PlioMIP2 simulations using the MIROC4m climate model

Climate of The Past Discussions Pub Date : 2020-02-19 DOI:10.5194/cp-2020-17

W. Chan, A. Abe‐Ouchi

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引用次数: 4

Abstract

Abstract. The second phase of the Pliocene Model Intercomparison Project (PlioMIP2) has attracted many climate modelling groups in its continuing efforts to better understand the climate of the mid-Piacenzian warm period (mPWP) when atmospheric CO2 was last closest to present day levels. Like the first phase, PlioMIP1, it is an internationally coordinated initiative that allows for a systematic comparison of various models in a similar manner to PMIP. Model intercomparison and model-data comparison now focus specifically on the interglacial at marine isotope stage KM5c (3.205 Ma) and experimental design is not only based on new boundary conditions but includes various sensitivity experiments. In this study, we present results from long-term model integrations using the MIROC4m atmosphere-ocean coupled general circulation model, developed at the institutes CCSR/NIES/FRCGC in Japan. The core experiment, with CO2 levels set to 400 ppm, shows a warming of 3.1 °C compared to the Pre-Industrial, with two-thirds of the warming being contributed by the increase in CO2. Although this level of warming is less than that in the equivalent PlioMIP1 experiment, there is a slightly better agreement with proxy sea surface temperature (SST) data at PRISM3 locations, especially in the northern North Atlantic where there were large model-data discrepancies in PlioMIP1. Similar changes in precipitation and sea ice are seen and the Arctic remains ice-free in the summer. However, unlike PlioMIP1, the Atlantic Meridional Overturning Circulation (AMOC) is now stronger than that of the Pre-Industrial, even though increasing CO2 tends to weaken it. This stronger AMOC is a consequence of a closed Bering Strait in the PlioMIP2 paleogeography. Also, when present day boundary conditions are replaced by those of the Pliocene, the dependency of the AMOC strength on CO2 is significantly weakened. Sensitivity tests show that lower values of CO2 give a global SST which is overall more consistent with the PRISM3 SST field presented in PlioMIP1. Inclusion of dynamical vegetation and the effects of all realistic orbital configurations should be considered in future experiments using MIROC4m for the mPWP.

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使用MIROC4m气候模式的PlioMIP2模拟

摘要上新世模式比对项目(PlioMIP2)的第二阶段吸引了许多气候模拟小组继续努力，以更好地了解大气二氧化碳最近一次最接近今天水平的皮亚琴世中期暖期(mPWP)的气候。与第一阶段PlioMIP1一样，这是一项国际协调的倡议，允许以与PMIP类似的方式对各种模式进行系统比较。模式比对和模式资料比对目前主要集中在海洋同位素阶段KM5c (3.205 Ma)的间冰期，实验设计不仅基于新的边界条件，而且包括各种灵敏度实验。在这项研究中，我们展示了使用日本CCSR/NIES/FRCGC研究所开发的MIROC4m大气-海洋耦合环流模式进行长期模式整合的结果。在二氧化碳浓度设定为百万分之400的核心实验中，与工业化前相比，气温上升了3.1摄氏度，其中三分之二的变暖是由二氧化碳的增加造成的。虽然这一变暖水平低于等效PlioMIP1实验，但与PRISM3地点的替代海表温度(SST)数据的一致性略好，特别是在北大西洋北部，PlioMIP1的模式数据差异很大。降水和海冰也出现了类似的变化，北极在夏季仍保持无冰状态。然而，与PlioMIP1不同的是，大西洋经向翻转环流(AMOC)现在比前工业化时期更强，尽管二氧化碳的增加往往会削弱它。这种较强的AMOC是PlioMIP2古地理中白令海峡封闭的结果。此外，当当前的边界条件被上新世的边界条件所取代时，AMOC强度对CO2的依赖性显著减弱。敏感性试验表明，CO2值越低，全球海温总体上与PlioMIP1中提出的PRISM3海温场更加一致。在未来使用MIROC4m进行mPWP的实验中，应考虑动态植被和所有实际轨道配置的影响。

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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Climate of The Past Discussions

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