Sensitivity study of the REMO regional climate model to domain size

Q2 Earth and Planetary Sciences

Advances in Science and Research Pub Date : 2021-09-22 DOI:10.5194/asr-18-157-2021

Réka Suga, Otília A. Megyeri-Korotaj, Gabriella Allaga-Zsebeházi

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引用次数: 1

Abstract

Abstract. In the framework of the KlimAdat national project, the Hungarian Meteorological Service (OMSZ) is aiming to perform 10 km horizontal resolution simulations with the 2015 version of the REMO regional climate model over Central and Eastern Europe. The long-term simulations were preceded by a 10-year long sensitivity study on domain size, which is summarised in this paper. We selected three different domains embedded in each other, which contain the whole area of the Danube and Tisza river catchments. Lateral boundary conditions were obtained from the 50 km resolution REMO driven by the MPI-ESM-LR global climate model. Simulations were performed for the period of 1970–1980 including 1-year spin-up. Monthly and seasonal means of daily 2 m temperature, precipitation sum and several precipitation indices were evaluated. Reference datasets were E-OBS 19.0 and CarpatClim-HU. We can conclude, that the selection of domain size has a larger impact on the simulation of precipitation, and in the case of the seasonal mean of the precipitation indices, the differences amongst the results obtained on each model domain exceed 10 %. In general, the smallest biases occurred on the largest domain, therefore further long-term simulations are being produced on this domain.

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REMO区域气候模式对区域大小的敏感性研究

摘要在KlimAdat国家项目的框架内，匈牙利气象局(OMSZ)的目标是利用2015年版的REMO区域气候模式在中欧和东欧进行10公里水平分辨率的模拟。在长期模拟之前，对区域大小进行了长达10年的敏感性研究，本文对此进行了总结。我们选择了三个相互嵌入的不同区域，它们包含了多瑙河和Tisza河流域的整个区域。侧向边界条件由MPI-ESM-LR全球气候模式驱动的50 km分辨率REMO获得。在1970-1980年期间进行了模拟，其中包括1年的自旋启动。对日2 m温度、降水总量和若干降水指标的月平均和季节平均值进行了评价。参考数据集为E-OBS19.0和carpatclimb - hu。我们可以得出结论，区域大小的选择对降水的模拟有较大的影响，在降水指数的季节平均值的情况下，在每个模式区域上得到的结果之间的差异超过10%。一般来说，最小的偏差发生在最大的领域，因此进一步的长期模拟是在这个领域产生的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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