Date: Friday, 22nd of March at 12.00.
Speaker: Niamh Cahill
Host: James Sweeney
Title: A Bayesian Time Series Model for Reconstructing Hydroclimate from Multiple Proxies
Abstract:
We propose a Bayesian model which produces probabilistic reconstructions of hydrocli-matic variability in Queensland Australia. The model provides a standardised approach to hydrocli- mate reconstruction using multiple palaeoclimate proxy records derived from natural archives such as speleothems, ice cores and tree rings. The method combines time-series modelling with inverse prediction to quantify the relationships between a given hydroclimate index and relevant proxies over an instrumental period and subsequently reconstruct the hydroclimate back through time. We present case studies for Brisbane and Fitzroy catchments focusing on two hydroclimate indices, the Rainfall Index (RFI) and the Standardised Precipitation-Evapotranspiration Index (SPEI). The probabilistic nature of the reconstructions allows us to estimate the probability that a hydroclimate index in any reconstruction year was lower (higher) than the minimum (maximum) value observed over the instrumental period. In Brisbane, the RFI is unlikely (probabilities < 20%) to have exhibited extremes beyond the minimum/maximum values observed between 1889 and 2017. However, in Fitzroy there are several years during the reconstruction period where the RFI is likely (>50% probability) to have exhibited behaviour beyond the minimum/maximum of what has been observed. For SPEI, the probability of observing such extremes since the end of the instrumental period in 1889 doesnt exceed 50% in any reconstruction year in Brisbane or Fitzroy.