Complete Dissertation

Complete Dissertation

VU Research Portal Extracting Erosion and Exhumation Patterns from Detrital Thermochronology Gemignani, L. 2018 document version Publisher's PDF, also known as Version of record Link to publication in VU Research Portal citation for published version (APA) Gemignani, L. (2018). Extracting Erosion and Exhumation Patterns from Detrital Thermochronology: an example from the eastern Himalaya. General rights Copyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights. • Users may download and print one copy of any publication from the public portal for the purpose of private study or research. • You may not further distribute the material or use it for any profit-making activity or commercial gain • You may freely distribute the URL identifying the publication in the public portal ? Take down policy If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim. E-mail address: [email protected] Download date: 08. Oct. 2021 Rivers transport key information that can be used as a proxy to infer the evo- lution of the landscape of eroding mountain ranges. Detrital thermochronology aims at shedding new light about the timing of past tectonic events, fi xing their rates. The Himalaya is a natural laboratory where studying those processes and contemplate the magnifi cence of the Nature. ISBN: 978-90-9030865-4 Extracting erosion and exhumation patterns from detrital thermochronology Lorenzo Gemignani Extracting erosion and exhumation patterns from detrital thermochronology an example from the eastern Himalaya Lorenzo Gemignani Extracting erosion and exhumation patterns from detrital thermochronology an example from the eastern Himalaya Lorenzo Gemignani This Doctorate project is part of an international multi-partner MSCA Initial Training Network project called iTECC (“Investigating Tectonic, Erosion and Climate Cou- plings”) and has been funded by the European Commission (FP7). The Early Stage Researcher grant n. 316966 had the duration of three years. Layout and Cover by Lorenzo Gemignani Printed by: Ipskamp, printing ISBN: 978-90-9030865-4 Pictures by Lorenzo Gemignani Cover pictures: eastern Himalaya, China, ASTER GDEM, NASA. VRIJE UNIVERSITEIT EXTRACTING EROSION AND EXHUMATION PATTERNS FROM DETRITAL THERMOCHRONOLOGY an example from the eastern Himalaya ACADEMISCH PROEFSCHRIFT ter verkrijging van de graad Doctor aan de Vrije Universiteit Amsterdam, op gezag van de rector magnifi cus prof.dr. V. Subramaniam, in het openbaar te verdedigen ten overstaan van de promotiecommissie van de Faculteit der Bètawetenschappen op woensdag 28 maart 2018 om 11.45 uur in de aula van de universiteit, De Boelelaan 1105 door Lorenzo Gemignani geboren te Massa, Italië promotoren : prof.dr. J.R. Wijbrans prof.dr. P. van der Beek copromotor: dr. Y. Najman Members of the reading committee: Prof. dr. Ronald T. van Balen (chairman) Dr. Christiaan .J. (Kay) Beets Prof. dr. Barbara Carrapa Prof. dr. Klaudia F. Kuiper Prof. dr. Franz Neubauer Prof. dr. Massimiliano Zattin A Sofi a, il piu’bell’átto creativo... Kali Gandaki river, Mustang, Nepal “Considerate la vostra semenza: Fatti non foste a viver come bruti, Ma per seguir virtute e conoscenza”. “Consider your origins: you were not born to live as brutes, but to follow virtue and knowledge.” Dante Alighieri, Inferno, Canto 26 Contents Summary 9 1. Introduction 11 2. Principles of thermochronology 21 3. Extracting information on the spatial variability in exhumation 47 rate stored in river detrital age distributions. Published as: Braun J., Gemignani L., van der Beek P., (2017). Extract- ing information on the spatial variability in exhumation rate stored in river detrital age distributions. Earth Surf. Dynam. Discuss., https://doi. org/10.5194/esurf-2017-42. 4. A new detrital mica 40Ar/39Ar dating approach for provenance and ex- 69 humation of the Eastern Alps. Published as: Gemignani L., X. Sun, J. Braun, T.D. van Gerve, and J.R. Wijbrans (2017). A new detrital mica 40Ar/39Ar dating approach for provenance and exhumation of the Eastern Alps. Tectonics, 36, 1521– 1537, doi:10.1002/2017TC004483. 5. Present-day and long-term erosion of the eastern Hima- 97 laya as detected by detrital thermochronology. Submitted as: Gemignani L., P. van der Beek, J. Braun,. Najman, Y., Bernet, M., Garzanti, E. Wijbrans, J.R. (Submitted), Present-day and long-term erosion of the eastern Himalaya as detected by detrital ther- mochronology. Earth Planet. Sci. Lett. 6. Improving the precision of mica Ar-dating on smaller and 129 younger muscovite grains: implication for provenance studies. Prepared for submission as: Gemignani L., K. Kuiper, A. Santato, and J.R. Wijbrans. (Submitted), Improving the precision of mica Ar-dating on smaller and younger muscovite grains: implication for provenance studies. Chemical Geology. 7. Synthesis and conclusion 155 Bibliography 163 Acknowledgements 181 Summary The Himalayan is rapidly emerging as a natural laboratory for studying intra con- tinental deformation related to continent-continent collision coupled with climatic- driven erosion. The extreme topography of the Himalaya forms a barrier, differentiating climatic conditions and erosional patterns between the two sides of the belt. The interaction between crustal-tectonic and climate-erosional processes is borne out by the present day topography resulting in the bent patterns, and deep incised gorges of the major Himalayan rivers: the Indus and the Brahmaputra. In the Eastern Himalaya, the Namche Barwa syntaxis is exhuming and eroding faster when compared with the central sectors of the belt since Lete-Miocene Pliocene. In the Namche Barwa syntaxis, cooling ages record a major exhumation pulse at ~5 Ma as young as ~106 a depending on the applied thermochronometer. The sediment fl ux derived from the Namche Barwa area is estimated at ~70 % of the total sediment fl ux in the Brahmaputra when reaching the foreland. However, the young thermochro- nometric signature (< ~5 Ma) downstream the Namche Barwa syntaxis seems to be suppressed by older age peaks derived from sediment components from tributaries draining the more central Himalayan rock units. This discrepancy in the modern river sediment age distributions is refl ected in the syn-sedimentary basins where ages are as young as ~6-7 Ma and older. The difference between the modern rate of sediment eroded from the Namche Barwa syntaxis and its downstream evolution is not com- pletely understood. The implied question, then, concerns on how the detrital records can be used to assess the transient change in exhumation/erosion in a dynamic moun- tain belt. The present work is aimed at these outstanding questions. For shedding new light on these issues, we proposed the following approach: We fi rst studied the consistency of the detrital mica 40Ar/39Ar and zircon fi ssion tracks dating approach as tools to characterize the tectonic history of source rocks within the river network of an evolving mountain range. We than developed a numerical linear inversion of the age distributions, the “mixing model” method (Chapter 3). The method was tested on available literature data from the eastern Himalaya. Our results show how we can get averaged present-day erosion estimates and the exhumation sig- nature at the superfi cial rocks from detrital age distributions. This approach was tested for modern river sand sediments obtained from 19 river’s catchments in the Eastern Alps (Chapter 4). In the second part of this thesis, we present the outcomes of studies where we analyzed the modern river sediments of the eastern Himalayan (Chapter 5) using two different thermochronometers (mica 40Ar/39Ar and zircon fi ssion-tracks). 9 Summary Understanding the tectonic evolution of the eastern Himalayan syntaxis is key to differentiating different models of coupling between tectonics and erosion. The multi-proxy approach allowed to produce a synoptic cooling-age map of the eastern Himalaya that highlighted the spatial variation in exhumation rates of the contribut- ing sources to the fl uvial system. The relative present-day erosion estimates were then compared with a quantitative estimate of steady-state exhumation rates required to produce major age components observed in the detrital samples. We noticed that whilst the young age peak is distinctive for the studied minerals and endures many kilometers downstream, the young mica population is much more suppressed, both in proximal and distal samples. The potential effect of dilution of the analysed target minerals has been addressed by looking at different grain-size frac- tions in the last part of this work (Chapter 6). We show that grain-size variability can bias age distributions when studying large catchment areas, such as the Brahmaputra foreland. The most important fi nding is that multiple grain-size analysis allows hav- ing a better resolution of the sources drained in the catchment area. This thesis has explored the exhumation/erosion patterns of two dynamically evolving mountain ranges characterized by two distinct spatio-temporal evolutions. The analysis of multi-proxy thermochronology shed lights on the dilution processes governing the Himalayan foreland for different target minerals. We have demonstrat- ed that a combination of multi-proxy thermochronology,

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