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Robust multi-proxy data integration, using late Cretaceous paleotemperature records as a case study
Woelders, L.; Vellekoop, J.; Weltje, G.J.; de Nooijer, L.; Reichart, G.-J.; Peterse, F.; Claeys, P.; Speijer, R.P. (2018). Robust multi-proxy data integration, using late Cretaceous paleotemperature records as a case study. Earth Planet. Sci. Lett. 500: 215-224. https://doi.org/10.1016/j.epsl.2018.08.010
In: Earth and Planetary Science Letters. Elsevier: Amsterdam. ISSN 0012-821X; e-ISSN 1385-013X, more
Peer reviewed article  

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Author keywords
    late Cretaceous; paleotemperature; multi-proxy; data integration

Authors  Top 
  • Reichart, G.-J., more
  • Peterse, F.
  • Claeys, P., more
  • Speijer, R.P., more

Abstract
    In paleoclimate studies, multiple temperature records are often compared and combined to evaluate temperature trends. Yet, no standardized approach for integrating proxy-derived paleotemperature records exists. In addition, paleotemperature data are often reported without uncertainty estimates (prediction errors), and raw data are not always available. This complicates the quantification of, for example, temperature trends and the magnitude of warming events. Here we propose a robust quantitative approach for multi-proxy analysis in paleoclimate studies. To demonstrate this, we study the latest Maastrichtian warming event (LMWE) in the ODP 174AX Bass River core (New Jersey), and integrate five independent paleotemperature proxies covering the last million years of the Cretaceous. Our integrated temperature reconstruction suggests that, after a climatically stable period, a latest Cretaceous warming of 3.9 ± 1.1 °C occurred between ∼450 and 100 kyr before the K–Pg boundary. The error on this reconstructed temperature should be considered the absolute minimum error, as poorly constrained or unknown uncertainties cannot be fully propagated. The warming event was followed by a gradual cooling to pre-warming conditions towards the end of the Cretaceous. Furthermore, the record suggests multiple warming pulses during the LMWE. The results of this integrated approach are consistent with other latest Cretaceous temperature records, suggesting that the trend described here represents a global signal.

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