The modelled climatic response to the 18.6-year lunar nodal cycle and its role in decadal temperature trends

M. Joshi, R. Hall, D. Stevens, E. Hawkins
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引用次数: 2

Abstract

Abstract. The 18.6-year lunar nodal cycle arises from variations in the angle of the Moon's orbital plane. Previous work has linked the nodal cycle to climate but has been limited by either the length of observations analysed or geographical regions considered in model simulations of the pre-industrial period. Here we examine the global effect of the lunar nodal cycle in multi-centennial climate model simulations of the pre-industrial period. We find cyclic signals in global and regional surface air temperature (with amplitudes of around 0.1 K) and in ocean heat uptake and ocean heat content. The timing of anomalies of global surface air temperature and heat uptake is consistent with the so-called slowdown in global warming in the first decade of the 21st century. The lunar nodal cycle causes variations in mean sea level pressure exceeding 0.5 hPa in the Nordic Seas region, thus affecting the North Atlantic Oscillation during boreal winter. Our results suggest that the contribution of the lunar nodal cycle to global temperature should be negative in the mid-2020s before becoming positive again in the early 2030s, reducing the uncertainty in time at which projected global temperature reaches 1.5 ∘C above pre-industrial levels.
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对18.6年月球节点周期的模拟气候响应及其在十年温度趋势中的作用
摘要18.6年的月球节点周期源于月球轨道平面角度的变化。先前的工作已经将节点周期与气候联系起来,但受到前工业化时期模型模拟中分析的观测长度或考虑的地理区域的限制。在这里,我们在前工业化时期的百年气候模型模拟中研究了月球结节循环的全球影响。我们在全球和区域地表气温中发现了周期性信号(振幅约为0.1 K) 以及海洋热量吸收和海洋热量含量。全球地表气温和热量吸收异常的时间与21世纪前十年所谓的全球变暖放缓一致。月球结节周期导致平均海平面压力变化超过0.5 北欧海域的百帕,从而在北方冬季影响北大西洋涛动。我们的研究结果表明,月球诺达尔周期对全球温度的贡献应该在20世纪20年代中期为负,然后在20世纪30年代初再次为正,从而减少了预计全球温度达到1.5的时间的不确定性 ∘C高于工业化前的水平。
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