Overview of the MOSAiC expedition

IF 4.7 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Elementa-Science of the Anthropocene Pub Date : 2022-01-01 DOI:10.1525/elementa.2021.000046

M. Nicolaus, D. Perovich, G. Spreen, M. Granskog, Luisa von Albedyll, M. Angelopoulos, P. Anhaus, Stefanie Arndt, H. J. Belter, V. Bessonov, G. Birnbaum, J. Brauchle, Radiance Calmer, E. Cardellach, B. Cheng, D. Clemens-Sewall, R. Dadić, E. Damm, G. de Boer, O. Demir, K. Dethloff, D. Divine, A. Fong, S. Fons, M. Frey, Niels Fuchs, C. Gabarró, S. Gerland, H. Goessling, R. Gradinger, J. Haapala, C. Haas, Jonathan Hamilton, Henna-Reetta Hannula, S. Hendricks, A. Herber, C. Heuzé, M. Hoppmann, K. Høyland, M. Huntemann, J. Hutchings, B. Hwang, P. Itkin, H. Jacobi, Matthias Jaggi, Arttu Jutila, L. Kaleschke, C. Katlein, Nikolai Kolabutin, D. Krampe, S. Kristensen, T. Krumpen, N. Kurtz, A. Lampert, B. Lange, R. Lei, B. Light, F. Linhardt, G. Liston, B. Loose, Amy R. Macfarlane, Mallik S. Mahmud, I. Matero, S. Maus, A. Morgenstern, R. Naderpour, V. Nandan, Alexey Niubom, M. Oggier, N. Oppelt, F. Pätzold, Christophe Perron, Tomasz Petrovsky, R. Pirazzini, C. Polashenski, B. Rabe, Ian A. Raphael, J. Regnery, M. Rex

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引用次数: 78

Abstract

Year-round observations of the physical snow and ice properties and processes that govern the ice pack evolution and its interaction with the atmosphere and the ocean were conducted during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition of the research vessel Polarstern in the Arctic Ocean from October 2019 to September 2020. This work was embedded into the interdisciplinary design of the 5 MOSAiC teams, studying the atmosphere, the sea ice, the ocean, the ecosystem, and biogeochemical processes. The overall aim of the snow and sea ice observations during MOSAiC was to characterize the physical properties of the snow and ice cover comprehensively in the central Arctic over an entire annual cycle. This objective was achieved by detailed observations of physical properties and of energy and mass balance of snow and ice. By studying snow and sea ice dynamics over nested spatial scales from centimeters to tens of kilometers, the variability across scales can be considered. On-ice observations of in situ and remote sensing properties of the different surface types over all seasons will help to improve numerical process and climate models and to establish and validate novel satellite remote sensing methods; the linkages to accompanying airborne measurements, satellite observations, and results of numerical models are discussed. We found large spatial variabilities of snow metamorphism and thermal regimes impacting sea ice growth. We conclude that the highly variable snow cover needs to be considered in more detail (in observations, remote sensing, and models) to better understand snow-related feedback processes. The ice pack revealed rapid transformations and motions along the drift in all seasons. The number of coupled ice–ocean interface processes observed in detail are expected to guide upcoming research with respect to the changing Arctic sea ice.

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马赛克探险队的概况

2019年10月至2020年9月，“极地之星”号科考船“北极气候研究多学科漂流观测站”(MOSAiC)在北冰洋进行了冰雪物理性质和控制冰盖演变及其与大气和海洋相互作用的过程的全年观测。这项工作被嵌入到5个马赛克团队的跨学科设计中，研究大气、海冰、海洋、生态系统和生物地球化学过程。MOSAiC期间的雪和海冰观测的总体目标是在整个年周期内全面表征北极中部雪和冰盖的物理特性。这一目标是通过对雪和冰的物理性质以及能量和物质平衡的详细观察来实现的。通过研究从厘米到几十公里的巢状空间尺度上的雪和海冰动态，可以考虑跨尺度的变率。对所有季节不同地表类型的原位和遥感特性的冰上观测将有助于改进数值过程和气候模式，并建立和验证新的卫星遥感方法;讨论了与伴随的航空测量、卫星观测和数值模式结果的联系。我们发现影响海冰生长的雪变质作用和热状态具有很大的空间变异性。我们的结论是，高度变化的积雪需要更详细地考虑(在观测、遥感和模型中)，以更好地理解与雪相关的反馈过程。浮冰显示出四季都在沿着漂流快速变化和移动。详细观测到的冰-海耦合界面过程的数量有望指导有关北极海冰变化的后续研究。

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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来源期刊

Elementa-Science of the Anthropocene Earth and Planetary Sciences-Atmospheric Science

CiteScore

6.90

自引率

5.10%

发文量

审稿时长

16 weeks

期刊介绍： A new open-access scientific journal, Elementa: Science of the Anthropocene publishes original research reporting on new knowledge of the Earth’s physical, chemical, and biological systems; interactions between human and natural systems; and steps that can be taken to mitigate and adapt to global change. Elementa reports on fundamental advancements in research organized initially into six knowledge domains, embracing the concept that basic knowledge can foster sustainable solutions for society. Elementa is published on an open-access, public-good basis—available freely and immediately to the world.