Perspectives on Northern Gulf of Alaska salinity field structure, freshwater pathways, and controlling mechanisms

IF 3.8 3区 地球科学 Q1 OCEANOGRAPHY
Isaac Reister, Seth Danielson, Ana Aguilar-Islas
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Abstract

The biologically productive Northern Gulf of Alaska (NGA) continental shelf receives large inputs of freshwater from surrounding glaciated and non-glaciated watersheds, and a better characterization of the regional salinity spatiotemporal variability is important for understanding its fate and ecological roles. We here assess synoptic to seasonal distributions of freshwater pathways of the Copper River discharge plume and the greater NGA continental shelf and slope using observations from ship-based and towed undulating conductivity-temperature-depth (CTD) instruments, satellite imagery, and satellite-tracked drifters. On the NGA continental shelf and slope we find low salinities not only nearshore but also 100–150 km from the coast (i.e. average 0–50 m salinities less than 31.9, 31.3, and 30.8 in spring, summer, and fall respectively) indicating recurring mid-shelf and shelf-break freshwater pathways. Close to the Copper River, the shelf bathymetry decouples the spreading river plume from the direct effects of seafloor-induced steering and mixing, allowing iron- and silicic acid-rich river outflow to propagate offshore within a surface-trapped plume. Self-organized mapping analysis applied to true color satellite imagery reveals common patterns of the turbid river plume. We show that the Copper River plume is sensitive to local wind forcing and exerts control over water column stratification up to ∼100 km from the river mouth. Upwelling-favorable wind stress modifies plume entrainment and density anomalies and plume width. Baroclinic transport of surface waters west of the river mouth closely follow the influence of alongshore wind stress, while baroclinic transport east of the river mouth is additionally modified by a recurring or persistent gyre. Our results provide context for considering the oceanic fate of terrestrial discharges in the Gulf of Alaska.
北阿拉斯加湾盐度场结构、淡水路径和控制机制透视
具有生物生产力的北阿拉斯加湾(NGA)大陆架接受来自周围冰川和非冰川流域的大量淡水输入,更好地描述区域盐度时空变化特征对于了解淡水的去向和生态作用非常重要。在此,我们利用船载和拖曳式起伏电导率-温度-深度(CTD)仪器、卫星图像和卫星跟踪漂流器的观测数据,评估了铜河排放羽流和大 NGA 大陆架及斜坡淡水路径的同步至季节分布情况。在 NGA 大陆架和斜坡上,我们发现不仅近岸盐度低,而且距离海岸 100-150 公里处的盐度也很低(即春季、夏季和秋季 0-50 米处的平均盐度分别低于 31.9、31.3 和 30.8),这表明大陆架中部和大陆架断裂处的淡水通路经常出现问题。在铜河附近,陆架水深使扩散的河流羽流脱离了由海底引起的转向和混合的直接影响,从而使富含铁和硅酸的河流外流在海面束缚的羽流中向近海传播。应用于真彩卫星图像的自组织绘图分析揭示了浑浊河流羽流的共同模式。我们的研究表明,铜河羽流对当地风力十分敏感,并对距离河口 100 公里以内的水柱分层具有控制作用。有利于上涌的风力改变了羽流的夹带和密度异常以及羽流宽度。河口以西表层水的条带传输密切受沿岸风应力的影响,而河口以东的条带传输则受到反复出现或持续存在的涡旋的影响。我们的研究结果为考虑阿拉斯加湾陆地排放物的海洋归宿提供了背景。
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来源期刊
Progress in Oceanography
Progress in Oceanography 地学-海洋学
CiteScore
7.20
自引率
4.90%
发文量
138
审稿时长
3 months
期刊介绍: Progress in Oceanography publishes the longer, more comprehensive papers that most oceanographers feel are necessary, on occasion, to do justice to their work. Contributions are generally either a review of an aspect of oceanography or a treatise on an expanding oceanographic subject. The articles cover the entire spectrum of disciplines within the science of oceanography. Occasionally volumes are devoted to collections of papers and conference proceedings of exceptional interest. Essential reading for all oceanographers.
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