragonitic skeletons might be the cement source even when no relict structures like micritic envelops or biomolds are preserved. In general, the diagenetic evolution of heterozoan carbonate rocks is a good model for the diagenesis of "calcite-sea" time carbonate rocks.}, subject = {Fr{\"u}hdiagenese}, language = {en} } @phdthesis{Thiede2005, author = {Thiede, Rasmus Christoph}, title = {Tectonic and climatic controls on orogenic processes : the Northwest Himalaya, India}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-2281}, school = {Universit{\"a}t Potsdam}, year = {2005}, abstract = {The role of feedback between erosional unloading and tectonics controlling the development of the Himalaya is a matter of current debate. The distribution of precipitation is thought to control surface erosion, which in turn results in tectonic exhumation as an isostatic compensation process. Alternatively, subsurface structures can have significant influence in the evolution of this actively growing orogen. Along the southern Himalayan front new 40Ar/39Ar white mica and apatite fission track (AFT) thermochronologic data provide the opportunity to determine the history of rock-uplift and exhumation paths along an approximately 120-km-wide NE-SW transect spanning the greater Sutlej region of the northwest Himalaya, India. 40Ar/39Ar data indicate, consistent with earlier studies that first the High Himalayan Crystalline, and subsequently the Lesser Himalayan Crystalline nappes were exhumed rapidly during Miocene time, while the deformation front propagated to the south. In contrast, new AFT data delineate synchronous exhumation of an elliptically shaped, NE-SW-oriented ~80 x 40 km region spanning both crystalline nappes during Pliocene-Quaternary time. The AFT ages correlate with elevation, but show within the resolution of the method no spatial relationship to preexisting major tectonic structures, such as the Main Central Thrust or the Southern Tibetan Fault System. Assuming constant exhumation rates and geothermal gradient, the rocks of two age vs. elevation transects were exhumed at ~1.4 \&\#177;0.2 and ~1.1 \&\#177;0.4 mm/a with an average cooling rate of ~50-60 \&\#176;C/Ma during Pliocene-Quaternary time. The locus of pronounced exhumation defined by the AFT data coincides with a region of enhanced precipitation, high discharge, and sediment flux rates under present conditions. We therefore hypothesize that the distribution of AFT cooling ages might reflect the efficiency of surface processes and fluvial erosion, and thus demonstrate the influence of erosion in localizing rock-uplift and exhumation along southern Himalayan front, rather than encompassing the entire orogen.Despite a possible feedback between erosion and exhumation along the southern Himalayan front, we observe tectonically driven, crustal exhumation within the arid region behind the orographic barrier of the High Himalaya, which might be related to and driven by internal plateau forces. Several metamorphic-igneous gneiss dome complexes have been exhumed between the High Himalaya to the south and Indus-Tsangpo suture zone to the north since the onset of Indian-Eurasian collision ~50 Ma ago. Although the overall tectonic setting is characterized by convergence the exhumation of these domes is accommodated by extensional fault systems.Along the Indian-Tibetan border the poorly described Leo Pargil metamorphic-igneous gneiss dome (31-34\&\#176;N/77-78\&\#176;E) is located within the Tethyan Himalaya. New field mapping, structural, and geochronologic data document that the western flank of the Leo Pargil dome was formed by extension along temporally linked normal fault systems. Motion on a major detachment system, referred to as the Leo Pargil detachment zone (LPDZ) has led to the juxtaposition of low-grade metamorphic, sedimentary rocks in the hanging wall and high-grade metamorphic gneisses in the footwall. However, the distribution of new 40Ar/39Ar white mica data indicate a regional cooling event during middle Miocene time. New apatite fission track (AFT) data demonstrate that subsequently more of the footwall was extruded along the LPDZ in a brittle stage between 10 and 2 Ma with a minimum displacement of ~9 km. Additionally, AFT-data indicate a regional accelerated cooling and exhumation episode starting at ~4 Ma. Thus, tectonic processes can affect the entire orogenic system, while potential feedbacks between erosion and tectonics appear to be limited to the windward sides of an orogenic systems.}, language = {en} } @phdthesis{Heim2005, author = {Heim, Birgit}, title = {Qualitative and quantitative analyses of Lake Baikal's surface-waters using ocean colour satellite data (SeaWiFS)}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-7182}, school = {Universit{\"a}t Potsdam}, year = {2005}, abstract = {One of the most difficult issues when dealing with optical water remote-sensing is its acceptance as a useful application for environmental research. This problem is, on the one hand, concerned with the optical complexity and variability of the investigated natural media, and therefore the question arises as to the plausibility of the parameters derived from remote-sensing techniques. Detailed knowledge about the regional bio- and chemico-optical properties is required for such studies, however such information is seldom available for the sites of interest. On the other hand, the primary advantage of remote-sensing information, which is the provision of a spatial overview, may not be exploited fully by the disciplines that would benefit most from such information. It is often seen in a variety of disciplines that scientists have been primarily trained to look at discrete data sets, and therefore have no experience of incorporating information dealing with spatial heterogeneity. In this thesis, the opportunity was made available to assess the potential of Ocean Colour data to provide spatial and seasonal information about the surface waters of Lake Baikal (Siberia). While discrete limnological field data is available, the spatial extension of Lake Baikal is enormous (ca. 600 km), while the field data are limited to selected sites and expedition time windows. Therefore, this remote-sensing investigation aimed to support a multi-disciplinary limnological investigation within the framework of the paleoclimate EU-project 'High Resolution CONTINENTal Paleoclimate Record in Lake Baikal, Siberia (CONTINENT)' using spatial and seasonal information from the SeaWiFS satellite (NASA). From this, the SeaWiFS study evolved to become the first efficient bio-optical satellite study of Lake Baikal. During the course of three years, field work including spectral field measurements and water sampling, was carried out at Lake Baikal in Southern Siberia, and at the Mecklenburg and Brandenburg lake districts in Germany. The first step in processing the SeaWiFS satellite data involved adapting the SeaDAS (NASA) atmospheric-correction processing to match as close as possible the specific conditions of Lake Baikal. Next, various Chl-a algorithms were tested on the atmospherically-corrected optimized SeaWiFS data set (years 2001 to 2002), comparing the CONTINENT pigment ground-truth data with the Chl-a concentrations derived from the satellite data. This showed the high performance of the global Chl-a products OC2 and OC4 for the oligotrophic, transparent waters (bio-optical Case 1) of Lake Baikal. However, considerable Chl-a overestimation prevailed in bio-optical Case 2 areas for the case of discharge events. High-organic terrigenous input into Lake Baikal could be traced and information extracted using the SeaWiFS spectral data. Suspended Particulate Matter (SPM) was quantified by the regression of the SeaDAS attenuation coefficient as the optical parameter with SPM field data. Finally, the Chl-a and terrigenous input maps derived from the remote sensing data were used to assist with analyzing the relationships between the various discrete data obtained during the CONTINENT field work. Hence, plausible spatial and seasonal information describing autochthonous and allochthonous material in Lake Baikal could be provided by satellite data.Lake Baikal, with its bio-optical complexity and its different areas of Case 1 and Case 2 waters, is a very interesting case study for Ocean Colour analyses. Proposals for future Ocean Colour studies of Lake Baikal are discussed, including which bio-optical parameters for analytical models still need to be clarified by field investigations.}, subject = {Baikalsee}, language = {en} } @phdthesis{Popp2006, author = {Popp, Steffen}, title = {Late Quaternary Environment of Central Yakuutia (NE{\"i} Siberia): Signals in Frozen Ground and Terrestrial Sediments}, address = {Potsdam}, pages = {85 S. : graph. Darst.}, year = {2006}, language = {en} } @phdthesis{Sorrel2006, author = {Sorrel, Philippe}, title = {The Aral Sea : a palaeoclimate archive}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-7807}, school = {Universit{\"a}t Potsdam}, year = {2006}, abstract = {The intracontinental endorheic Aral Sea, remote from oceanic influences, represents an excellent sedimentary archive in Central Asia that can be used for high-resolution palaeoclimate studies. We performed palynological, microfacies and geochemical analyses on sediment cores retrieved from Chernyshov Bay, in the NW part of the modern Large Aral Sea. The most complete sedimentary sequence, whose total length is 11 m, covers approximately the past 2000 years of the late Holocene. High-resolution palynological analyses, conducted on both dinoflagellate cysts assemblages and pollen grains, evidenced prominent environmental change in the Aral Sea and in the catchment area. The diversity and the distribution of dinoflagellate cysts within the assemblages characterized the sequence of salinity and lake-level changes during the past 2000 years. Due to the strong dependence of the Aral Sea hydrology to inputs from its tributaries, the lake levels are ultimately linked to fluctuations in meltwater discharges during spring. As the amplitude of glacial meltwater inputs is largely controlled by temperature variations in the Tien Shan and Pamir Mountains during the melting season, salinity and lake-level changes of the Aral Sea reflect temperature fluctuations in the high catchment area during the past 2000 years. Dinoflagellate cyst assemblages document lake lowstands and hypersaline conditions during ca. 0-425 AD, 920-1230 AD, 1500 AD, 1600-1650 AD, 1800 AD and since the 1960s, whereas oligosaline conditions and higher lake levels prevailed during the intervening periods. Besides, reworked dinoflagellate cysts from Palaeogene and Neogene deposits happened to be a valuable proxy for extreme sheet-wash events, when precipitation is enhanced over the Aral Sea Basin as during 1230-1450 AD. We propose that the recorded environmental changes are related primarily to climate, but may have been possibly amplified during extreme conditions by human-controlled irrigation activities or military conflicts. Additionally, salinity levels and variations in solar activity show striking similarities over the past millennium, as during 1000-1300 AD, 1450-1550 and 1600-1700 AD when low lake levels match well with an increase in solar activity thus suggesting that an increase in the net radiative forcing reinforced past Aral Sea's regressions. On the other hand, we used pollen analyses to quantify changes in moisture conditions in the Aral Sea Basin. High-resolution reconstruction of precipitation (mean annual) and temperature (mean annual, coldest versus warmest month) parameters are performed using the "probability mutual climatic spheres" method, providing the sequence of climate change for the past 2000 years in western Central Asia. Cold and arid conditions prevailed during ca. 0-400 AD, 900-1150 AD and 1500-1650 AD with the extension of xeric vegetation dominated by steppe elements. Conversely, warmer and less arid conditions occurred during ca. 400-900 AD and 1150-1450 AD, where steppe vegetation was enriched in plants requiring moister conditions. Change in the precipitation pattern over the Aral Sea Basin is shown to be predominantly controlled by the Eastern Mediterranean (EM) cyclonic system, which provides humidity to the Middle East and western Central Asia during winter and early spring. As the EM is significantly regulated by pressure modulations of the North Atlantic Oscillation (NAO) when the system is in a negative phase, a relationship between humidity over western Central Asia and the NAO is proposed. Besides, laminated sediments record shifts in sedimentary processes during the late Holocene that reflect pronounced changes in taphonomic dynamics. In Central Asia, the frequency of dust storms occurring during spring when the continent is heating up is mostly controlled by the intensity and the position of the Siberian High (SH) Pressure System. Using titanium (Ti) content in laminated sediments as a proxy for aeolian detrital inputs, changes in wind dynamics over Central Asia is documented for the past 1500 years, offering the longest reconstruction of SH variability to date. Based on high Ti content, stronger wind dynamics are reported from 450-700 AD, 1210-1265 AD, 1350-1750 AD and 1800-1975 AD, reporting a stronger SH during spring. In contrast, lower Ti content from 1750-1800 AD and 1980-1985 AD reflect a diminished influence of the SH and a reduced atmospheric circulation. During 1180-1210 AD and 1265-1310 AD, considerably weakened atmospheric circulation is evidenced. As a whole, though climate dynamics controlled environmental changes and ultimately modulated changes in the western Central Asia's climate system, it is likely that changes in solar activity also had an impact by influencing to some extent the Aral Sea's hydrology balance and also regional temperature patterns in the past.
The appendix of the thesis is provided via the HTML document as ZIP download.}, subject = {Aralsee}, language = {en} } @phdthesis{Roessler2006, author = {R{\"o}ßler, Dirk}, title = {Retrieval of earthquake source parameters in inhomogeneous anisotropic mediawith application to swarm events in West Bohemia in 2000}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-7758}, school = {Universit{\"a}t Potsdam}, year = {2006}, abstract = {Earthquakes form by sudden brittle failure of rock mostly as shear ruptures along a rupture plane. Beside this, mechanisms other than pure shearing have been observed for some earthquakes mainly in volcanic areas. Possible explanations include complex rupture geometries and tensile earthquakes. Tensile earthquakes occur by opening or closure of cracks during rupturing. They are likely to be often connected with fluids that cause pressure changes in the pore space of rocks leading to earthquake triggering. Tensile components have been reported for swarm earthquakes in West Bohemia in 2000. The aim and subject of this work is an assessment and the accurate determination of such tensile components for earthquakes in anisotropic media. Currently used standard techniques for the retrieval of earthquake source mechanisms assume isotropic rock properties. By means of moment tensors, equivalent forces acting at the source are used to explain the radiated wavefield. Conversely, seismic anisotropy, i.e. directional dependence of elastic properties, has been observed in the earth's crust and mantle such as in West Bohemia. In comparison to isotropy, anisotropy causes modifications in wave amplitudes and shear-wave splitting. In this work, effects of seismic anisotropy on true or apparent tensile source components of earthquakes are investigated. In addition, earthquake source parameters are determined considering anisotropy. It is shown that moment tensors and radiation patterns due to shear sources in anisotropic media may be similar to those of tensile sources in isotropic media. In contrast, similarities between tensile earthquakes in anisotropic rocks and shear sources in isotropic media may exist. As a consequence, the interpretation of tensile source components is ambiguous. The effects that are due to anisotropy depend on the orientation of the earthquake source and the degree of anisotropy. The moment of an earthquake is also influenced by anisotropy. The orientation of fault planes can be reliably determined even if isotropy instead of anisotropy is assumed and if the spectra of the compressional waves are used. Greater difficulties may arise when the spectra of split shear waves are additionally included. Retrieved moment tensors show systematic artefacts. Observed tensile source components determined for events in West Bohemia in 1997 can only partly be attributed to the effects of moderate anisotropy. Furthermore, moment tensors determined earlier for earthquakes induced at the German Continental Deep Drilling Program (KTB), Bavaria, were reinterpreted under assumptions of anisotropic rock properties near the borehole. The events can be consistently identified as shear sources, although their moment tensors comprise tensile components that are considered to be apparent. These results emphasise the necessity to consider anisotropy to uniquely determine tensile source parameters. Therefore, a new inversion algorithm has been developed, tested, and successfully applied to 112 earthquakes that occurred during the most recent intense swarm episode in West Bohemia in 2000 at the German-Czech border. Their source mechanisms have been retrieved using isotropic and anisotropic velocity models. Determined local magnitudes are in the range between 1.6 and 3.2. Fault-plane solutions are similar to each other and characterised by left-lateral faulting on steeply dipping, roughly North-South oriented rupture planes. Their dip angles decrease above a depth of about 8.4km. Tensile source components indicating positive volume changes are found for more than 60\% of the considered earthquakes. Their size depends on source time and location. They are significant at the beginning of the swarm and at depths below 8.4km but they decrease in importance later in the course of the swarm. Determined principle stress axes include P axes striking Northeast and Taxes striking Southeast. They resemble those found earlier in Central Europe. However, depth-dependence in plunge is observed. Plunge angles of the P axes decrease gradually from 50° towards shallow angles with increasing depth. In contrast, the plunge angles of the T axes change rapidly from about 8° above a depth of 8.4km to 21° below this depth. By this thesis, spatial and temporal variations in tensile source components and stress conditions have been reported for the first time for swarm earthquakes in West Bohemia in 2000. They also persist, when anisotropy is assumed and can be explained by intrusion of fluids into the opened cracks during tensile faulting.}, subject = {Seismologie}, language = {en} } @phdthesis{Drost2007, author = {Drost, Kerstin}, title = {Sources and geotectonic setting of late neoproterozoic : early palaeozoic volcano-sedimentary successions of the Tepl{\´a}-Barrandian unit (Bohemian Massif) : Evidence from petrographical, geochemical, and isotope analyses}, address = {Potsdam}, pages = {VII, 132, XLIV S. : graph. Darst.}, year = {2007}, language = {en} } @phdthesis{Mora2007, author = {Mora, Andr{\´e}s}, title = {Inversion tectonics an exhumation processes in the eastern cordillera of Colombia}, address = {Potsdam}, pages = {xi, 133 S. : graph. Darst., Kt.}, year = {2007}, language = {en} } @phdthesis{Kellner2007, author = {Kellner, Antje}, title = {Different styles of deformation of the fore-arc wedge along the Chilean convergent margin : insights from 3D numerical experiments}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-15898}, school = {Universit{\"a}t Potsdam}, year = {2007}, abstract = {The styles of deformation of the fore-arc wedges along the Chilean convergent margin are observed to vary significantly, despite similar plate kinematic conditions. Here, I focus on the analysis of fore-arc deformation on two regions along the Chilean convergent margin at 20°-24°S and 37°-42°S. Although both regions are subjected to the oblique subduction of the oceanic Nazca plate and backstopped by the Andes mountain chain; they display different patterns of deformation. The northern Chilean study area (20° - 24°S) is characterized by an exceptionally thick crust of about 60 km beneath the Altiplano - Puna plateau, lack of an accretionary wedge in the fore-arc due to hyperarid climate, and consequently a sediment starved trench. Two major margin parallel strike slip faults are observed in this area, the Atacama Fault Zone (AFZ) and the Precordilleran Fault System (PFS). Both strike-slip faults do not exhibit significant recent displacement. The southern study area (37° - 42°S), compared to the northern study area, is characterized by lower topography, high precipitation rates (~2000 mm/yr), and a younger subducted oceanic plate. An active strike-slip fault, the Liqui{\~n}e-Ofqui-Fault-Zone (LOFZ), shows ~1 cm/yr recent dextral movement and shapes the surface of this area. Thus, the southern Chilean study area exhibits localized strike-slip motion. Within this area the largest earthquake ever recorded, the 1960 Valdivia earthquake, occurred with a moment magnitude of MW=9.5. I have constructed 2D thermal models and 3D mechanical models for both Chilean study areas to study processes related to active subduction. The applied numerical method is the finite element technique by means of the commercial software package ABAQUS. The thermal models are focused on the thermal conditions along the plate interface. The thermal structure along the plate interface reveals the limits of coupling but also the type of transition from coupled to uncoupled and vice versa. The model results show that shear heating at the plate interface is an important mechanism that should be taken into account. The models also show that the thermal condition at the downdip limit of the coupling zone leads to a sharp decrease of friction along the interface. Due to the different geometries of the two Chilean study areas, such as the slab dip and the thickness of the continental crust, the downdip limit of the southern study area is slightly shallower than that of the northern study area. The results of the 2D thermal models are used to constrain the spatial extent of the coupling zone in the 3D mechanical models. 3D numerical simulations are used to investigate how geometry, rheology and mechanical parameters influence strain partitioning and styles of deformation in the Chilean fore-arc. The general outline of the models is based on the fore-arc geometry and boundary conditions as derived from geophysical and geological field data. I examined the influence of different rheological approaches and varying physical properties of the fore-arc to identify and constrain the parameters controlling the difference in surface deformation between the northern and southern study area. The results of numerical studies demonstrate that a small slab dip, a high coefficient of basal friction, a high obliquity of convergence, and a high Young's modulus favour localisation of deformation in the fore-arc wedge. This parameter study helped me to constrain preferred models for the two Chilean study areas that fit to first order observations. These preferred models explain the difference in styles of deformation as controlled by the angle of obliquity, the dip of subducting slab, and the strength of wedge material. The difference in styles can be even larger if I apply stronger coupling between plates within the southern area; however, several independent observations indicate opposite tendency showing southward decrease of intensity of coupling. The weaker wedge material of the preferred model for the northern study area is associated with advanced development of the adjacent orogen, the Central Andes. Analysis of world-wide examples of oblique subduction zones supports the conclusion that more mature subduction zones demonstrate less pronounced localization of strike-slip motion.}, language = {en} } @phdthesis{VasquezParra2007, author = {V{\´a}squez Parra, M{\´o}nica Fernanda}, title = {Mafic magmatism in the Eastern Cordillera and Putumayo Basin, Colombia : causes and consequences}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-13183}, school = {Universit{\"a}t Potsdam}, year = {2007}, abstract = {The Eastern Cordillera of Colombia is mainly composed of sedimentary rocks deposited since early Mesozoic times. Magmatic rocks are scarce. They are represented only by a few locally restricted occurrences of dykes and sills of mafic composition presumably emplaced in the Cretaceous and of volcanic rocks of Neogene age. This work is focused on the study of the Cretaceous magmatism with the intention to understand the processes causing the genesis of these rocks and their significance in the regional tectonic setting of the Northern Andes. The magmatic rocks cut the Cretaceous sedimentary succession of black shales and marlstones that crop out in both flanks of the Eastern Cordillera. The studied rocks were classified as gabbros (C{\´a}ceres, Pacho, Rodrigoque), tonalites (C{\´a}ceres, La Corona), diorites and syenodiorites (La Corona), pyroxene-hornblende gabbros (Pacho), and pyroxene-hornblendites (Pajarito). The gabbroic samples are mainly composed of plagioclase, clinopyroxene, and/or green to brown hornblende, whereas the tonalitic rocks are mainly composed of plagioclase and quartz. The samples are highly variable in crystal sizes from fine- to coarse-grained. Accessory minerals such as biotite, titanite and zircon are present. Some samples are characterized by moderate to strong alteration, and show the presence of epidote, actinolite and chlorite. Major and trace element compositions of the rocks as well as the rock-forming minerals show significant differences in the geochemical and petrological characteristics for the different localities, suggesting that this magmatism does not result from a single melting process. The wide compositional spectrum of trace elements in the intrusions is characteristic for different degrees of mantle melting and enrichment of incompatible elements. MORB- and OIB-like compositions suggest at least two different sources of magma with tholeiitic and alkaline affinity, respectively. Evidence of slab-derived fluids can be recognized in the western part of the basin reflected in higher Ba/Nb and Sr/P ratios and also in the Sr radiogenic isotope ratios, which is possible a consequence of metasomatism in the mantle due to processes related to the presence of a previously subducted slab. The trace element patterns evidence an extensional setting in the Cretaceous basin producing a continental rift, with continental crust being stretched until oceanic crust was generated in the last stages of this extension. Electron microprobe analyses (EMPA) of the major elements and synchrotron radiation micro-X-ray fluorescence (μ-SRXRF) analyses of the trace element composition of the early crystallized minerals of the intrusions (clinopyroxenes and amphiboles) reflect the same dual character that has been found in the bulk-rock analyses. Despite the observed alteration of the rocks, the mineral composition shows evidences for an enriched and a relative depleted magma source. Even the normalization of the trace element concentrations of clinopyroxenes and amphiboles to the whole rock nearly follows the pattern predicted by published partition coefficients, suggesting that the alteration did not change the original trace element compositions of the investigated minerals. Sr-Nd-Pb isotope data reveal a large isotopic variation but still suggest an initial origin of the magmas in the mantle. Samples have moderate to highly radiogenic compositions of 143Nd/144Nd and high 87Sr/86Sr ratios and follow a trend towards enriched mantle compositions, like the local South American Paleozoic crust. The melts experienced variable degrees of contamination by sediments, crust, and seawater. The age corrected Pb isotope ratios show two separated groups of samples. This suggests that the chemical composition of the mantle below the Northern Andes has been modified by the interaction with other components resulting in a heterogeneous combination of materials of diverse origins. Although previous K/Ar age dating have shown that the magmatism took place in the Cretaceous, the high error of the analyses and the altered nature of the investigated minerals did preclude reliable interpretations. In the present work 40Ar/39Ar dating was carried out. The results show a prolonged history of magmatism during the Cretaceous over more than 60 Ma, from ~136 to ~74 Ma (Hauterivian to Campanian). Pre-Cretaceous rifting phases occurred in the Triassic-Jurassic for the western part of the basin and in the Paleozoic for the eastern part. Those previous rifting phases are decisive mechanisms controlling the localization and composition of the Cretaceous magmatism. Therefore, it is the structural position and not the age of the intrusions which preconditions the kind of magmatism and the degree of melting. The divergences on ages are the consequence of the segmentation of the basin in several sub-basins which stretching, thermal evolution and subsidence rate evolved independently. The first hypothesis formulated at the beginning of this investigation was that the Cretaceous gabbroic intrusions identified in northern Ecuador could be correlated with the intrusions described in the Eastern Cordillera. The mafic occurrences should mark the location of the most subsiding places of the large Cretaceous basin in northern South America. For this reason, the gabbroic intrusions cutting the Cretaceous succession in the Putumayo Basin, southern Colombia, were investigated. The results of the studies were quite unexpected. The petrologic and geochemical character of the magmatic rocks indicates subduction-related magmatism. K/Ar dating of amphibole yields a Late Miocene to Pliocene age (6.1 ± 0.7 Ma) for the igneous event in the basin. Although there is no correlation between this magmatic event and the Cretaceous magmatic event, the data obtained has significant tectonic and economic implications. The emplacement of the Neogene gabbroic rocks coincides with the late Miocene/Pliocene Andean orogenic uplift as well as with a significant pulse of hydrocarbon generation and expulsion.}, language = {en} } @phdthesis{Sobel2007, author = {Sobel, Edward}, title = {Interactions between deformation, exhumation, and climate in arid regions constrained by apatite fission-track analysis}, address = {Potsdam}, pages = {Getr. Z{\"a}hlung : graph. Darst., Kt.}, year = {2007}, language = {en} } @phdthesis{Melnick2007, author = {Melnick, Daniel}, title = {Neogene seismotectonics of the south-central Chile margin : subduction-related processes over various temporal and spatial scales}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-12091}, school = {Universit{\"a}t Potsdam}, year = {2007}, abstract = {The Andean orogen is the most outstanding example of mountain building caused by the subduction of oceanic below continental lithosphere. The Andes formed by the subduction of the Nazca and Antarctic oceanic plates under the South American continent over at least ~200 million years. Tectonic and climatic conditions vary markedly along this north-south-oriented plate boundary, which thus represents an ideal natural laboratory to study tectonic and climatic segmentation processes and their possible feedbacks. Most of the seismic energy on Earth is released by earthquakes in subduction zones, like the giant 1960, Mw 9.5 event in south-central Chile. However, the segmentation mechanisms of surface deformation during and between these giant events have remained poorly understood. The Andean margin is a key area to study seismotectonic processes because of its along-strike variability under similar plate kinematic boundary conditions. Active deformation has been widely studied in the central part of the Andes, but the south-central sector of the orogen has gathered less research efforts. This study focuses on tectonics at the Neogene and late Quaternary time scales in the Main Cordillera and coastal forearc of the south-central Andes. For both domains I document the existence of previously unrecognized active faults and present estimates of deformation rates and fault kinematics. Furthermore these data are correlated to address fundamental mountain building processes like strain partitioning and large-scale segmentation. In the Main Cordillera domain and at the Neogene timescale, I integrate structural and stratigraphic field observations with published isotopic ages to propose four main phases of coupled styles of tectonics and distribution of volcanism and magmatism. These phases can be related to the geometry and kinematics of plate convergence. At the late Pleistocene timescale, I integrate field observations with lake seismic and bathymetric profiles from the Lago Laja region, located near the Andean drainage divide. These data reveal Holocene extensional faults, which define the Lago Laja fault system. This fault system has no significant strike-slip component, contrasting with the Liqui{\~n}e-Ofqui dextral intra-arc system to the south, where Holocene strike-slip markers are ubiquitous. This contrast in structural style along the arc is coincident with a marked change in along-strike fault geometries in the forearc, across the Arauco Peninsula. Thereon I propose that a net gradient in the degree of partitioning of oblique subduction occurs across the Arauco transition zone. To the north, the margin parallel component of oblique convergence is distributed in a wide zone of diffuse deformation, while to the south it is partitioned along an intra-arc, margin-parallel strike-slip fault zone. In the coastal forearc domain and at the Neogene timescale, I integrate structural and stratigraphic data from field observations, industry reflection-seismic profiles and boreholes to emphasize the influence of climate-driven filling of the trench on the mechanics and kinematics of the margin. I show that forearc basins in the 34-45°S segment record Eocene to early Pliocene extension and subsidence followed by ongoing uplift and contraction since the late Pliocene. I interpret the first stage as caused by tectonic erosion due to high plate convergence rates and reduced trench fill. The subsequent stage, in turn, is related to accretion caused by low convergence rates and the rapid increase in trench fill after the onset of Patagonian glaciations and climate-driven exhumation at ~6-5 Ma. On the late Quaternary timescale, I integrate off-shore seismic profiles with the distribution of deformed marine terraces from Isla Santa Mar{\´i}a, dated by the radiocarbon method, to show that inverted reverse faulting controls the coastal geomorphology and segmentation of surface deformation. There, a cluster of microearthquakes illuminates one of these reverse faults, which presumingly reaches the plate interface. Furthermore, I use accounts of coseismic uplift during the 1835 M>8 earthquake made by Charles Darwin, to propose that this active reverse fault has been mechanically coupled to the megathrust. This has important implications on the assessment of seismic hazards in this, and other similar regions. These results underscore the need to study plate-boundary deformation processes at various temporal and spatial scales and to integrate geomorphologic, structural, stratigraphic, and geophysical data sets in order to understand the present distribution and causes of tectonic segmentation.}, language = {en} } @phdthesis{Lantuit2008, author = {Lantuit, Hugues}, title = {The modification of arctic permafrost coastlines}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-19732}, school = {Universit{\"a}t Potsdam}, year = {2008}, abstract = {The arctic region is undergoing the most rapid environmental change experienced on Earth, and the rate of change is expected to increase over the coming decades. Arctic coasts are particularly vulnerable because they lie at the interface between terrestrial systems dominated by permafrost and marine systems dominated by sea ice. An increased rise in sea level and degradation of sea-ice as predicted by the Intergovernmental Panel on Climate Change in its most recent report and as observed recently in the Arctic will likely result in greater rates of coastal retreat. An increase in coastal erosion would result in dramatic increases in the volume of sediment, organic carbon and contaminants to the Arctic Ocean. These in turn have the potential to create dramatic changes in the geochemistry and biodiversity of the nearshore zone and affect the Arctic Ocean carbon cycle. To calculate estimates of organic carbon input from coastal erosion to the Arctic Ocean, current methods rely on the length of the coastline in the form of non self-similar line datasets. This thesis however emphasizes that using shorelines drawn at different scales can induce changes in the amount of sediment released by 30\% in some cases. It proposes a substitute method of computations of erosion based on areas instead of lengths (i.e. buffers instead of shoreline lengths) which can be easily implemented at the circum-Arctic scale. Using this method, variations in quantities of eroded sediment are, on average, 70\% less affected by scale changes and are therefore a more reliable method of calculation. Current estimates of coastal erosion rates in the Arctic are scarce and long-term datasets are a handful, which complicates assessment and prognosis of coastal processes, in particular the occurrence of coastal hazards. This thesis aims at filling the gap by providing the first long-term dataset (1951-2006) of coastal erosion on the Bykovsky Peninsula, North-East Siberia. This study shows that the coastline, which is made of ice-rich permafrost, retreated at a mean annual rate of 0.59 m/yr between 1951and 2006. Rates were highly variable: 97.0 \% of the rates observed were less than 2 m/yr and 81.6\% were less than 1m/yr. However, no significant trend in erosion could be recorded despite the study of five temporal subperiods within 1951-2006. The juxtaposition of wind records could not help to explain erosion records either and this thesis emphasizes the local controls on erosion, in particular the cryostratigraphy, the proximity of the Peninsula to the Lena River Delta freshwater plume and the local topographical constraints on swell development. On ice-rich coastal stretches of the Artic, the interaction of coastal dynamics and permafrost leads to the occurrence of spectacular "C-shaped" depressions termed retrogressive thaw slumps which can reach lengths of up to 650 m. On Herschel Island and at King Point (Yukon Coastal Plain, northern Canada), topographical, sedimentological and biogeochemical surveys were conducted to investigate the present and past activity of these landforms. In particular, undisturbed tundra areas were compared with zones of former slump activity, now stabilized and re-vegetated. This thesis shows that stabilized areas are drier and less prone to plant growth than undisturbed areas and feature fundamentally different geotechnical properties. Radiocarbon dating and topographical surveys indicated until up to 300 BP a likely period of dramatic slump activity on Herschel Island, similar to the one currently observed, which led to the creation of these surfaces. This thesis hypothesizes the occurrence of a ~250 years cycle of slump activity on the Herschel Island shoreline based on the surveyed topography and cryostratigraphy and anticipates higher frequency of slump activity in the future. The variety of processes described in this thesis highlights the changing nature of the intensity and frequency of physical processes acting upon the arctic coast. It also challenges current perceptions of the threats to existing industry and community infrastructure in the Arctic. The increasing presence of humans on Artic coasts coupled with the expected development of shipping will drive an increase in economical and industrial activity on these coasts which remains to be addressed scientifically.}, language = {en} } @phdthesis{Lange2008, author = {Lange, Dietrich}, title = {The South Chilean subduction zone between 41° and 43.5°S : seismicity, structure and state of stress}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-18948}, school = {Universit{\"a}t Potsdam}, year = {2008}, abstract = {Die st{\"a}rksten Erdbeben treten an Subduktionszonen auf, so z.B. das st{\"a}rkste instrumentell jemals gemessene Erdbeben vom 22. Mai 1960 mit einer Magnitude von 9,5 Mw in S{\"u}d Chile. In dieser Arbeit werden lokal gewonnene seismologische Daten aus dem zentralen Bereich des 1960er-Bebens vorgestellt. Das seismologische Netzwerk umfasste den chilenischen Forearc zwischen Tiefseegraben und den vulkanischen Bogen zwischen 41,5°-43,5°S und {\"u}berdeckte sowohl die Insel Chilo{\´e} als auch die Nord-S{\"u}d-streichende Liqui{\~n}e-Ofqui St{\"o}rungszone (LOFZ). Zwischen November 2004 und Oktober 2005 konnten 364 lokale Ereignisse registriert werden. Die gewonnen Aufzeichnungen erlauben Aussagen sowohl {\"u}ber das aktuelle Spannungsfeld im Forearc als auch {\"u}ber das lokale Geschwindigkeitsmodell und die Geometrie der subduzierten Benioff-Zone. Mit einer Auswahl von P- und S-Laufzeiten von gut lokalisierbaren Erdbeben wurden ein Minimum 1-D Geschwindigkeitsmodell, Stationsresiduen und die Hypozentralparameter invertiert. Dieses Geschwindigkeitsmodell diente als Startmodell f{\"u}r die 2-D Tomographie. Das 2-D vp-Modell zeigt eine Zone erh{\"o}hter Geschwindigkeiten unterhalb des L{\"a}ngstals und des {\"o}stlichen Bereiches der Insel Chilo{\´e}, die als Mantelaufw{\"o}lbung interpretiert werden kann. Die Benioff-Zone wird als eine mit ca. 30° ostw{\"a}rts einfallende Struktur abgebildet. Die seismische Hauptaktivit{\"a}t findet parallel zur K{\"u}ste der Insel Chilo{\´e} in Tiefen zwischen 12 und 30 km statt; es handelt sich um Beben, die wahrscheinlich auf der Plattengrenzfl{\"a}che stattfinden. In Tiefen {\"u}ber 70 km l{\"a}sst die Seismizit{\"a}t bereits stark nach, die tiefsten Beben wurden in 120 km Tiefe registriert. Die Abwesenheit tieferer Seismizit{\"a}t wird auf das junge Alter (und eine damit verbundene hohe Temperatur) der ozeanischen Platte zur{\"u}ckgef{\"u}hrt. Neben der Seismizit{\"a}t in der Benioff-Zone treten flache, krustale Beben in verschiedenen H{\"a}ufungen entlang des magmatischen Bogens auf. Diese Bereiche erh{\"o}hter Seismizit{\"a}t sind r{\"a}umlich mit der LOFZ und den Vulkanen Chait{\´e}n, Michinmahuida und Corcovado verkn{\"u}pft. Beben bis zu einer Magnitude von 3,8 Mw zeigen die gegenw{\"a}rtige Aktivit{\"a}t der LOFZ. Herdfl{\"a}chen entlang der LOFZ wurden aus Momententensor-Inversion anhand von Amplitudenspektren von Raumwellen gewonnen. Ergebnisse einer Spannungsfeldinversion zeigen ein Blattverschiebungsregime f{\"u}r den magmatischen Bogen und ein {\"U}berschiebungsregime f{\"u}r Beben in der Benioff-Zone auf. Die hier gemachten seismologischen Beobachtungen, zusammen mit teleseismischen Erdbeben und geologischen Befunden, unterst{\"u}tzen die Modellvorstellung eines sich nordw{\"a}rts bewegenden kontinentalen Forearc-Blocks f{\"u}r S{\"u}d Chile.}, language = {en} } @phdthesis{Kwiecien2008, author = {Kwiecien, Olga}, title = {Paleoenvironmental changes in the Black Sea region during the last 26,000 years : a multi-proxy study of lacustrine sediments from the western Black Sea}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-19180}, school = {Universit{\"a}t Potsdam}, year = {2008}, abstract = {Paleoenvironmental records provide ample information on the Late Quaternary climatic evolution. Due to the great diversity of continental mid-latitude environments the synthetic picture of the past mid-latitudinal climate changes is, however, far from being complete. Owing to its significant size and landlocked setting the Black Sea constitutes a perfect location to study patterns and mechanisms of climate change along the continental interior of Central and Eastern Europe and Asia Minor. Presently, the southern drainage area of the Black Sea is characterized by a Mediterranean-type climate while the northern drainage is under the influence of Central and Northern European climate. During the Last Glacial a decrease in the global sea level disconnected the Black Sea from the Mediterranean Sea transforming it into a giant closed lake. At that time atmospheric precipitation and related with it river run-off were the most important factors driving sediment supply and water chemistry of the Black 'Lake'. Therefore studying properties of the Black Sea sediments provides important information on the interactions and development of the Mediterranean and Central and North European climate in the past. One significant outcome of my thesis is an improved chronostraphigraphical framework for the glacial lacustrine unit of the Black Sea sediment cores, which allowed to refine the environmental history of the Black Sea region and enabled a reliable correlation with data from other marine and terrestrial archives. Data gathered along a N-S transect presented on a common time scale revealed coherent changes in the basin and its surrounding. During the glacial, the southward-shifted Polar Front reduced moisture transport to the northern drainage of the Black Sea and let the southern drainage become dominant in freshwater and sediment supply into the basin. Changes in NW Anatolian precipitation reconstructed from the variability of the terrigenous input imply that during the glacial the regional rainfall variability was strongly influenced by Mediterranean sea surface temperatures and decreased in response to the cooling associated with the North Atlantic Heinrich Events H1 and H2. In contrast to regional precipitation changes, the hydrological properties of the Black Sea remained relatively stable under full glacial conditions. First significant modification in the freshwater/sediment sources reconstructed from changes in the sediment composition, lithology, and 18O of ostracods took place at around 16.4 cal ka BP, simultaneous to the early deglacial northward retreat of the oceanic and atmospheric polar fronts. Meltwater pulses, most probably derived from the disintegrating European ice sheets, changed the isotopic composition of the Black Sea and increased the supply from northern sediment sources. While these changes signalized a mitigation of the Northern European and Mediterranean climate, a decisive increase in local temperature was indicated only later at the transition from the Oldest Dryas to the B{\o}lling around 14.6 cal ka BP. At that time the warming of the Black Sea surface initiated massive phytoplankton blooms, which in turn, induced the precipitation of inorganic carbonates. This biologically triggered process significantly changed the water chemistry and was recorded by simultaneous shifts in the elemental composition of ostracod shells and in the isotopic composition of the inorganically-precipitated carbonates. Starting with the B/A warming and continuing through the YD cold interval and the Early Holocene warming, the Black Sea temperature signal corresponds to the precipitation and temperature changes recorded in the wider Mediterranean region. Early Holocene conditions, similar to those of the B{\o}lling/Aller{\o}d, were punctured by the marine inflow from the Mediterranean at ~ 9.3 cal ka BP, which terminated the lacustrine phase of the Black Sea and had a substantial impact on the chemical and physical properties of its water.}, language = {en} } @phdthesis{Wetterich2008, author = {Wetterich, Sebastian}, title = {Freshwater ostracods as bioindicators in Arctic periglacial regions}, address = {Potsdam}, pages = {1990 S.}, year = {2008}, language = {en} } @phdthesis{Goerguen2008, author = {G{\"o}rg{\"u}n, Ethem}, title = {Analysis of the 17 August 1999 M w 7.4 Izmit earthquake aftershocks and monitoring of the Ganos segment of the North Anatolian fault zone, NW Turkey}, address = {Potsdam}, pages = {VI, 102 S. : Ill., graph. Darst.}, year = {2008}, language = {en} } @phdthesis{MarcanoRomero2008, author = {Marcano Romero, Gabriela Helena}, title = {Investigations on sedimentology and early diagenesis in shallow-water warm-temperate to tropical miocene carbonates : a case study from northern Sardinia, Italy}, address = {Potsdam}, pages = {99 Bl.[ca. 30 Bl.] : Ill., graph. Darst.}, year = {2008}, language = {en} } @phdthesis{Popov2008, author = {Popov, Anton}, title = {Three-dimensional thermo-mechanical modeling of deformation at plate boundaries : case study San Andreas Fault System}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-31875}, school = {Universit{\"a}t Potsdam}, year = {2008}, abstract = {It has always been enigmatic which processes control the accretion of the North American terranes towards the Pacific plate and the landward migration of the San Andreas plate boundary. One of the theories suggests that the Pacific plate first cools and captures the uprising mantle in the slab window, and then it causes the accretion of the continental crustal blocks. The alternative theory attributes the accretion to the capture of Farallon plate fragments (microplates) stalled in the ceased Farallon-North America subduction zone. Quantitative judgement between these two end-member concepts requires a 3D thermomechanical numerical modeling. However, the software tool required for such modeling is not available at present in the geodynamic modeling community. The major aim of the presented work is comprised basically of two interconnected tasks. The first task is the development and testing of the research Finite Element code with sufficiently advanced facilities to perform the three-dimensional geological time scale simulations of lithospheric deformation. The second task consists in the application of the developed tool to the Neogene deformations of the crust and the mantle along the San Andreas Fault System in Central and northern California. The geological time scale modeling of lithospheric deformation poses numerous conceptual and implementation challenges for the software tools. Among them is the necessity to handle the brittle-ductile transition within the single computational domain, adequately represent the rock rheology in a broad range of temperatures and stresses, and resolve the extreme deformations of the free surface and internal boundaries. In the framework of this thesis the new Finite Element code (SLIM3D) has been successfully developed and tested. This code includes a coupled thermo-mechanical treatment of deformation processes and allows for an elasto-visco-plastic rheology with diffusion, dislocation and Peierls creep mechanisms and Mohr-Coulomb plasticity. The code incorporates an Arbitrary Lagrangian Eulerian formulation with free surface and Winkler boundary conditions. The modeling technique developed is used to study the aspects influencing the Neogene lithospheric deformation in central and northern California. The model setup is focused on the interaction between three major tectonic elements in the region: the North America plate, the Pacific plate and the Gorda plate, which join together near the Mendocino Triple Junction. Among the modeled effects is the influence of asthenosphere upwelling in the opening slab window on the overlying North American plate. The models also incorporate the captured microplate remnants in the fossil Farallon subduction zone, simplified subducting Gorda slab, and prominent crustal heterogeneity such as the Salinian block. The results show that heating of the mantle roots beneath the older fault zones and the transpression related to fault stepping, altogether, render cooling in the slab window alone incapable to explain eastward migration of the plate boundary. From the viewpoint of the thermomechanical modeling, the results confirm the geological concept, which assumes that a series of microplate capture events has been the primary reason of the inland migration of the San Andreas plate boundary over the recent 20 Ma. The remnants of the Farallon slab, stalled in the fossil subduction zone, create much stronger heterogeneity in the mantle than the cooling of the uprising asthenosphere, providing the more efficient and direct way for transferring the North American terranes to Pacific plate. The models demonstrate that a high effective friction coefficient on major faults fails to predict the distinct zones of strain localization in the brittle crust. The magnitude of friction coefficient inferred from the modeling is about 0.075, which is far less than typical values 0.6 - 0.8 obtained by variety of borehole stress measurements and laboratory data. Therefore, the model results presented in this thesis provide additional independent constrain which supports the "weak-fault" hypothesis in the long-term ongoing debate over the strength of major faults in the SAFS.}, language = {en} } @phdthesis{MarcanoRomero2008, author = {Marcano Romero, Gabriela Helena}, title = {Investigations on sedimentology and early diagenesis in shallow-water warm-temperate to tropical miocene carbonates : a case study from Northern Sardinia, Italy}, url = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-29207}, school = {Universit{\"a}t Potsdam}, year = {2008}, abstract = {This study investigated the warm-temperate to tropical shallow-water Miocene carbonates of the Perfugas basin (Anglona area), northern Sardinia, Italy (Central Mediterranean). The aim of this study was to identify and document the existence and significance of early diagenesis in this carbonate system, especially the diagenetic history, which reflects the diagenetic potential in terms of skeletal mineralogy. The motivation behind the present study was to investigate the role that early cementation has over facies stabilization linked to differences in biotic associations in shallow-water settings. Principal to this was to unravel the amount, kind and distribution of early cements in this type of carbonates, in order to complement previous studies, and hence acquire a more global perspective on non-tropical carbonate settings. The shallow-buried Sedini Limestone Unit was investigated for variations on early diagenetic features, as well as for the type of biotic association, and oxygen and carbon stable isotope stratigraphy. Results showed, that particularly at the Perfugas basin (< 15 km2), which evolves in time from a ramp into a steep-flanked platform, shallow-water facies are characterized by a "transitional" type of biotic association. The biotic assemblages change gradually over time from a heterozoan-rich into a photozoan-rich depositional system. This transition implies a change in the depositional environmental control factors such as temperature. It is considered that sedimentation took place under warm-temperate waters, which shifted to more warmer or tropical waters through time. Moreover, it was noticed that along with these changes, marine early syn-depositional cements (high-Mg calcite), with particular fabrics (e.g. fibrous), gradually contributed to the early lithification of rocks, favoring a steepening of the platform relief. The major controls for the shift of the depositional geometry was triggered by the change of the type of biotic associations (carbonate factory), related with the shift towards warmer conditions, and the development of early marine cementation. The identification of the amount and distribution of different cement phases, porosities and early diagenetic features, within facies and stratigraphy, showed that diagenesis is differential along depth, and within the depositional setting. High-Mg calcite cements (micrite, fibrous and syntaxial inclusion-rich) are early syn-depositional, facies-related (shallow-water), predominant at the platform phase, and marine in origin. Low-Mg calcite cements (bladed, syntaxial inclusionpoor and blocky) are early to late post-depositional, non-facies related (shallow- to deep-water) and shallow-burial marine in origin. However, a particular difference exists when looking at the amount and distribution of low-Mg calcite bladed cements. They become richer in shallow-water facies at the platform phase, suggesting that the enrichment of bladed cementation is linked to the appearance of metastable grains (e.g. aragonite). In both depositional profiles, the development of secondary porosity is the product of fabric-selective dissolution of grains (aragonite, high-Mg calcite) and/or cements (syntaxial inclusion-rich). However, stratigraphy and stable isotopes (oxygen and carbon), indicate that the molds found at shallower facies located beneath, and close to stratigraphic boundaries, have been produced by the infiltration of meteoric-derived water, which caused recrystallization without calcite cementation. Away from these stratigraphic locations, shallow- and deep-water facies show molds, and recrystallization, as well as low-Mg calcite cementation, interpreted as occurring during burial of these sediments by marine waters. The main cement source is suggested to be aragonite. Our results indicate that the Sedini Limestone Unit was transformed in three different diagenetic environments (marine, meteoric and shallow-burial marine); however, the degree of transformation in each diagenetic environment differs in the heterozoan-dominated ramp from the photozoan-dominated platform. It is suggested that the sediments from the ramp follow a diagenetic pathway similar to their heterozoan counterparts (i.e. lack of marine cementation, and loss of primary porosity by compaction), and the sediments from the platform follow a diagenetic pathway similar to their photozoan counterparts (i.e. marine cementation occluding primary porosity). However, in this carbonate setting, cements are Mg-calcite, no meteoric cementation was produced, and secondary porosity at shallow-water facies of the platform phase is mostly open and preserved. Despite the temporal and transitional change in biotic associations, ramp and platform facies (shallow- to deep-water facies) showed an oxygen isotope record overprinted by diagenesis. Oxygen primary marine signatures were not found. It is believed that burial diagenesis (recrystallization and low-Mg calcite cementation) was the main reason. This was unexpected at the ramp, since heterozoan-rich carbonates can hold isotope values close to primary marine signals due to their low-Mg calcite original composition. Ramp and platform facies (shallow- to deep-water facies) showed a carbon isotope record that was less affected by diagenesis. However, only at deep-water facies, did the carbon record show positive values comparable with carbon primary marine signals. The positive carbon values were noticed with major frequency at the platform deep-water facies. Moreover, these values usually showed a covariant trend with the oxygen isotope record; even that the latter did not hold positive values. The main conclusion of this work is that carbonates, deposited under warm-temperate to tropical conditions, have a unique facies, diagenesis and chemostratigraphic expression, which is different from their cool-water heterozoan or warm-water photozoan counterparts, reflecting the "transitional" nature of biotic association.}, language = {en} }