Bayesian modelling and ensemble reconstruction of mid-scale spatial variability in North Atlantic sea-surface temperatures for 1850-2008

Existing historical records of sea-surface temperature extending back to the mid-1800s are a valuable source of information about climate variability on interannual and decadal time-scales. However, the temporal and spatial irregularity of these data make them difficult to use in climate research, w...

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Bibliographic Details
Published in:Quarterly Journal of the Royal Meteorological Society
Other Authors: Karspeck, Alicia (author), Kaplan, Alexey (author), Sain, Stephan (author)
Format: Article in Journal/Newspaper
Language:English
Published: Royal Meteorological Society (Great Britain) 2012
Subjects:
Data assimilation
Parametric methods
Non-stationary covariance
Uncertainty quantification
Historical SST reconstruction
Optimal interpolation
Multi-scale reconstruction
North Atlantic
Online Access:http://nldr.library.ucar.edu/repository/collections/OSGC-000-000-010-819
https://doi.org/10.1002/qj.900
Description
Summary:Existing historical records of sea-surface temperature extending back to the mid-1800s are a valuable source of information about climate variability on interannual and decadal time-scales. However, the temporal and spatial irregularity of these data make them difficult to use in climate research, where gridded and complete data fields are expected for both statistical analysis and forcing numerical models. Infilling methods based on constraining the solution to the linear space spanned by the leading eigenvectors of the global-scale covariance, otherwise known as reduced-space methods, have proven very successful in creating gridded estimates of sea-surface temperature. These methods are especially useful for infilling the vast regions of unobserved ocean typical of the earliest segments of the data record. Regional variability, on the other hand, is not well represented by these methods, especially in data-poor regions. Here we present a method for augmenting the established large-scale reconstruction methods with a statistical model of the mid-scale variability. Using high quality sea-surface temperature data from the last 30 years including satellite-derived records, we specify a spatially non-stationary, anisotropic covariance model for the mid-scale sea-surface temperature variability. With the parameters of the covariance model estimated from the modern record, historical observations are used for conditioning the posterior distribution. Specifically, we form the expected value and correlated uncertainty of the mid-scales as well as generating samples from the posterior. While this work focuses on a limited domain in the midlatitude North Atlantic Ocean, the method employed here can be extended to global reconstructions.

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