通过帕尔默站的本地和区域观测扩大对南极半岛西部海冰环境的了解

IF 3.3 2区 地球科学 Q1 OCEANOGRAPHY
E. Goodell, S. Stammerjohn, M. Meredith, C. Moffat, R. Eveleth
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引用次数: 0

摘要

至少自 20 世纪 50 年代以来,南极半岛西部(WAP)一直在经历快速的区域变暖,然而,这种变暖对当地尺度的影响是多变和微妙的。以往将海冰变化与生物地球化学循环和食物网动态联系起来的研究通常将局部尺度的生物地球化学数据与粗分辨率的区域卫星海冰数据结合起来,但这可能无法充分捕捉局部海冰的状况。在本研究中,我们分析了从西太平洋中部安弗斯岛帕尔默长期生态研究站收集的 28 年记录(1992-2020 年)中的局部尺度原位海冰观测数据,并结合同位素海冰融水(SIM)组分和卫星海冰运动与浓度,对局部海冰行为的变异性和长期趋势进行了量化。帕尔默站的原地海冰观测结果显示出比卫星观测结果更高的可变性,并且在这段时间内没有出现明显的下降,尽管在之前的研究中发现了全区域范围的下降。较高的春季 SIM 分数归因于整个冬季海冰的强烈北移。将这些局部尺度的海冰观测结果应用到类似尺度的分层和叶绿素-a 测量中,我们发现,持续时间更长、更稳定的海冰群导致春季海冰消退后水柱分层更强。海冰持续时间越长、分层越强,叶绿素-a 的峰值越大,但海冰指标并不能解释分层强度或叶绿素-a 的正向时间趋势。通过这项研究,我们确定了当地海冰观测数据和融水数据如何能够增强卫星数据,从而建立对冰、水体动力学和浮游植物之间错综复杂联系的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Expanded Understanding of the Western Antarctic Peninsula Sea-Ice Environment Through Local and Regional Observations at Palmer Station

Expanded Understanding of the Western Antarctic Peninsula Sea-Ice Environment Through Local and Regional Observations at Palmer Station

The Western Antarctic Peninsula (WAP) has been experiencing rapid regional warming since at least the 1950s, however, the impacts of this warming at the local scale are variable and nuanced. Previous studies that have linked sea-ice variability to biogeochemical cycles and food web dynamics often combine local-scale biogeochemical data with coarse-resolution regional satellite sea-ice data, which may not adequately capture local sea-ice conditions. In this study, we analyzed local-scale in situ sea-ice observations collected as part of a 28-year record (1992–2020) from the Palmer Long-Term Ecological Research site at Anvers Island, mid-WAP, in conjunction with isotopically-derived sea-ice meltwater (SIM) fractions and satellite-derived sea-ice motion and concentration, to quantify the variability and long-term trends in local sea-ice behavior. In situ sea ice observations at Palmer Station displayed higher variability than satellite observations and showed no significant declines over this time, despite region-wide declines identified in prior studies. Higher spring SIM fractions were attributed to strong northward sea-ice motion throughout the winter. Applying these local-scale sea-ice insights to similarly scaled stratification and chlorophyll-a measurements, we found that a longer-lasting, more consistent sea-ice pack led to greater water column stratification following the spring sea-ice retreat. Greater sea-ice persistence and stronger stratification led to larger peaks in chlorophyll-a, though sea-ice metrics did not explain the positive temporal trends in either stratification strength or chlorophyll-a. Through this study, we identify how local sea-ice observations and meltwater data can enhance satellite data to build an understanding of the intricate connections between ice, water column dynamics, and phytoplankton.

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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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