Interannual variations and their dynamic mechanisms of wintertime temperature inversions in the Gulf of Alaska

IF 2.7 3区地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY

Journal of Marine Systems Pub Date : 2022-11-01 DOI:10.1016/j.jmarsys.2022.103793

Shaojing Guo , Chunsheng Jing , Weibo Wang , Yun Qiu , Shanwu Zhang

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Abstract

Using the Simple Ocean Data Assimilation Version 2.2.4 dataset from 1950 to 2010, we analyzed the interannual variations in wintertime temperature inversions in the Gulf of Alaska (GOA), and the linkages to the Aleutian Low are also examined. The results show that the climatological wintertime temperature inversions is predominantly distributed in the northwestern GOA (NWGOA) and northern GOA (NGOA), in which it is stronger in the NWGOA than in the NGOA. Interannual variations in the temperature difference (∆T) are pronounced and are mainly controlled by the temperature minimum (T_min) of the inversions layer. The temperature inversions layer became warmer and shallower during 1950–2010, among T_min and the temperature maximum (T_max) was notably warming, and the upper edge depth (D_min) and lower edge depth (D_max) revealed significant shoaling. ∆T decreased by 0.12 °C from 1950 to 2010 in the NWGOA but had no trend in the NGOA. The interannual variations in wintertime temperature inversions are controlled by the mixed-layer temperature anomalies and are closely correlated with the changes in the Aleutian Low. The weakened (deepened) Aleutian Low during strong (weak) ∆T winters could cause the weakening (enhancement) of the cyclone wind field in the North Pacific subarctic region, which is conducive to slowing down (spinning up) the flow of the Alaskan Gyre and the transportation of warm air into the GOA. Thus, a negative (positive) T_min anomalies within the mixed layer is larger than T_max anomalies, resulting in a larger (smaller) ∆T; meanwhile, the strong (weak) cooling effect leads to a deeper (shallower) D_max. The interannual variations in the wintertime temperature inversions could be influenced by net heat flux and advection anomalies in the NWGOA, but only caused by net heat flux anomalies in the NGOA.

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阿拉斯加湾冬季气温逆温的年际变化及其动力机制

利用1950—2010年的Simple Ocean Data Assimilation Version 2.2.4数据集，分析了阿拉斯加湾冬季气温逆温的年际变化，并分析了其与阿留申低压的联系。结果表明:冬季气候逆温主要分布在果阿西北部(NWGOA)和果阿北部(NGOA)，其中西北部逆温较北部强;年际温差(∆T)变化明显，主要受逆温层最低温度(Tmin)控制。1950—2010年逆温层变暖变浅，其中Tmin和最大温度(Tmax)明显变暖，上边缘深度(Dmin)和下边缘深度(Dmax)呈现明显的浅化。1950 - 2010年，NWGOA的∆T下降了0.12°C，而NGOA没有变化趋势。冬季气温逆温的年际变化受混合层温度异常控制，与阿留申低压的变化密切相关。强(弱)∆T冬季减弱(加深)的阿留申低压可引起北太平洋亚北极地区气旋风场减弱(增强)，有利于减缓(旋转)阿拉斯加环流的流动和暖空气进入果阿的输送。因此，混合层内负(正)Tmin异常大于Tmax异常，导致∆T较大(较小);同时，强(弱)冷效应导致Dmax变深(变浅)。冬季气温逆温的年际变化可能受到北半球净热通量和平流异常的影响，但仅由北半球净热通量异常引起。

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来源期刊

Journal of Marine Systems 地学-地球科学综合

CiteScore

6.20

自引率

3.60%

发文量

审稿时长

6 months

期刊介绍： The Journal of Marine Systems provides a medium for interdisciplinary exchange between physical, chemical and biological oceanographers and marine geologists. The journal welcomes original research papers and review articles. Preference will be given to interdisciplinary approaches to marine systems.