Climate Proxy

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Climate observations prior to the instrumental era are necessarily indirect. These observations are made on climate proxies in various geological (e.g. lake or marine sediments, living or fossil coral reefs, cave deposits), glaciological (ice cores or snow pits) or biological (trees) archives. Many data streams can be collected from each archives, each sensing a different aspect of the environment (sometimes, several aspects at once). A paleoclimate dataset is almost always a time series of observations made on a proxy system.

Evans et al. (2013) [1] define a proxy system as comprised of three components:

  • The sensor comprises physical, chemical and/or biological components that react to environmental conditions. Sensors are often multivariate (i.e. sensitive to more than one environmental variable), thresholded or seasonal (i.e. record only part of the range of environmental conditions, or record them over a few months of the year), or do so nonlinearly. For instance, Mg/Ca in foraminifera is an often used sensor for temperature but depends also on salinity and deep-ocean carbonate saturation [2]. Furthermore, its temperature dependence is exponential [3]. It is thus a multivariate and nonlinear sensor.
  • The archive is the medium in which the response of a sensor to environmental forcing is recorded (Fig. 1). Marine sediments are a type of archive, on which many sensors may be measured (e.g. Mg/Ca, δ18O,  U_{37}^{k'} , TEX86, δD)
  • observations are made on archives, and involve several processes:
    • sampling is the process where the subsets of the archive are extracted, usually via coring or drilling.
    • often, the observations are made on a purified, chemically transformed (.e.g leached) form of the sampled material
    • what else?

Picking foraminifera of a given spieces to conduct the measurements is part of the observation process, though it does affect the sensor definition : the habitat of these forams determines with environmental variable (e.g. surface, sub-surface, or thermocline temperature) they are most sensitive to.

These three major components may be individually modeled, and linked together within a Proxy System Model [1] [4]. Some sensors are common to multiple archives (e.g. δ18O), and all archives support more than one possible sensor.

TABLE HERE

--Julien (talk) 16:47, 13 January 2016 (PST)

References

  1. 1.0 1.1 Evans, M. N., Tolwinski-Ward, S. E., Thompson, D. M., & Anchukaitis, K. J. (2013). Applications of proxy system modeling in high resolution paleoclimatology. Quaternary Science Reviews, 76, 16-28. doi:10.1016/j.quascirev.2013.05.024
  2. Khider, D., Huerta, G., Jackson, C., Stott, L. D., & Emile-Geay, J. (2015). A Bayesian, multivariate calibration for Globigerinoides ruber Mg/Ca. Geochemistry Geophysics Geosystems, 16(9), 2916-2932. doi:10.1002/2015GC005844
  3. Anand, P., Elderfield, H., & Conte, M. H. (2003). Calibration of Mg/Ca thermometry in planktonic foraminifera from a sediment trap time series. Paleoceanography, 18(2), 1050. doi:10.1029/2002PA000846
  4. Dee, S., Emile-Geay, J., Evans, M. N., Allam, A., Steig, E. J., & Thompson, D. M. (2015). PRYSM: An open-source framework for PRoxy System Modeling, with applications to oxygen-isotope systems. Journal of Advances in Modeling Earth Systems, 7, 1220-1247. doi:10.1002/2015MS000447