Scientific Drilling (Oct 2018)

A high-resolution climate record spanning the past 17 000 years recovered from Lake Ohau, South Island, New Zealand

  • R. H. Levy,
  • G. B. Dunbar,
  • M. J. Vandergoes,
  • J. D. Howarth,
  • T. Kingan,
  • A. R. Pyne,
  • G. Brotherston,
  • M. Clarke,
  • B. Dagg,
  • B. Dagg,
  • M. Hill,
  • E. Kenton,
  • S. Little,
  • D. Mandeno,
  • C. Moy,
  • P. Muldoon,
  • P. Doyle,
  • C. Raines,
  • P. Rutland,
  • D. Strong,
  • M. Terezow,
  • L. Cochrane,
  • R. Cossu,
  • S. Fitzsimons,
  • F. Florindo,
  • A. L. Forrest,
  • A. R. Gorman,
  • D. S. Kaufman,
  • M. K. Lee,
  • X. Li,
  • P. Lurcock,
  • N. McKay,
  • F. Nelson,
  • F. Nelson,
  • J. Purdie,
  • H. A. Roop,
  • S. G. Schladow,
  • A. Sood,
  • P. Upton,
  • S. L. Walker,
  • G. S. Wilson

DOI
https://doi.org/10.5194/sd-24-41-2018
Journal volume & issue
Vol. 24
pp. 41 – 50

Abstract

Read online

A new annually resolved sedimentary record of Southern Hemisphere mid-latitude hydroclimate was recovered from Lake Ohau, South Island, New Zealand, in March 2016. The Lake Ohau Climate History (LOCH) project acquired cores from two sites (LOCH-1 and -2) that preserve sequences of laminated mud that accumulated since the lake formed ∼  17 000 years ago. Cores were recovered using a purpose-built barge and drilling system designed to recover soft sediment from thick sedimentary sequences in lake systems up to 150 m deep. This system can be transported in two to three 40 ft long shipping containers and is suitable for use in a range of geographic locations. A comprehensive suite of data has been collected from the sedimentary sequence using state-of-the-art analytical equipment and techniques. These new observations of past environmental variability augment the historical instrumental record and are currently being integrated with regional climate and hydrological modelling studies to explore causes of variability in extreme/flood events over the past several millennia.