![]() Using a framework incorporating geodynamics, tectonic and climatic forces with surface processes, the scientific team has presented a new dynamic model of the past 100 million years at high resolution (down to 10 kilometers), broken into frames of a million years. It's not only a tool to help us investigate the past but will help scientists understand and predict the future, as well."Ĭredit: Science (2023). "If you look for a continuous model of the interplay between river basins, global-scale erosion and sediment deposition at high resolution for the past 100 million years, it just doesn't exist. But our geological models have only provided a fragmented understanding of how our planet's recent physical features formed. ![]() Tristan Salles from the University of Sydney School of Geosciences, said, "To predict the future, we must understand the past. ![]() Working with scientists in France, University of Sydney geoscientists have published this new model in the journal Science.įor the first time, it provides a high-resolution understanding of how today's geophysical landscapes were created and how millions of tons of sediment have flowed to the oceans. Scientists today have published new research revealing a detailed and dynamic model of the Earth's surface over the past 100 million years. However, our understanding of this dynamic process has at best been patchy.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |