A Geomorphological and Sedimentological Investigation into the Glacial Deposits of the Lake Clearwater Basin, Mid Canterbury, New Zealand.

Evans, Michael Douglas

January 2008

This thesis presents the findings of a combined geomorphological, sedimentological and geochronological investigation into the glacial history of the Clearwater Basin, Mid Canterbury, New Zealand. The study demonstrates that a thick wedge of glacial and paraglacial sediments are preserved in the valley. These are >100m thick and preserve evidence of at least 3 glacial phases (>180ka). The study presents a new and detailed geomorphology map for the Clearwater valley and adjacent areas and has added 17 new recessional positions to the local glacial record. Surface Exposure Dating (SED) has been used to directly date the moraines of the Clearwater Basin providing the first detailed chronology for glacial moraine in this area. In total 31 cosmogenic ages from 9 separate moraines are presented. The results demonstrate that the LGM advance is the Trinity moraine of Mabin (1980) and not the Hakatere moraine as previously assumed and that the LGM was achieved at or about 23ka. The Clearwater glacier receded up valley between 23 and 13ka with some indication of accelerated retreat after c.16ka. The correlation to the adjacent Lake Heron Valley is also revised.

Canterbury

Rangitata

Lake Clearwater

glaciation

sedimentology

geomorphology

surface exposure dating

A Geomorphological and Sedimentological Investigation into the Glacial Deposits of the Lake Clearwater Basin, Mid Canterbury, New Zealand.

Evans, Michael Douglas

January 2008

This thesis presents the findings of a combined geomorphological, sedimentological and geochronological investigation into the glacial history of the Clearwater Basin, Mid Canterbury, New Zealand. The study demonstrates that a thick wedge of glacial and paraglacial sediments are preserved in the valley. These are >100m thick and preserve evidence of at least 3 glacial phases (>180ka). The study presents a new and detailed geomorphology map for the Clearwater valley and adjacent areas and has added 17 new recessional positions to the local glacial record. Surface Exposure Dating (SED) has been used to directly date the moraines of the Clearwater Basin providing the first detailed chronology for glacial moraine in this area. In total 31 cosmogenic ages from 9 separate moraines are presented. The results demonstrate that the LGM advance is the Trinity moraine of Mabin (1980) and not the Hakatere moraine as previously assumed and that the LGM was achieved at or about 23ka. The Clearwater glacier receded up valley between 23 and 13ka with some indication of accelerated retreat after c.16ka. The correlation to the adjacent Lake Heron Valley is also revised.

Canterbury

Rangitata

Lake Clearwater

glaciation

sedimentology

geomorphology

surface exposure dating

Reconstructing High-frequency Holocene Glacial Chronostratigraphies in the Himalayan-Tibetan Orogen

Saha, Sourav

January 2018

No description available.

Geomorphology

Holocene

Glacial geology

Cosmogenic surface exposure dating

Himalayan-Tibetan orogen

Paleoclimate

Inheritance

Surface Exposure Dating of Stream Terraces in the Chinese Pamir: Glacial Chronology and Paleoclimatic Implications

Kirby, Benjamin Thomas

25 June 2008

No description available.

Geology

Pamir

Glacial Chronology

Surface Exposure Dating

Stream Terraces

Quaternary Paleoclimate

Late glacial (Younger Dryas) glaciers and ice-sheet deglaciation in the Cairngorm Mountains, Scotland : glacier reconstructions and their palaeoclimatic implications

Standell, Matthew R.

January 2014

The Cairngorm Mountains contain an outstanding assemblage of glacial landforms from both the deglaciation of the last British Irish Ice Sheet and the Younger Dryas readvance. Glaciers are recognised as sensitive indicators of past and present climate change and, thus, these landforms provide information about past climate and glacier-climate interaction that can be used to contextualise the present climate change. Previous interpretations have left doubt over the extent and style of the Younger Dryas readvance. In addition, the pattern and timing of deglaciation in the southern Cairngorms and, particularly, how local and external ice masses interacted is unclear. New geomorphological mapping from aerial images and fieldwork has been compiled in a GIS for a 600km2 area of the Cairngorm Mountains. This has allowed a complex pattern of ice-dammed lakes and local and regionally sourced ice margins to be reconstructed during the retreat of the last British Irish Ice Sheet. The mapping has been combined with new cosmogenic surface exposure ages taken from areas of hummocky moraine previously subject to differing age interpretations. The effect of moraine denudation on apparent 10Be ages has been checked by inverse modelling of the 10Be concentration vs. boulder height. The results indicate more extensive Younger Dryas glaciation, with glacier reconstructions and equilibrium-line altitudes (ELAs) comparable with the surrounding areas. Reconstruction of both valley and plateau-fed glaciers are presented, with modelling of local topoclimatic factors, such as radiation, avalanche and snow drifting, combined with precipitation gradients, explaining most of the variation within the glacier ELAs. The geomorphological evidence and palaeoclimatic inferences are important, alongside a growing number of palaeoglaciological studies, in acting as evaluation areas for current numerical models of ice-sheet growth and decay.

551.31

Active tectonics and seismic hazard assessment of Afghanistan and slip-rate estimation of the Chaman fault based on cosmogonic 10Be dating / アフガニスタンの活構造と地震災害評価および宇宙線生成核種10Beによるチャマン断層の変位速度の見積もり / アフガニスタン ノ カツコウゾウ ト ジシン サイガイ ヒョウカ オヨビ ウチュウセン セイセイ カクシュ 10Be ニヨル チャマン ダンソウ ノ ヘンイ ソクド ノ ミツモリ

Zakeria Shnizai

19 September 2020

This dissertation focuses on the active tectonics of Afghanistan|slip-rate estimation of the Chaman fault and assessing seismic hazard in the Kabul basin. Afghanistan is a tectonically complex zone developed as a result of the collision between the Eurasian plate and the Indian plate to the southeast and the Arabian plate to the south. For seismic hazard mitigation, there is no large-scale active fault map in Afghanistan. I, therefore, mapped active and presumed active faults mainly based on interpretation of 1-arcsecond SRTM anaglyph images, and calculate the slip rate of the Chaman fautl based on 10Be TCN dating. / 博士(理学) / Doctor of Philosophy in Science / 同志社大学 / Doshisha University

Active and presumed active faults

Earthquakes

Seismic source zones

Chaman fault

Detailed mapping

10Be TCN surface exposure dating

Slip rate calculation

Afghanistan

Kabul basin

active fault map

historical earthquakes

seismic hazard