216 / 2024-09-11 17:24:04
Emergence of the modern global monsoon from the Pangea Megamonsoon set by paleogeography
Paleoclimate,paleoceanography,Global land monsoon,atmosphere-ocean coupling,Phanerozoic
Session 42 - Deep-time ocean and climate changes: insights from models and proxies
Abstract Accepted
Geologic evidence and paleoclimate simulations have indicated the existence of an extensive, interconnected megamonsoon system over the Pangea supercontinent. However, the ways in which subsequent continental breakup about 180 million years ago and reassembly in the Cenozoioc, as well as large global climatic fluctuations, influenced the transition to the modern global monsoon system are uncertain. Here, we use a large set of simulations of global climate every 10 million years over the past 250 million years to show that the monsoon system evolved in three stages due to changes in paleogeography: a spatially extensive land monsoon with weak precipitation in the Triassic (> 170 Ma), a smaller land monsoon with intense precipitation in the Cretaceous (170 – 70 Ma), and a return to a broader, weaker monsoon in the Cenozoic (< 70 Ma). It is found that global mean temperature variations have little impact on global land-monsoon area and intensity over tectonic timescales. Applying an analysis of atmospheric energetics, we show that these variations of the global land monsoon are governed by continental area, latitudinal location, and fragmentation.