The freshwater budget of the Arctic and sub‐polar North Atlantic Oceans has been changing due, primarily, to increased river runoff, declining sea ice and enhanced melting of Arctic land ice. Since the mid‐1990s this latter component has experienced a pronounced increase. We use a combination of satellite observations of glacier flow speed and regional climate modeling to reconstruct the land ice freshwater flux from the Greenland ice sheet and Arctic glaciers and ice caps for the period 1958–2016. The cumulative freshwater flux anomaly exceeded 6,300 ± 316 km3 by 2016. This is roughly twice the estimate of a previous analysis that did not include glaciers and ice caps outside of Greenland and which extended only to 2010. From 2010 onward, the total freshwater flux is about 1,300 km3/yr, equivalent to 0.04 Sv, which is roughly 40% of the estimated total runoff to the Arctic for the same time period. Not all of this flux will reach areas of deep convection or Arctic and Sub‐Arctic seas. We note, however, that the largest freshwater flux anomalies, grouped by ocean basin, are located in Baffin Bay and Davis Strait. The land ice freshwater flux displays a strong seasonal cycle with summer time values typically around five times larger than the annual mean. This will be important for understanding the impact of these fluxes on fjord circulation, stratification, and the biogeochemistry of, and nutrient delivery to, coastal waters.
展开▼
机译:北极和次极北大西洋的淡水预算一直在变化,这主要是由于河流径流增加,海冰减少和北极陆冰融化的增加。自1990年代中期以来,后一个组成部分经历了明显的增长。我们结合对冰川流速和区域气候模型的卫星观测,从格陵兰冰盖,北极冰川和冰盖重建了1958–2016年的陆地冰淡水通量。到2016年,累积的淡水通量异常超过6,300±km316 km 3 。这大约是先前分析的两倍,该分析不包括格陵兰岛以外的冰川和冰盖,仅延伸至2010年。从2010年开始,淡水总通量约为1300 km 3 /年,相当于0.04 Sv,约占同期同一时期北极总径流的40%。并非所有这些通量都会到达深对流或北极和亚北极海域。但是,我们注意到,按海洋盆地分组的最大淡水通量异常位于巴芬湾和戴维斯海峡。陆地冰淡水通量表现出强烈的季节性周期,夏季时间值通常是年均值的五倍左右。这对于理解这些通量对峡湾循环,分层,沿海水域的生物地球化学以及养分输送的影响至关重要。
展开▼
