Ensemble forecasting of Indian Ocean Dipole events generated by conditional nonlinear optimal perturbation method

IF 3.5 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES International Journal of Climatology Pub Date : 2024-09-20 DOI:10.1002/joc.8627
Rong Feng, Wansuo Duan, Lei Hu, Ting Liu
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Abstract

In this study, we applied the conditional nonlinear optimal perturbation (CNOP) method to generate nonlinear fast-growing initial perturbations for ensemble forecasting, aiming to assess the effectiveness of the CNOP method in improving the forecast skill of climate events. Our findings reveal a significant improvement in the forecast skill of the Indian Ocean Dipole (IOD) within the CNOP ensemble forecast, particularly at long lead times, thereby extending the skilful forecast lead times. Notably, this improvement is more prominent for strong IOD events, with skilful forecast lead times exceeding 12 months, outperforming many current state-of-the-art coupled models. The high forecast skill of the CNOP method is primarily attributed to its ability to capture the uncertainties in the wind anomaly field in the eastern Indian Ocean (EIO) closely associated with IOD evolution. Consequently, CNOP ensemble members exhibit significant deviations from the control forecast, resulting in a large ensemble spread encompassing IOD evolution. Furthermore, a comparison with the climate-relevant singular vectors (CSV) method in terms of IOD and El Niño–Southern Oscillation (ENSO) predictions reveals the superior performance of the CNOP ensemble forecast. Despite the initial perturbations for ensemble forecasting being generated aimed at improving IOD forecast skill, the CNOP method significantly improves the forecast skill of both IOD and ENSO events, with a greater improvement for ENSO. Additionally, the CNOP ensemble forecast system provides more reliable estimates of forecast uncertainties and exhibits higher reliability with increasing lead times. In conclusion, the CNOP method effectively captures the nonlinear physical processes of climate events and improve the forecast skill.

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条件非线性最优扰动法产生的印度洋偶极子事件的集合预报
在这项研究中,我们应用条件非线性最优扰动(CNOP)方法生成用于集合预报的非线性快速增长初始扰动,旨在评估CNOP方法在提高气候事件预报技能方面的有效性。我们的研究结果表明,在 CNOP 集合预报中,印度洋偶极子(IOD)的预报技能得到了显著提高,尤其是在长预报周期内,从而延长了预报周期。值得注意的是,这种改进在强印度洋偶极子事件中更为突出,娴熟的预报提前期超过了12个月,超过了许多当前最先进的耦合模式。CNOP 方法的高预报技能主要归功于其捕捉与 IOD 演变密切相关的东印度洋(EIO)风异常场不确定性的能力。因此,CNOP 的集合成员与对照预报有很大偏差,导致集合范围很大,涵盖了 IOD 的演变。此外,与气候相关奇异矢量(CSV)方法在 IOD 和厄尔尼诺-南方涛动(ENSO)预测方面的比较显示,CNOP 集合预测的性能更优越。尽管生成集合预测的初始扰动是为了提高 IOD 的预测技能,但 CNOP 方法显著提高了 IOD 和 ENSO 事件的预测技能,对 ENSO 的提高更大。此外,CNOP 集合预报系统提供了更可靠的预报不确定性估计,并且随着准备时间的延长,可靠性更高。总之,CNOP 方法有效地捕捉了气候事件的非线性物理过程,提高了预报技能。
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来源期刊
International Journal of Climatology
International Journal of Climatology 地学-气象与大气科学
CiteScore
7.50
自引率
7.70%
发文量
417
审稿时长
4 months
期刊介绍: The International Journal of Climatology aims to span the well established but rapidly growing field of climatology, through the publication of research papers, short communications, major reviews of progress and reviews of new books and reports in the area of climate science. The Journal’s main role is to stimulate and report research in climatology, from the expansive fields of the atmospheric, biophysical, engineering and social sciences. Coverage includes: Climate system science; Local to global scale climate observations and modelling; Seasonal to interannual climate prediction; Climatic variability and climate change; Synoptic, dynamic and urban climatology, hydroclimatology, human bioclimatology, ecoclimatology, dendroclimatology, palaeoclimatology, marine climatology and atmosphere-ocean interactions; Application of climatological knowledge to environmental assessment and management and economic production; Climate and society interactions
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