Antarctic tipping points triggered by the mid-Pliocene warm climate

IF 3.8 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Javier Blasco, Ilaria Tabone, Daniel Moreno-Parada, Alexander Robinson, Jorge Alvarez-Solas, Frank Pattyn, Marisa Montoya
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引用次数: 0

Abstract

Abstract. Tipping elements, including the Antarctic Ice Sheet (AIS), are Earth system components that could reach critical thresholds due to anthropogenic emissions. Increasing our understanding of past warm climates can help to elucidate the future contribution of the AIS to emissions. The mid-Pliocene Warm Period (mPWP; ∼ 3.3–3.0 million years ago) serves as an ideal benchmark experiment. During this period, CO2 levels were similar to the present day (PD; 350–450 ppmv), but global mean temperatures were 2.5–4.0 K higher. Sea level reconstructions from that time indicate a rise of 5–25 m compared to the present, highlighting the potential crossing of tipping points in Antarctica. In order to achieve a sea level contribution far beyond 10 m, not only the West Antarctic Ice Sheet (WAIS) needs to largely decrease, but a significant response in the East Antarctic Ice Sheet (EAIS) is also required. A key question in reconstructions and simulations is therefore which of the AIS basins retreated during the mPWP. In this study, we investigate how the AIS responds to climatic and bedrock conditions during the mPWP. To this end, we use the Pliocene Model Intercomparison Project, Phase 2 (PlioMIP2), general circulation model ensemble to force a higher-order ice sheet model. Our simulations reveal that the WAIS experiences collapse with a 0.5 K oceanic warming. The Wilkes Basin shows retreat at 3 K oceanic warming, although higher precipitation rates could mitigate such a retreat. Totten Glacier shows slight signs of retreats only under high-oceanic warming conditions (greater than 4 K oceanic anomaly). If only the WAIS collapses, we simulate a mean contribution of 2.7 to 7.0 ms.l.e. (metres of sea level equivalent). If, in addition, the Wilkes Basin retreats, our simulations suggest a mean contribution of 6.0 to 8.9 ms.l.e. Besides uncertainties related to the climate forcing, we also examine other sources of uncertainty related to initial ice thickness and ice dynamics. We find that the climatologies yield a higher uncertainty than the dynamical configuration if parameters are constrained with PD observations and that starting from Pliocene reconstructions leads to smaller ice sheet configurations due to the hysteresis behaviour of marine bedrocks. Ultimately, our study concludes that marine ice cliff instability is not a prerequisite for the retreat of the Wilkes Basin. Instead, a significant rise in oceanic temperatures can initiate such a retreat.
上新世中期温暖气候引发的南极临界点
摘要。包括南极冰盖(AIS)在内的临界要素是可能因人为排放而达到临界阈值的地球系统组成部分。加深对过去暖气候的了解有助于阐明南极冰盖对未来排放的影响。中新世温暖期(mPWP;距今 330-300 万年)是一个理想的基准实验。在这一时期,二氧化碳水平与现在相似(PD;350-450 ppmv),但全球平均气温要高出 2.5-4.0 K。当时的海平面重建结果表明,与现在相比,海平面上升了 5-25 米,这凸显了南极洲可能会跨越临界点。为了使海平面上升远远超过 10 米,不仅南极西部冰盖(WAIS)需要大幅减少,而且南极东部冰盖(EAIS)也需要做出重大反应。因此,重建和模拟中的一个关键问题是,在 mPWP 期间,AIS 中的哪些盆地发生了退缩。在本研究中,我们调查了在mPWP期间,AIS是如何对气候和基岩条件做出反应的。为此,我们使用了上新世模型相互比较项目第二阶段(PlioMIP2)的大气环流模型组合,以模拟高阶冰盖模型。我们的模拟结果表明,当海洋变暖 0.5 K 时,WAIS 会发生坍塌。威尔克斯盆地在海洋变暖 3 K 时会出现退缩,尽管较高的降水率可以缓解这种退缩。托滕冰川只有在高海洋暖化条件下(海洋异常值大于 4 K)才会出现轻微的退缩迹象。如果只有 WAIS 崩塌,我们模拟了 2.7 至 7.0 ms.l.e.(米海平面当量)的平均影响。除了与气候强迫相关的不确定性,我们还研究了与初始冰厚度和冰动力学相关的其他不确定性来源。我们发现,如果利用近地观测数据对参数进行约束,气候学产生的不确定性要高于动力学配置,而且由于海洋基岩的滞后行为,从上新世重建开始会导致较小的冰盖配置。最终,我们的研究得出结论,海洋冰崖的不稳定性并不是威尔克斯盆地退缩的先决条件。相反,海洋温度的显著上升可以启动这种后退。
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来源期刊
Climate of The Past
Climate of The Past 地学-气象与大气科学
CiteScore
7.40
自引率
14.00%
发文量
120
审稿时长
4-8 weeks
期刊介绍: Climate of the Past (CP) is a not-for-profit international scientific journal dedicated to the publication and discussion of research articles, short communications, and review papers on the climate history of the Earth. CP covers all temporal scales of climate change and variability, from geological time through to multidecadal studies of the last century. Studies focusing mainly on present and future climate are not within scope. The main subject areas are the following: reconstructions of past climate based on instrumental and historical data as well as proxy data from marine and terrestrial (including ice) archives; development and validation of new proxies, improvements of the precision and accuracy of proxy data; theoretical and empirical studies of processes in and feedback mechanisms between all climate system components in relation to past climate change on all space scales and timescales; simulation of past climate and model-based interpretation of palaeoclimate data for a better understanding of present and future climate variability and climate change.
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