Performance of the Canadian Arctic Prediction System during the YOPP Special Observing Periods

IF 1.6 4区 地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Atmosphere-Ocean Pub Date : 2023-04-05 DOI:10.1080/07055900.2023.2191831
B. Casati, T. Robinson, F. Lemay, M. Køltzow, T. Haiden, E. Mekis, F. Lespinas, V. Fortin, G. Gascon, J. Milbrandt, Greg Smith
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Abstract

ABSTRACT As a contribution to the Year of Polar Prediction (YOPP), Environment and Climate Change Canada (ECCC) developed the Canadian Arctic Prediction System (CAPS), a high-resolution (3-km horizontal grid-spacing) deterministic Numerical Weather Prediction (NWP) system that ran in real-time from February 2018 to November 2021. During YOPP, ECCC was also running two other operational systems that cover the Arctic: the 10-km Regional Deterministic Prediction System (RDPS) and the 25-km Global Deterministic Prediction System (GDPS). The performance of these three systems over the Arctic was monitored and routinely compared during 2018, both subjectively and with objective verification scores. This work provides a description of CAPS and compares the surface variable objective verification for the Canadian deterministic NWP systems operational during YOPP, focusing on the Arctic winter and summer Special Observing Periods (Feb-March and July-Aug-Sept, 2018). CAPS outperforms RDPS and GDPS in predicting near-surface temperature, dew-point temperature, wind and precipitation, in both seasons and domains. All three systems exhibit a diurnal cycle in the near-surface temperature biases, with maxima at night and minima in day-time. In order to mitigate representativeness issues associated with complex topography, model tile temperatures are adjusted to the station elevation by applying a standard atmosphere lapse-rate: especially for the coarse-resolution models, the lapse-rate adjustment reduces the temperature cold biases characterising mountain terrains. Verification of winter precipitation is performed by adjusting solid precipitation measurement errors from the undercatch in windy conditions: the Canadian models’ systematic positive bias, which was artificially inflated by the undercatch, is reduced by the adjustment, to attain neutral bias. These YOPP dedicated intense verification activities have identified some strengths, weaknesses and systematic behaviours of the Canadian deterministic prediction systems at high latitudes: these results can serve as a benchmark, for comparison and further development. Moreover, this YOPP verification exercise has revealed some issues related to the verification of surface variables and has led to the development of better verification practices for the polar regions (and beyond).
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加拿大北极预报系统在YOPP特殊观测期的表现
摘要作为对极地预测年(YOPP)的贡献,加拿大环境与气候变化中心(ECCC)开发了加拿大北极预测系统(CAPS),这是一个高分辨率(3公里水平网格间距)确定性数值天气预测(NWP)系统,于2018年2月至2021年11月实时运行。在YOPP期间,ECCC还运行了另外两个覆盖北极的作战系统:10公里区域确定性预测系统(RDPS)和25公里全球确定性预测系统。2018年,对这三个系统在北极上空的性能进行了主观和客观验证分数的监测和常规比较。这项工作提供了CAPS的描述,并比较了在YOPP期间运行的加拿大确定性NWP系统的表面变量目标验证,重点是北极冬季和夏季特殊观测期(2018年2月至3月和7月至8月至9月)。CAPS在预测近地表温度、露点温度、风和降水方面,在季节和领域都优于RDPS和GDPS。所有三个系统在近地表温度偏差中都表现出昼夜循环,夜间最大,白天最小。为了缓解与复杂地形相关的代表性问题,通过应用标准大气衰减率,将模型瓦片温度调整到站点高程:特别是对于粗分辨率模型,衰减率调整降低了山区地形的温度-冷偏差。冬季降水量的验证是通过在多风条件下调整底盘上的固体降水量测量误差来进行的:加拿大模型的系统正偏差(由底盘人为膨胀)通过调整而减少,以获得中性偏差。这些YOPP专门的密集验证活动已经确定了加拿大高纬度确定性预测系统的一些优势、弱点和系统行为:这些结果可以作为比较和进一步发展的基准。此外,这次YOPP验证演习揭示了一些与表面变量验证有关的问题,并为极地(及其他地区)制定了更好的验证实践。
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来源期刊
Atmosphere-Ocean
Atmosphere-Ocean 地学-海洋学
CiteScore
2.50
自引率
16.70%
发文量
33
审稿时长
>12 weeks
期刊介绍: Atmosphere-Ocean is the principal scientific journal of the Canadian Meteorological and Oceanographic Society (CMOS). It contains results of original research, survey articles, notes and comments on published papers in all fields of the atmospheric, oceanographic and hydrological sciences. Arctic, coastal and mid- to high-latitude regions are areas of particular interest. Applied or fundamental research contributions in English or French on the following topics are welcomed: climate and climatology; observation technology, remote sensing; forecasting, modelling, numerical methods; physics, dynamics, chemistry, biogeochemistry; boundary layers, pollution, aerosols; circulation, cloud physics, hydrology, air-sea interactions; waves, ice, energy exchange and related environmental topics.
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