Thursday, February 13, 2014

New paper finds more non-hockey-sticks in Europe

A new paper published in Quaternary Science Reviews reconstructs European temperatures using a new technique combining fossil pollen and "boosted regression trees", and finds more non-hockey-sticks with temperatures during the Holocene Climate Optimum 6000 years ago were 0.7C higher during June-August in comparison to 500 years ago.

Horizontal axis is thousands of years before the present. First graph shows reconstructed temperatures of June-August, second shows December-February

Horizontal axis is thousands of years before the present. First graph shows reconstructed temperatures of June-August, second shows December-February

Boosted regression trees (BRTs) tested as a palaeoclimatic reconstruction method.
BRTs tested in reconstructions based on northern European fossil pollen sequences.
BRTs compared with two commonly-used reconstruction methods (WA and MAT).
BRTs fare a promising reconstruction method with major theoretical strengths.
Synthesis reconstructions of Holocene palaeoclimate of northern Europe are presented.

Abstract

We test and analyse a new calibration method, boosted regression trees (BRTs) in palaeoclimatic reconstructions based on fossil pollen assemblages. We apply BRTs to multiple Holocene and Lateglacial pollen sequences from northern Europe, and compare their performance with two commonly-used calibration methods: weighted averaging regression (WA) and the modern-analogue technique (MAT). Using these calibration methods and fossil pollen data, we present synthetic reconstructions of Holocene summer temperature, winter temperature, and water balance changes in northern Europe. Highly consistent trends are found for summer temperature, with a distinct Holocene thermal maximum at ca 8000–4000 cal. a BP, with a mean Tjja anomaly of ca +0.7 °C at 6 ka compared to 0.5 ka. We were unable to reconstruct reliably winter temperature or water balance, due to the confounding effects of summer temperature and the great between-reconstruction variability. We find BRTs to be a promising tool for quantitative reconstructions from palaeoenvironmental proxy data. BRTs show good performance in cross-validations compared with WA and MAT, can model a variety of taxon response types, find relevant predictors and incorporate interactions between predictors, and show some robustness with non-analogue fossil assemblages.

1 comment:

  1. Regarding "basic" physics, see this comment
    http://wattsupwiththat.com/2014/02/17/crises-in-climatology/#comment-1570611

    ReplyDelete