阿蒙森海的叶绿素生成促进了向大气的热通量,削弱了向冰架的热通量

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY
A. G. Twelves, D. N. Goldberg, P. R. Holland, S. F. Henley, M. R. Mazloff, D. C. Jones
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引用次数: 0

摘要

南极洲西部阿蒙森海的特点是冰架迅速变薄、多水系面积大以及春季浮游植物大量繁殖。尽管我们在描述阿蒙森海、其相关冰架和上覆大气之间的热通量方面付出了大量努力,但对浮游植物繁殖对热量分布的影响仍然知之甚少。在这项建模研究中,我们在 MITgcm-BLING 中实施了生物地球化学对物理学的反馈,并利用该反馈表明,高浓度的叶绿素--集中在阿蒙森海多尼亚和松岛多尼亚--有可能通过使太阳辐射随深度的衰减曲线变得陡峭而增加多尼亚的春季地表变暖。由于开阔水域的长波、潜热和显热损失增加,地表叶绿素相关的暖异常(平均在 +0.2 ° ${}^{circ}$ C 和 +0.3 ° ${}^{circ}$ C 之间)很快就会消散到大气中。在沿岸多旋回带以外,夏季暖异常导致整个区域的海冰平均减薄 1.7 厘米,并刺激冰架前沿附近的季节性融化增加多达 20%。随之而来的寒冷异常是由深水遮蔽造成的,全年持续,并影响大陆架上环极深水体积的减少。这种冷却最终导致海冰平均增厚 3.5 厘米,加上环流的相关变化,与没有浮游植物盛开的模型情景相比,阿蒙森海冰架的基底融化减少了约 7%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Chlorophyll Production in the Amundsen Sea Boosts Heat Flux to Atmosphere and Weakens Heat Flux to Ice Shelves

Chlorophyll Production in the Amundsen Sea Boosts Heat Flux to Atmosphere and Weakens Heat Flux to Ice Shelves

The Amundsen Sea in West Antarctica features rapidly thinning ice shelves, large polynyas, and sizable spring phytoplankton blooms. Although considerable effort has gone into characterizing heat fluxes between the Amundsen Sea, its associated ice shelves, and the overlying atmosphere, the effect of the phytoplankton blooms on the distribution of heat remains poorly understood. In this modeling study, we implement a feedback from biogeochemistry onto physics into MITgcm-BLING and use it to show that high levels of chlorophyll—concentrated in the Amundsen Sea Polynya and the Pine Island Polynya—have the potential to increase springtime surface warming in polynyas by steepening the attenuation profile of solar radiation with depth. The chlorophyll-associated warm anomaly (on average between +0.2 ° ${}^{\circ}$ C and +0.3 ° ${}^{\circ}$ C) at the surface is quickly dissipated to the atmosphere, by increases in longwave, latent and sensible heat loss from open water areas. Outside of the coastal polynyas, the summertime warm anomaly leads to an average sea ice thinning of 1.7 cm across the region, and stimulates up to 20% additional seasonal melting near the fronts of ice shelves. The accompanying cold anomaly, caused by shading of deeper waters, persists year-round and affects a decrease in the volume of Circumpolar Deep Water on the continental shelf. This cooling ultimately leads to an average sea ice thickening of 3.5 cm and, together with associated changes to circulation, reduces basal melting of Amundsen Sea ice shelves by approximately 7% relative to the model scenario with no phytoplankton bloom.

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来源期刊
Journal of Geophysical Research-Oceans
Journal of Geophysical Research-Oceans Earth and Planetary Sciences-Oceanography
CiteScore
7.00
自引率
13.90%
发文量
429
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