Maciej M. Telesiński, Małgorzata Kucharska, Magdalena Łącka, Marek Zajączkowski
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引用次数: 0
摘要
在北部高纬度地区,全新世中期到晚期是由轨道引起的大气冷却时期。这导致北冰洋海冰产量增加并向南输出,海表温度(SST)下降,冰川至少自公元前 5-4 ka 年以来一直在推进。然而,海洋气候系统对日照减少的反应并不一致。我们的研究表明,巴伦支海西北部的海冰覆盖对新冰期降温的反应较晚。我们分析了斯瓦尔巴群岛南部斯托弗约德伦纳沉积物岩芯中的甲藻孢囊群。我们发现,在全新世中期和晚期的大部分时间里,该地区都处于无冰状态。只是在 2.3 ka BP 之后,研究地点才被冬季流冰覆盖,初级生产力随之下降。其他区域数据也证明了当时海温的下降、海冰覆盖面积的扩大以及环境条件的恶化。我们的研究结果表明,巴伦支海西北部的海冰覆盖需要相当长的时间才能对该地区的总体降温趋势做出反应。这些结果对当今的环境变化具有重要影响。即使目前的变暖趋势在未来得到扭转,巴伦支海观测到的海冰损失可能也难以逆转。
A late response of the sea-ice cover to Neoglacial cooling in the western Barents Sea
In high northern latitudes, the Middle to Late-Holocene was a time of orbitally-induced atmospheric cooling. This led to increased sea-ice production in the Arctic Ocean and its export southward, a decrease in sea surface temperatures (SST), and glacier advances at least since 5–4 ka BP. However, the response of the ocean-climate system to decreasing insolation was not uniform. Our research shows that the sea-ice cover in the northwestern Barents Sea experienced a late response to Neoglacial cooling. We analyzed dinoflagellate cyst assemblages from a sediment core from Storfjordrenna, south of Svalbard. We found that the area experienced ice-free conditions throughout most of the Mid- and Late-Holocene. It was only after 2.3 ka BP that the study site became covered with winter drift ice and primary productivity decreased subsequently. Other regional data support the decrease in SST, the expansion of the sea-ice cover, and the deterioration of the environmental conditions around that time. Our findings indicate that the sea-ice cover in the northwestern Barents Sea required a significant amount of time to respond to the general cooling trend in the region. These results have important implications for present-day environmental changes. Even if the current warming trend is revoked in the future, the observed sea-ice loss in the Barents Sea may be incredibly challenging to reverse.