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The Impact of Air-Sea Coupling on Simulating SST Variability in the California Current System.

机译：海气耦合对模拟加州海流系统中海表温度变异性的影响。

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Here we show that air-sea coupling significantly impacts the simulation of sea surface temperature (SST) variability in the California Current System (CCS). Previous work has shown important differences between coupled and uncoupled models in simulating coastal SST, but only using empirical coupling or idealized scenarios. We compare the output of the UCLA Mesoscale Coupled Model to the output of a similar but uncoupled model over the CCS. These high resolution, realistic regional models have identical coastlines, bathymetry, and topography. They are forced at the boundaries by reanalysis data over the historical period 1981-1990. This model setup allows us to evaluate how including air-sea coupling impacts the accuracy of our simulation by comparing our model output to buoy observations. Both the spatial patterns and the amount of variability are more realistic in the coupled model, which is likely due to improved simulation of internal variability.

机译：在这里，我们表明，海-气耦合对加利福尼亚电流系统（CCS）中海面温度（SST）变异性的模拟有很大影响。先前的工作表明，在模拟沿海SST时，耦合模型和非耦合模型之间存在重要差异，但仅使用经验耦合或理想方案。我们将UCLA中尺度耦合模型的输出与CCS上类似但未耦合的模型的输出进行比较。这些高分辨率，逼真的区域模型具有相同的海岸线，水深和地形。 1981-1990年历史时期的再分析数据将它们逼到了极限。该模型设置使我们能够通过将模型输出与浮标观测值进行比较来评估海气耦合的影响如何影响模拟的准确性。在耦合模型中，空间模式和可变性的数量都更加现实，这可能是由于内部可变性的模拟得到了改善。

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作者
Walton, Daniel Burton.;
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作者单位

University of California, Los Angeles.;

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授予单位 University of California, Los Angeles.;
学科 Climate Change.;Environmental Sciences.;Atmospheric Sciences.;Physical Oceanography.
学位 M.S.
年度 2012
页码 31 p.
总页数 31
原文格式 PDF
正文语种 eng
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专利

1. A global view of air-sea thermal coupling and related non-Gaussian SST variability [J] . Philip Sura, Prashant D. Sardeshmukh Atmospheric research . 2009,第1期

机译：气海热耦合及相关的非高斯SST变异性的全局视图
2. Air-sea CO_2 fluxes in the California Current: Impacts of model resolution and coastal topography [J] . Jerome Fiechter, Enrique N. Curchitser, Christopher A. Edwards, Global Biogeochemical Cycles . 2014,第4期

机译：加利福尼亚洋流中的海海CO_2通量：模型分辨率和沿海地形的影响
3. Spatiotemporal variability and drivers of pCO_2 and air-sea CO_2 fluxes in the California Current System: an eddy-resolving modeling study [J] . G. Turi, Z. Lachkar, N. Gruber Biogeosciences . 2014,第3期

机译：加利福尼亚洋流系统中pCO_2和海气CO_2通量的时空变异性和驱动因素：涡旋模拟研究
4. Validation of Two-Way Coupled Air-Sea Model Stress and Currents Through Remotely Sensed Winds and SST [C] . Mark A. Bourassa, Qi Shi IEEE International Geoscience and Remote Sensing Symposium . 2018

机译：通过遥感风和SST进行的双向耦合海海模型应力和电流的验证
5. The impact of air-sea coupling on tropical intraseasonal variability: Simulation and predictability. [D] . Pegion, Kathleen V. 2007

机译：海海耦合对热带季节内变异的影响：模拟和可预测性。
6. Dampening of Submesoscale Currents by Air-Sea Stress Coupling in the Californian Upwelling System [O] . Lionel Renault, James C. McWilliams, Jonathan Gula -1

机译：加利福尼亚上升流系统中的海-海应力耦合对亚中尺度电流的衰减
7. Air-sea CO2fluxes in the California Current: Impacts of model resolution and coastal topography [O] . Jerome Fiechter, Enrique N. Curchitser, Christopher A. Edwards, 2014

机译：加利福尼亚州的Air-Sea Co2Fluxes当前：模型分辨率和沿海地形的影响
8. Alongshore Sub-Thermocline Current Variability in the Central California Current System. [R] . Hicks, M. R. 1992

机译：加州中部现有系统的近岸亚温跃层电流变化。

The Impact of Air-Sea Coupling on Simulating SST Variability in the California Current System.

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