根据十年期预测和观测结果制约内部变异性,提高近期气候预测的质量

Markus Donat, Rashed Mahmood, Josep Cos, Pablo Ortega, F. Doblas-Reyes
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摘要

对未来几十年近期气候变化的预测受制于内部气候变异性的巨大不确定性。最近开发了一些方法,通过基于大型气候模拟集合的气候变率阶段性约束来减少这种不确定性。这些方法选择那些与观测数据或十年期初始化预测的海面温度模式更为一致的集合成员。以前的研究表明,这些约束条件对预测未来 20 年内的气温有好处,但这些研究将这些约束条件应用于不同的气候模拟集合,因此无法对各种方法进行一致的比较,也无法确定一种方法相对于另一种方法的具体优势。在这里,我们将几种制约内部变率阶段的方法应用于一个相同的多模式集合,该集合由耦合模式相互比较项目第六阶段(CMIP6)的 37 个模式的 311 个模拟结果组成,并比较了它们的预测质量。我们的研究表明,基于观测数据和十年期预测的约束能显著提高某些地区 10 年和 20 年近地面温度预测的技能,而基于十年期预测的约束能带来最大的概率技能附加值。我们进一步探讨了不同约束条件下的敏感性,这些约束条件侧重于单独的内部变率模式,或内部变率和长期变化对强迫的响应模式的组合。展望近期未来,与无约束的 CMIP6 集合相比,所有约束条件的变化都表明 2020-2039 年期间北半球大部分地区将加速变暖。
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Improving the forecast quality of near-term climate projections by constraining internal variability based on decadal predictions and observations
Projections of near-term climate change in the next few decades are subject to substantial uncertainty from internal climate variability. Approaches to reduce this uncertainty by constraining the phasing of climate variability based on large ensembles of climate simulations have recently been developed. These approaches select those ensemble members that are in closer agreement with sea surface temperature patterns from either observations or initialized decadal predictions. Previous studies demonstrated the benefits of these constraints for projections up to 20 years into the future, but these studies applied the constraints to different ensembles of climate simulations, which prevents a consistent comparison of methods or identification of specific advantages of one method over another. Here we apply several methods to constrain internal variability phases, using either observations or decadal predictions as constraining reference, to an identical multi-model ensemble consisting of 311 simulations from 37 models from the Coupled Model Intercomparison Project phase 6 (CMIP6), and compare their forecast qualities. We show that constraining based on both observations and decadal predictions significantly enhances the skill of 10 and 20-year projections for near-surface temperatures in some regions, and that constraining based on decadal predictions leads to the largest added value in terms of probabilistic skill. We further explore the sensitivity to different implementations of the constraint that focus on the patterns of either internal variability alone or a combination of internal variability and long-term changes in response to forcing. Looking into the near-term future, all variations of the constraints suggest an accelerated warming of large parts of the Northern Hemisphere for the period 2020-2039, in comparison to the unconstrained CMIP6 ensemble.
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