Impacts of Andean uplift on the Humboldt Current system: A climate model sensitivity study
Abstract
Using both an atmospheric global circulation model and a regional oceanic model, we assess the impact of the Andes uplift on the Humboldt Current system (HCS). With three topographic scenarios for the Andes, we show that the uplift played a crucial role in shaping the lower troposphere dynamics over the Pacific Ocean and in turn affected the physical characteristics of the system. Our results show that the uplift has triggered a marked southward shift of the HCS, changing the latitudinal position of coastal upwelling areas as well as the strength of the South Pacific gyre. Our oceanic modeling experiments show that the latitudinal pattern of sea surface temperatures is dramatically modified with reduced Andes, with anomalies reaching up to 3°C. We discuss the feedbacks of these changes on South American climate as well as the potential onset of an altitudinal threshold that would have had triggered these changes.
- Publication:
-
Paleoceanography
- Pub Date:
- December 2009
- DOI:
- 10.1029/2008PA001668
- Bibcode:
- 2009PalOc..24.4215S
- Keywords:
-
- Atmospheric Processes: Paleoclimatology (0473;
- 4900);
- Oceanography: General: Climate and interannual variability (1616;
- 1635;
- 3305;
- 3309;
- 4513);
- Oceanography: Physical: Eastern boundary currents;
- Oceanography: Physical: Upper ocean and mixed layer processes;
- Information Related to Geologic Time: Cenozoic;
- Andes;
- paleoclimate;
- Humboldt