3D palaeogeographic reconstructions of the Phanerozoic versus sea-level and Sr-ratio variations  被引量：9

作　　者：Christian Vérard Cyril Hochard Peter O.Baumgartner Gérard M.Stampfli 

机构地区：[1]Université de Lausanne (UNIL), Institut des Sciences de la Terre (ISTE),Geopolis, Ch–1015 Lausanne, Switzerland

出　　处：《Journal of Palaeogeography》2015年第1期64-84,共21页古地理学报（英文版）

基　　金：The Swiss National Fund (SNF) and SHELL

摘　　要：A full global geodynamical model over 600 million years （Ma） has been de- veloped at the University of Lausanne during the past 20 years. We show herein how the 2D maps were converted into 3D （i.e., full hypsometry and bathymetry）, using a heuristic-based approach. Although the synthetic topography may be viewed as relatively crude, it has the advantage of being applicable anywhere on the globe and at any geological time. The model allows estimating the sea-level changes throughout the Phanerozoic, with the possibility, for the first time, to flood accordingly continental areas. One of the most striking results is the good correlation with ＂measured＂ sea-level changes, implying that long-term variations are predominantly tectonically-driven. Volumes of mountain relief are also estimated through time and compared with strontium isotopic ratio （Sr-ratio）, commonly thought to reflect mountain belt erosion. The tectonic impact upon the general Sr-retio trend is shown herein for the first time, although such influence was long been inferred.A full global geodynamical model over 600 million years （Ma） has been de- veloped at the University of Lausanne during the past 20 years. We show herein how the 2D maps were converted into 3D （i.e., full hypsometry and bathymetry）, using a heuristic-based approach. Although the synthetic topography may be viewed as relatively crude, it has the advantage of being applicable anywhere on the globe and at any geological time. The model allows estimating the sea-level changes throughout the Phanerozoic, with the possibility, for the first time, to flood accordingly continental areas. One of the most striking results is the good correlation with ＂measured＂ sea-level changes, implying that long-term variations are predominantly tectonically-driven. Volumes of mountain relief are also estimated through time and compared with strontium isotopic ratio （Sr-ratio）, commonly thought to reflect mountain belt erosion. The tectonic impact upon the general Sr-retio trend is shown herein for the first time, although such influence was long been inferred.

关 键 词：PALAEOGEOGRAPHY reconstruction HYPSOMETRY BATHYMETRY SEA-LEVEL Sr-ratio tectonic-climate relationship 

分 类 号：P531[天文地球—古生物学与地层学] P534.4[天文地球—地质学]