Late-Holocene Climate Variability in Southern New Zealand: A reconstruction of regional climate from an annually laminated sediment sequence from Lake Ohau

This research aims to improve understanding of synoptic climate systems influencing southern New Zealand and document changes in the intensity and frequency of these systems beyond the historical record by analyzing a 1,350-year annually laminated sediment sequence recovered from Lake Ohau, South Is...

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Bibliographic Details
Main Author: Roop, Heidi Anne (11704823)
Format: Thesis
Language:unknown
Published: 2015
Subjects:
Climatology (excl. Climate Change Processes)
Sedimentology
Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
Palaeoclimatology
Quaternary Environments
Surface Processes
Varves
Climate change
Lake Ohau
School: School of Geography
Environment and Earth Sciences
040105 Climatology (excl. Climate Change Processes)
040310 Sedimentology
040311 Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
040605 Palaeoclimatology
040606 Quaternary Environments
040607 Surface Processes
970104 Expanding Knowledge in the Earth Sciences
Degree Discipline: Geology
Degree Level: Doctoral
Degree Name: Doctor of Philosophy
Antarctic
The Antarctic
Austral
Pacific
New Zealand
Pacific Point
Antarc*
Antarctica
Online Access:https://doi.org/10.26686/wgtn.17012969.v1
id ftsmithonian:oai:figshare.com:article/17012969
record_format openpolar
institution Open Polar
collection Unknown
op_collection_id ftsmithonian
language unknown
topic Climatology (excl. Climate Change Processes)
Sedimentology
Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
Palaeoclimatology
Quaternary Environments
Surface Processes
Varves
Climate change
Lake Ohau
School: School of Geography
Environment and Earth Sciences
040105 Climatology (excl. Climate Change Processes)
040310 Sedimentology
040311 Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
040605 Palaeoclimatology
040606 Quaternary Environments
040607 Surface Processes
970104 Expanding Knowledge in the Earth Sciences
Degree Discipline: Geology
Degree Level: Doctoral
Degree Name: Doctor of Philosophy
spellingShingle Climatology (excl. Climate Change Processes)
Sedimentology
Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
Palaeoclimatology
Quaternary Environments
Surface Processes
Varves
Climate change
Lake Ohau
School: School of Geography
Environment and Earth Sciences
040105 Climatology (excl. Climate Change Processes)
040310 Sedimentology
040311 Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
040605 Palaeoclimatology
040606 Quaternary Environments
040607 Surface Processes
970104 Expanding Knowledge in the Earth Sciences
Degree Discipline: Geology
Degree Level: Doctoral
Degree Name: Doctor of Philosophy
Roop, Heidi Anne (11704823)
Late-Holocene Climate Variability in Southern New Zealand: A reconstruction of regional climate from an annually laminated sediment sequence from Lake Ohau
topic_facet Climatology (excl. Climate Change Processes)
Sedimentology
Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
Palaeoclimatology
Quaternary Environments
Surface Processes
Varves
Climate change
Lake Ohau
School: School of Geography
Environment and Earth Sciences
040105 Climatology (excl. Climate Change Processes)
040310 Sedimentology
040311 Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
040605 Palaeoclimatology
040606 Quaternary Environments
040607 Surface Processes
970104 Expanding Knowledge in the Earth Sciences
Degree Discipline: Geology
Degree Level: Doctoral
Degree Name: Doctor of Philosophy
description This research aims to improve understanding of synoptic climate systems influencing southern New Zealand and document changes in the intensity and frequency of these systems beyond the historical record by analyzing a 1,350-year annually laminated sediment sequence recovered from Lake Ohau, South Island, New Zealand (44.234°S, 169.854°E). Climatological patterns originating in both the tropics (El-Niño-Southern Oscillation (ENSO), Interdecadal Pacific Oscillation (IPO)) and in the Antarctic (Southern Annular Mode (SAM)) influence year-to-year variability in New Zealand’s climate (e.g. temperature and precipitation). However, the range of natural variability of these systems in the southwest Pacific over time is poorly known because the instrumental record is short (~100 years). The high-resolution record from Lake Ohau offers a unique opportunity to investigate changes in regional hydrology and climate, and to also explore connections to large-scale climate patterns over the last millennium. Hydrodynamic and hydroclimatic processes that influence and control the production, transport, and deposition of sediment within the Lake Ohau catchment are examined and constrained in order to develop a robust climate record. A key aim is to determine the role that meteorology and climate play in controlling sediment flux. The physical properties and facies of a 5.5-meter-long Lake Ohau sediment core are analyzed using thin-sections, high-resolution X-radiographs scans, and particle-size analyses. Time-series analysis is used to establish links between varve facies, hydroclimate variability and regional synoptic climate types over the instrumental record. Utilizing this climate-proxy relationship, inflow conditions are reconstructed over the last 1,350 years and compared with regional temperature reconstructions to generate a Western South Island paleo-atmospheric circulation index. Relationship between this paleocirculation index and other proxy reconstructions show significant variability in the relative forcing of tropical (ENSO) and Southern Hemisphere highlatitude (SAM) synoptic climate drivers on New Zealand and southwest Pacific climate. Overall, this work demonstrates that: a) the laminated sediments from Lake Ohau are varves and the formation of the annual stratigraphy is strongly controlled by lake hydrodynamics, in particular, thermal lake stratification; b) sediment stratigraphy reflects changes in austral warm period (December-May) inflow, enabling a highresolution reconstruction of hydroclimate over the last 1,350 years and; c) the generation of a paleocirculation index for the Western South Island points to significant changes between northerly or southerly dominated atmospheric conditions in southern New Zealand, particularly over the ‘Little Ice Age’ (1385-1710 AD). During this time, the strength of tropical teleconnections weakened and a strong negative phase SAM persisted. Comparison with high-resolution regional proxy records from Antarctica and the Central Pacific point to significant regional coherence with a strong negative phase SAM acting as a primary driver of the onset of Little Ice Age conditions across the South Pacific.
format Thesis
author Roop, Heidi Anne (11704823)
author_facet Roop, Heidi Anne (11704823)
author_sort Roop, Heidi Anne (11704823)
title Late-Holocene Climate Variability in Southern New Zealand: A reconstruction of regional climate from an annually laminated sediment sequence from Lake Ohau
title_short Late-Holocene Climate Variability in Southern New Zealand: A reconstruction of regional climate from an annually laminated sediment sequence from Lake Ohau
title_full Late-Holocene Climate Variability in Southern New Zealand: A reconstruction of regional climate from an annually laminated sediment sequence from Lake Ohau
title_fullStr Late-Holocene Climate Variability in Southern New Zealand: A reconstruction of regional climate from an annually laminated sediment sequence from Lake Ohau
title_full_unstemmed Late-Holocene Climate Variability in Southern New Zealand: A reconstruction of regional climate from an annually laminated sediment sequence from Lake Ohau
title_sort late-holocene climate variability in southern new zealand: a reconstruction of regional climate from an annually laminated sediment sequence from lake ohau
publishDate 2015
url https://doi.org/10.26686/wgtn.17012969.v1
long_lat ENVELOPE(-27.600,-27.600,-56.317,-56.317)
geographic Antarctic
The Antarctic
Austral
Pacific
New Zealand
Pacific Point
geographic_facet Antarctic
The Antarctic
Austral
Pacific
New Zealand
Pacific Point
genre Antarc*
Antarctic
Antarctica
genre_facet Antarc*
Antarctic
Antarctica
op_relation https://figshare.com/articles/thesis/Late-Holocene_Climate_Variability_in_Southern_New_Zealand_A_reconstruction_of_regional_climate_from_an_annually_laminated_sediment_sequence_from_Lake_Ohau/17012969
doi:10.26686/wgtn.17012969.v1
op_rights Author Retains Copyright
op_doi https://doi.org/10.26686/wgtn.17012969.v1
_version_ 1766096800326877184
spelling ftsmithonian:oai:figshare.com:article/17012969 2023-05-15T13:37:42+02:00 Late-Holocene Climate Variability in Southern New Zealand: A reconstruction of regional climate from an annually laminated sediment sequence from Lake Ohau Roop, Heidi Anne (11704823) 2015-01-01T00:00:00Z https://doi.org/10.26686/wgtn.17012969.v1 unknown https://figshare.com/articles/thesis/Late-Holocene_Climate_Variability_in_Southern_New_Zealand_A_reconstruction_of_regional_climate_from_an_annually_laminated_sediment_sequence_from_Lake_Ohau/17012969 doi:10.26686/wgtn.17012969.v1 Author Retains Copyright Climatology (excl. Climate Change Processes) Sedimentology Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy) Palaeoclimatology Quaternary Environments Surface Processes Varves Climate change Lake Ohau School: School of Geography Environment and Earth Sciences 040105 Climatology (excl. Climate Change Processes) 040310 Sedimentology 040311 Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy) 040605 Palaeoclimatology 040606 Quaternary Environments 040607 Surface Processes 970104 Expanding Knowledge in the Earth Sciences Degree Discipline: Geology Degree Level: Doctoral Degree Name: Doctor of Philosophy Text Thesis 2015 ftsmithonian https://doi.org/10.26686/wgtn.17012969.v1 2021-12-19T21:50:03Z This research aims to improve understanding of synoptic climate systems influencing southern New Zealand and document changes in the intensity and frequency of these systems beyond the historical record by analyzing a 1,350-year annually laminated sediment sequence recovered from Lake Ohau, South Island, New Zealand (44.234°S, 169.854°E). Climatological patterns originating in both the tropics (El-Niño-Southern Oscillation (ENSO), Interdecadal Pacific Oscillation (IPO)) and in the Antarctic (Southern Annular Mode (SAM)) influence year-to-year variability in New Zealand’s climate (e.g. temperature and precipitation). However, the range of natural variability of these systems in the southwest Pacific over time is poorly known because the instrumental record is short (~100 years). The high-resolution record from Lake Ohau offers a unique opportunity to investigate changes in regional hydrology and climate, and to also explore connections to large-scale climate patterns over the last millennium. Hydrodynamic and hydroclimatic processes that influence and control the production, transport, and deposition of sediment within the Lake Ohau catchment are examined and constrained in order to develop a robust climate record. A key aim is to determine the role that meteorology and climate play in controlling sediment flux. The physical properties and facies of a 5.5-meter-long Lake Ohau sediment core are analyzed using thin-sections, high-resolution X-radiographs scans, and particle-size analyses. Time-series analysis is used to establish links between varve facies, hydroclimate variability and regional synoptic climate types over the instrumental record. Utilizing this climate-proxy relationship, inflow conditions are reconstructed over the last 1,350 years and compared with regional temperature reconstructions to generate a Western South Island paleo-atmospheric circulation index. Relationship between this paleocirculation index and other proxy reconstructions show significant variability in the relative forcing of tropical (ENSO) and Southern Hemisphere highlatitude (SAM) synoptic climate drivers on New Zealand and southwest Pacific climate. Overall, this work demonstrates that: a) the laminated sediments from Lake Ohau are varves and the formation of the annual stratigraphy is strongly controlled by lake hydrodynamics, in particular, thermal lake stratification; b) sediment stratigraphy reflects changes in austral warm period (December-May) inflow, enabling a highresolution reconstruction of hydroclimate over the last 1,350 years and; c) the generation of a paleocirculation index for the Western South Island points to significant changes between northerly or southerly dominated atmospheric conditions in southern New Zealand, particularly over the ‘Little Ice Age’ (1385-1710 AD). During this time, the strength of tropical teleconnections weakened and a strong negative phase SAM persisted. Comparison with high-resolution regional proxy records from Antarctica and the Central Pacific point to significant regional coherence with a strong negative phase SAM acting as a primary driver of the onset of Little Ice Age conditions across the South Pacific. Thesis Antarc* Antarctic Antarctica Unknown Antarctic The Antarctic Austral Pacific New Zealand Pacific Point ENVELOPE(-27.600,-27.600,-56.317,-56.317)

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