Abstract
Understanding climate patterns, with their decisive influence on plant distribution and development, is crucial to understanding the history of vegetation patterns in Europe during the Miocene. This paper presents the detailed analyses of several precipitation parameters, including monthly precipitation of the wettest, driest and warmest months, for five Miocene stages. In conjunction with seasonality of temperature, those parameters provide a meaningful measure of continentality and can help to document Miocene climate changes and patterns and their possible influence on vegetation. Climate reconstructions provided here are entirely based on palaeobotanical material. In total, 169 Miocene floras were selected, including 14 Burdigalian, 41 Langhian, 40 Serravallian, 36 Tortonian, and 38 Messinian localities. All floras were analysed using the Coexistence Approach. The analysis of several precipitation parameters, the statistical inter-correlation of results, and the comparison with modern patterns provides a comprehensive account on Miocene precipitation. Miocene climatic changes after the Mid Miocene Climatic Optimum (MMCO) are evidenced in our data set by three major factors, i.e. (1) increasing seasonality of temperature, (2) changes in the annual distribution of precipitation towards a precipitation peak in summer, and (3) a late increase of longitudinal gradients of precipitation parameters. Evidence of continental climate in Eastern Europe first appears during the Messinian. In addition to changes in temperature, shifts in the annual distribution of precipitation may have played a major role in post-Langhian climate changes. However, the most significant climatic transformations occurred later, from the end of Miocene through to the present. Several authors have described patterns of vegetation development in Europe that are in good agreement with our finding of the first evidence for continental climate in Eastern Europe during the Messinian. Our data do not support an onset of opening of vegetation during the Tortonian or even earlier, as has been described for some parts of Eastern and Southern Europe. Possibly either non climatic parameters influenced such an early development, or our data lack the required resolution and/or spatial coverage to fully decipher the influence of continentality on vegetation and to correlate climate and vegetation statistically. Nevertheless, climatic data that quantify continentality can provide a sound basis for explaining the expansion of grassland in Eurasia.
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