Short- and long-term variability of the Antarctic and Greenland ice sheets

Edward Hanna, Dániel Topál, Jason E. Box, Sammie Buzzard, Frazer D. W. Christie, Christine Hvidberg, Mathieu Morlighem, Laura De Santis, Alessandro Silvano, Florence Colleoni, Ingo Sasgen, Alison F. Banwell, Michiel R. van den Broeke, Robert DeConto, Jan De Rydt, Heiko Goelzer, Alexandra Gossart, G. Hilmar Gudmundsson, Katrin Lindbäck, Bertie Miles, Ruth Mottram, Frank Pattyn, Ronja Reese, Eric Rignot, Aakriti Srivastava, Sainan Sun, Justin Toller, Peter A. Tuckett, Lizz Ultee
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Abstract

The variability of the Antarctic and Greenland ice sheets occurs on various timescales and is important for projections of sea level rise; however, there are substantial uncertainties concerning future ice-sheet mass changes. In this Review, we explore the degree to which short-term fluctuations and extreme glaciological events reflect the ice sheets’ long-term evolution and response to ongoing climate change. Short-term (decadal or shorter) variations in atmospheric or oceanic conditions can trigger amplifying feedbacks that increase the sensitivity of ice sheets to climate change. For example, variability in ocean-induced and atmosphere-induced melting can trigger ice thinning, retreat and/or collapse of ice shelves, grounding-line retreat, and ice flow acceleration. The Antarctic Ice Sheet is especially prone to increased melting and ice sheet collapse from warm ocean currents, which could be accentuated with increased climate variability. In Greenland both high and low melt anomalies have been observed since 2012, highlighting the influence of increased interannual climate variability on extreme glaciological events and ice sheet evolution. Failing to adequately account for such variability can result in biased projections of multi-decadal ice mass loss. Therefore, future research should aim to improve climate and ocean observations and models, and develop sophisticated ice sheet models that are directly constrained by observational records and can capture ice dynamical changes across various timescales. The different contributions of long-term and short-term variability to the evolution of ice sheets lead to substantial uncertainties in ice sheet models. This Review describes the response of ice sheets to oceanic, atmospheric and hydrological processes across a range of timescales.

Abstract Image

Abstract Image

南极和格陵兰冰盖的短期和长期可变性
南极和格陵兰冰盖的变化发生在不同的时间尺度上,对海平面上升的预测非常重要;然而,未来冰盖质量的变化还存在很大的不确定性。在本《综述》中,我们将探讨短期波动和极端冰川学事件在多大程度上反映了冰原的长期演变和对持续气候变化的响应。大气或海洋条件的短期(十年或更短)变化会引发放大反馈,从而增加冰原对气候变化的敏感性。例如,海洋诱发和大气诱发的融化变化可引发冰架变薄、后退和/或崩塌、接地线后退和冰流加速。南极冰盖尤其容易受到暖洋流的影响而加剧融化和冰盖崩塌,而气候变异性的增加可能会加剧这种情况。在格陵兰岛,自 2012 年以来观测到了高和低的融化异常现象,凸显了年际气候变率增加对极端冰川学事件和冰盖演变的影响。如果不能充分考虑到这种变异性,就会导致对多年冰量损失的预测出现偏差。因此,未来的研究应着眼于改进气候和海洋观测及模型,并开发出直接受观测记录制约并能捕捉不同时间尺度冰层动态变化的复杂冰盖模型。
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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