Cameron Emma, Oliva Marc, Antoniades Dermot
Department of Geography, Centre for Northern Studies (CEN), & Takuvik International Research Laboratory, Université Laval, Québec, QC, Canada.
Department of Geography, Universitat de Barcelona, Barcelona, Catalonia, Spain.
Sci Rep. 2025 Jan 2;15(1):77. doi: 10.1038/s41598-024-82666-3.
The Arctic is among the most rapidly warming regions on Earth, and climate change has triggered widespread alterations to its cryosphere and ecosystems. Among these, high Arctic lakes are highly sensitive to rising temperatures due to the influence of ice cover on multiple limnological processes. Here, we studied the sediments of three lakes on northern Ellesmere Island (82.6°N), at the terrestrial limit of the Last Ice Area, to produce records of past environmental change. The colonization of the lakes by diatoms, as well as subsequent diversification and the appearance of planktonic forms, marked important ecological shifts due to warming temperatures and lengthening ice-free periods. A subsequent meta-analysis of 25 circumpolar diatom records revealed compositional shifts that paralleled those of temperature, including a notable acceleration since the turn of the twenty-first century that eclipses shifts previously observed since the mid-nineteenth century. Projections for sustained amplified warming imply that the accelerating changes we observed are likely to continue, as rising temperatures and lengthening ice-free seasons push Arctic lakes across further ecological thresholds.
北极是地球上变暖速度最快的地区之一,气候变化已引发其冰冻圈和生态系统的广泛变化。其中,由于冰盖对多种湖泊学过程的影响,北极高海拔湖泊对气温上升高度敏感。在此,我们研究了位于末次冰期区域陆地边界的埃尔斯米尔岛北部(北纬82.6°)三个湖泊的沉积物,以获取过去环境变化的记录。硅藻在湖泊中的定殖,以及随后的多样化和浮游形式的出现,标志着由于气温升高和无冰期延长而发生的重要生态转变。随后对25个环北极硅藻记录进行的荟萃分析揭示了与温度变化平行的成分变化,包括自21世纪之交以来显著加速,这一加速超过了自19世纪中叶以来观察到的变化。持续加剧变暖的预测表明,我们观察到的加速变化可能会持续,因为气温上升和无冰季节延长会推动北极湖泊跨越更多生态阈值。
