ausblenden:
Schlagwörter:
GCM (general circulation model); ice cores; stable isotopes;
South America; ENSO
General-circulation model; sea-surface temperature; ice core
records; la-nina events; south-america; amazon basin; el-nino;
water isotopes; atmospheric circulation; rainfall variability
Zusammenfassung:
[1] We use two atmospheric general circulation models (AGCMs), the ECHAM-4 and the GISS II models, to analyze the interannual variability of delta(18)O in precipitation over the tropical Americas. Several different simulations with isotopic tracers forced with observed global sea surface temperatures (SST) between 1950 and 1998 reveal the influence of varying temperature, precipitation amount, and moisture source contributions on the predicted delta(18)O distribution. Observational evidence from climatic (NCEP-NCAR) and sparse stable isotope (IAEA-GNIP) data is used to evaluate model performance. The models capture the essential features of surface climate over the tropical Americas in terms of both their spatial and temporal characteristics. Using a low- resolution model (GISS II), adjusted to provide a more realistic Andean topography, or a higher-resolution model (ECHAM-4 T106) leads to an improved delta(18)O distribution over the tropical Americas with an altitude effect comparable to observations.
Water vapor transport and gradual rainout and increasingly depleted composition of water vapor along its trajectory are correctly simulated in both models, although the ECHAM model appears to underestimate the continentality effect over the Amazon basin. A significant dependence of delta(18)O on the precipitation amount is apparent in both models, in accordance with observations, while the influence of temperature seems to be less significant in most regions and is accurately reproduced by the ECHAM model only. Over most regions, however, the delta(18)O signal in precipitation is influenced by a combination of factors, such as precipitation amount, temperature, moisture source variability, and atmospheric circulation changes. Over parts of the tropical Americas, the delta(18)O signal is therefore also significantly correlated with ENSO because ENSO is an integrator of many factors affecting the delta(18)O composition of precipitation.
