MILLENIAL-SCALE INSTABILITY OF SEA LEVEL AND THE CLIMATE SYSTEM: NEW ANALYSIS OF CORAL TERRACES IN PAPUA NEW GUINEA. Northern hemisphere climates switched repeatedly and abruptly between cold and warm states during the ice ages. This unexplained finding poses uncertainties about future climate. The exact chronology of past sea level and climatic changes is a key to the problem: this project aims to establish precise chronology through re-analysis of coral terraces at Huon Peninsula, PNG. New U-s ....MILLENIAL-SCALE INSTABILITY OF SEA LEVEL AND THE CLIMATE SYSTEM: NEW ANALYSIS OF CORAL TERRACES IN PAPUA NEW GUINEA. Northern hemisphere climates switched repeatedly and abruptly between cold and warm states during the ice ages. This unexplained finding poses uncertainties about future climate. The exact chronology of past sea level and climatic changes is a key to the problem: this project aims to establish precise chronology through re-analysis of coral terraces at Huon Peninsula, PNG. New U-series dating methods will give an accurately-timed record of sea level changes, which will be tightly locked to marine-sediment records of climatic change, by using sharp changes in atmospheric radiocarbon as universal marker horizons.Read moreRead less
A palaeoenvironmental reconstruction of Holocene coastal valley evolution in NSW: A magnetic, geochemical, sedimentological and microfossil investigation. Coastal environments are a critical interface between land and ocean. They are sensitive to sea level change and they can influence climate because they trap a large fraction of the carbon buried annually in the oceans. We propose an inter-disciplinary investigation to determine how NSW coastal environments responded to past climate change. Th ....A palaeoenvironmental reconstruction of Holocene coastal valley evolution in NSW: A magnetic, geochemical, sedimentological and microfossil investigation. Coastal environments are a critical interface between land and ocean. They are sensitive to sea level change and they can influence climate because they trap a large fraction of the carbon buried annually in the oceans. We propose an inter-disciplinary investigation to determine how NSW coastal environments responded to past climate change. This will help to understand factors such as flood chronologies and acid sulphate soil potential and to predict the response to these environments to future climate change. Coastal environments support an increasing global population that will benefit from a better understanding of processes and responses within this critical zone.Read moreRead less