Effects of CO2, continental distribution, topography and vegetation changes on the climate at the Middle Miocene: a model study

Henrot, A.-J.; François, L.; Favre, E.; Butzin, M.; Ouberdous, M.; Munhoven, G.

doi:/10.5194/cp-6-675-2010

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Effects of CO₂, continental distribution, topography and vegetation changes on the climate at the Middle Miocene: a model study

Henrot, A.-J.; François, L.; Favre, E.; Butzin, M.; Ouberdous, M.; Munhoven, G. (2010). Effects of CO₂, continental distribution, topography and vegetation changes on the climate at the Middle Miocene: a model study. Clim. Past 6(5): 675-694. https://dx.doi.org/10.5194/cp-6-675-2010

In: Climate of the Past. Copernicus: Göttingen. ISSN 1814-9324; e-ISSN 1814-9332, meer

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VLIZ: Open access 315079 [ download pdf ]

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Henrot, A.-J., meer François, L., meer Favre, E.	Butzin, M. Ouberdous, M., meer Munhoven, G., meer

Abstract

The Middle Miocene was one of the last warm periods of the Neogene, culminating with the Middle Miocene Climatic Optimum (MMCO, approximatively 17–15 Ma). Several proxy-based reconstructions support warmer and more humid climate during the MMCO. The mechanisms responsible for the warmer climate at the MMCO and particularly the role of the atmospheric carbon dioxide are still highly debated. Here we carried out a series of sensitivity experiments with the model of intermediate complexity Planet Simulator, investigating the contributions of the absence of ice on the continents, the opening of the Central American and Eastern Tethys Seaways, the lowering of the topography on land, the effect of various atmospheric CO₂ concentrations and the vegetation feedback.

Our results show that a higher than present-day CO₂ concentration is necessary to generate a warmer climate at all latitudes at the Middle Miocene, in agreement with the terrestrial proxy reconstructions which suggest high atmospheric CO₂ concentrations at the MMCO. Nevertheless, the changes in sea-surface conditions, the lowering of the topography on land and the vegetation feedback also produce significant local warming that may, locally, even be stronger than the CO₂ induced temperature increases. The lowering of the topography leads to a more zonal atmospheric circulation and allows the westerly flow to continue over the lowered Plateaus at mid-latitudes. The reduced height of the Tibetan Plateau notably prevents the development of a monsoon-like circulation, whereas the reduction of elevations of the North American and European reliefs strongly increases precipitation from northwestern to eastern Europe.

The changes in vegetation cover contribute to maintain and even to intensify the warm and humid conditions produced by the other factors, suggesting that the vegetation-climate interactions could help to improve the model-data comparison.

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