A hydroclimate-proxy model based on sedimentary facies in an annually laminated sequence from Lake Ohau, South Island, New Zealand

Heidi A. Roop; Richard Levy; Gavin B. Dunbar; Marcus J. Vandergoes; Jamie Howarth; Sean Fitzsimons; Heung Soo Moon; Christian Zammit; Robert Ditchburn; Troy Baisden; Ho Il Yoon

doi:10.1007/s10933-015-9853-3

A hydroclimate-proxy model based on sedimentary facies in an annually laminated sequence from Lake Ohau, South Island, New Zealand

Heidi A. Roop, Richard Levy, Gavin B. Dunbar, Marcus J. Vandergoes, Jamie Howarth, Sean Fitzsimons, Heung Soo Moon, Christian Zammit, Robert Ditchburn, Troy Baisden, Ho Il Yoon

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Annually laminated sediments collected from Lake Ohau, New Zealand offer an opportunity to generate a high-resolution paleoclimate record for the Southern Hemisphere mid-latitudes. Correlation between regional precipitation and synoptic climate indices like the Southern Annular Mode, paired with a correlation between Ohau catchment precipitation, lake inflow and suspended sediment yield suggest that the Lake Ohau varves are a potentially powerful tool for estimating the amplitude, timing and interdependence of different climate modes operating in the Southern Hemisphere mid-latitudes over time. A robust chronology and sound climate-proxy model are fundamental requirements for all high-resolution paleoenvironmental records. Here we present a chronology derived from layer counts, and ¹³⁷Cs and ²¹⁰Pb ages for the top 60 cm of sediments from the distal basin of Lake Ohau that confirm the varved natured of the sedimentary sequence. Sedimentary facies of different varve motifs are used to develop a hydroclimate-proxy model which links stratigraphy to seasonal hydrology. To establish this relationship we use a model accuracy statistic, which shows a quantitative difference between the annual hydrographs associated with each of three primary varve motifs. Distribution of above average inflow events points to summer and autumn hydrologic regimes as the primary control on the deposition of different motifs. This relationship between varve characteristics and hydrology will serve as a tool to reconstruct lake inflow, and by extension precipitation, on an annual basis throughout the late-Holocene for the South Island of New Zealand.

Original language	English (US)
Pages (from-to)	1-16
Number of pages	16
Journal	Journal of Paleolimnology
Volume	55
Issue number	1
DOIs	https://doi.org/10.1007/s10933-015-9853-3
State	Published - Jan 1 2016
Externally published	Yes

Bibliographical note

Funding Information:
Financial support was provided through the GNS Science Global Change through Time Program, Sarah Beanland Memorial Scholarship, ANZICE Program (VICX0704), Royal Society of New Zealand Marsden Fund (GNS1302), and KOPRI Project #PP15010. Thanks to Brian Anderson, Lionel Carter, Andrew Lorrey, Christian Ohlendorf and Peter Neff for numerous scientific discussions and ongoing interest in the Lake Ohau Project. We would like to thank the staff at Meridian Energy Ltd. and the University of Otago Marine Sciences Department for logistical support and two anonymous reviewers whose feedback greatly improved the manuscript. Sincere thanks to Chris and Rae Spiers for their hospitality and large workspace at the Killin Barn, and the Inkersell family at Lake Ohau Station for land access and continuing project support.

Publisher Copyright:
© 2015, Crown Copyright.

Keywords

Complexity
Hydroclimate
Southern Hemisphere
Stratigraphy
Varves

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Roop, H. A., Levy, R., Dunbar, G. B., Vandergoes, M. J., Howarth, J., Fitzsimons, S., Moon, H. S., Zammit, C., Ditchburn, R., Baisden, T., & Yoon, H. I. (2016). A hydroclimate-proxy model based on sedimentary facies in an annually laminated sequence from Lake Ohau, South Island, New Zealand. Journal of Paleolimnology, 55(1), 1-16. https://doi.org/10.1007/s10933-015-9853-3

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abstract = "Annually laminated sediments collected from Lake Ohau, New Zealand offer an opportunity to generate a high-resolution paleoclimate record for the Southern Hemisphere mid-latitudes. Correlation between regional precipitation and synoptic climate indices like the Southern Annular Mode, paired with a correlation between Ohau catchment precipitation, lake inflow and suspended sediment yield suggest that the Lake Ohau varves are a potentially powerful tool for estimating the amplitude, timing and interdependence of different climate modes operating in the Southern Hemisphere mid-latitudes over time. A robust chronology and sound climate-proxy model are fundamental requirements for all high-resolution paleoenvironmental records. Here we present a chronology derived from layer counts, and 137Cs and 210Pb ages for the top 60 cm of sediments from the distal basin of Lake Ohau that confirm the varved natured of the sedimentary sequence. Sedimentary facies of different varve motifs are used to develop a hydroclimate-proxy model which links stratigraphy to seasonal hydrology. To establish this relationship we use a model accuracy statistic, which shows a quantitative difference between the annual hydrographs associated with each of three primary varve motifs. Distribution of above average inflow events points to summer and autumn hydrologic regimes as the primary control on the deposition of different motifs. This relationship between varve characteristics and hydrology will serve as a tool to reconstruct lake inflow, and by extension precipitation, on an annual basis throughout the late-Holocene for the South Island of New Zealand.",

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AU - Levy, Richard

AU - Dunbar, Gavin B.

AU - Vandergoes, Marcus J.

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AU - Fitzsimons, Sean

AU - Moon, Heung Soo

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AU - Baisden, Troy

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N2 - Annually laminated sediments collected from Lake Ohau, New Zealand offer an opportunity to generate a high-resolution paleoclimate record for the Southern Hemisphere mid-latitudes. Correlation between regional precipitation and synoptic climate indices like the Southern Annular Mode, paired with a correlation between Ohau catchment precipitation, lake inflow and suspended sediment yield suggest that the Lake Ohau varves are a potentially powerful tool for estimating the amplitude, timing and interdependence of different climate modes operating in the Southern Hemisphere mid-latitudes over time. A robust chronology and sound climate-proxy model are fundamental requirements for all high-resolution paleoenvironmental records. Here we present a chronology derived from layer counts, and 137Cs and 210Pb ages for the top 60 cm of sediments from the distal basin of Lake Ohau that confirm the varved natured of the sedimentary sequence. Sedimentary facies of different varve motifs are used to develop a hydroclimate-proxy model which links stratigraphy to seasonal hydrology. To establish this relationship we use a model accuracy statistic, which shows a quantitative difference between the annual hydrographs associated with each of three primary varve motifs. Distribution of above average inflow events points to summer and autumn hydrologic regimes as the primary control on the deposition of different motifs. This relationship between varve characteristics and hydrology will serve as a tool to reconstruct lake inflow, and by extension precipitation, on an annual basis throughout the late-Holocene for the South Island of New Zealand.

AB - Annually laminated sediments collected from Lake Ohau, New Zealand offer an opportunity to generate a high-resolution paleoclimate record for the Southern Hemisphere mid-latitudes. Correlation between regional precipitation and synoptic climate indices like the Southern Annular Mode, paired with a correlation between Ohau catchment precipitation, lake inflow and suspended sediment yield suggest that the Lake Ohau varves are a potentially powerful tool for estimating the amplitude, timing and interdependence of different climate modes operating in the Southern Hemisphere mid-latitudes over time. A robust chronology and sound climate-proxy model are fundamental requirements for all high-resolution paleoenvironmental records. Here we present a chronology derived from layer counts, and 137Cs and 210Pb ages for the top 60 cm of sediments from the distal basin of Lake Ohau that confirm the varved natured of the sedimentary sequence. Sedimentary facies of different varve motifs are used to develop a hydroclimate-proxy model which links stratigraphy to seasonal hydrology. To establish this relationship we use a model accuracy statistic, which shows a quantitative difference between the annual hydrographs associated with each of three primary varve motifs. Distribution of above average inflow events points to summer and autumn hydrologic regimes as the primary control on the deposition of different motifs. This relationship between varve characteristics and hydrology will serve as a tool to reconstruct lake inflow, and by extension precipitation, on an annual basis throughout the late-Holocene for the South Island of New Zealand.

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A hydroclimate-proxy model based on sedimentary facies in an annually laminated sequence from Lake Ohau, South Island, New Zealand

Abstract

Bibliographical note

Keywords

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