科技报告详细信息
The Connected Isotopic Water Cycle in the Community Earth System Model Version 1
Brady, E ; Stevenson, S ; Bailey, D ; Liu, Z ; Noone, D ; Nusbaumer, J ; Otto‐Bliesner, B L ; Tabor, C ; Tomas, R ; Wong, T (Colorado Univ, Boulder, CO, United States)
关键词: HYDROLOGICAL CYCLE;    ISOTOPES;    HYDROGEN ISOTOPES;    OXYGEN ISOTOPES;    ATMOSPHERIC CIRCULATION;    AIR WATER INTERACTIONS;    SIMULATION;    CLIMATE MODELS;    ATMOSPHERIC MODELS;    OCEAN MODELS;   
RP-ID  :  GSFC-E-DAA-TN72198
学科分类:大气科学
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

Because of the pervasive role of water in the Earth system, the relative abundances of stable isotopologues of water are valuable for understanding atmospheric, oceanic, and biospheric processes, and for interpreting paleoclimate proxy reconstructions. Isotopologues are transported by both largescale and turbulent flows, and the ratio of heavy to light isotopologues changes due to fractionation that can accompany condensation and evaporation processes. Correctly predicting the isotopic distributions requires resolving the relationships between largescale ocean and atmospheric circulation and smallerscale hydrological processes, which can be accomplished within a coupled climate modeling framework. Here we present the water isotopeenabled version of the Community Earth System Model version 1 (iCESM1), which simulates global variations in water isotopic ratios in the atmosphere, land, ocean, and sea ice. In a transient Last Millennium simulation covering the 850-2005 period, iCESM1 correctly captures the latetwentiethcentury structure of δ(exp 18)O and δD over the global oceans, with more limited accuracy over land. The relationship between salinity and seawater δ(exp 18)O is also well represented over the observational period, including interbasin variations. We illustrate the utility of coupled, isotopeenabled simulations using both Last Millennium simulations and freshwater hosing experiments with iCESM1. Closing the isotopic mass balance between all components of the coupled model provides new confidence in the underlying depiction of the water cycle in CESM, while also highlighting areas where the underlying hydrologic balance can be improved. The iCESM1 is poised to be a vital community resource for ongoing model development with both modern and paleoclimate applications.

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