A strong control of the South American SeeSaw on the intra-seasonal variability of the isotopic composition of precipitation in the Bolivian Andes

Water stable isotopes (delta) in tropical regions are a valuable tool to study both convective processes and climate variability provided that local and remote controls on hare well known. Here, we examine the intra-seasonal variability of the event-based isotopic composition of precipitation (delta D-Zongo) in the Bolivian Andes (Zongo valley, 16 degrees 20'S-67 degrees 47'W) from September 1st, 1999 to August 31st, 2000. We show that the local amount effect is a very poor parameter to explain delta D-Zongo. We thus explore the property of water isotopes to integrate both temporal and spatial convective activities. We first show that the local convective activity averaged over the 7-8 days preceding the rainy event is an important control on delta D-Zongo during the rainy season (similar to 40% of the delta D-Zongo variability is captured). This could be explained by the progressive depletion of local water vapor by unsaturated downdrafts of convective systems. The exploration of remote convective controls on delta D-Zongo shows a strong influence of the South American SeeSaw (SASS) which is the first climate mode controlling the precipitation variability in tropical South America during austral summer. Our study clearly evidences that temporal and spatial controls are not fully independent as the 7-day averaged convection in the Zongo valley responds to the SASS. Our results are finally used to evaluate a water isotope enabled atmospheric general circulation model (LMDZ-iso), using the stretched grid functionality to run zoomed simulations over the entire South American continent (15 degrees N-55 degrees S; 30 degrees-85 degrees W). We find that zoomed simulations capture the intra-seasonal isotopic variation and its controls, though with an overestimated local sensitivity, and confirm the role of a remote control on delta according to a SASS-like dipolar structure. (c) 2011 Elsevier B.V. All rights reserved.