斯瓦尔巴群岛Ny-Ålesund大气氧势的季节性和短期变化

D. Goto, S. Morimoto, S. Aoki, P. Patra, T. Nakazawa
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引用次数: 10

摘要

大气中的氧随生物圈活动、海洋-大气交换和化石燃料燃烧而发生变化和变化。2012年11月,在Svalbard的Ny-Ålesund(78.93°N, 11.83°E, 40 m a.s.l.)开始了大气δ(O2/N2)和CO2摩尔分数的连续原位测量。根据2012年11月至2015年1月测量的O2和CO2值计算的大气势氧(APO)显示出一个明显的季节性循环,峰对峰的振幅约为50 / meg。使用大气输送模式模拟的APO的季节周期,规定了海洋O2、N2和CO2的月时间间隔通量,与观测到的APO非常吻合。然而,在春季和初夏,APO的高值在小时到天的时间尺度上是不规则的。通过比较站点释放的空气包裹的反向轨迹与海洋净初级生产量(NPP)的分布,以及使用APO大气运输模型进行的标记示踪实验,发现这些APO的高波动主要归因于格陵兰海、挪威海和巴伦支海由于海洋生物生产力而排放的O2。根据观测到的APO波动得出的海洋-空气O2通量估算的海洋净群落产量与卫星观测得到的NPP在一个数量级内一致。本研究得到的结果仍有一些不确定性,但我们在Ny-Ålesund连续观测大气δ(O2/N2)和CO2摩尔分数可以在不久的将来探测碳循环可能的变化中发挥重要作用。
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Seasonal and short-term variations in atmospheric potential oxygen at Ny-Ålesund, Svalbard
Abstract Oxygen in the atmosphere undergoes variations and changes in response to biospheric activities, ocean–atmosphere exchange and fossil fuel combustion. Continuous in situ measurements of atmospheric δ(O2/N2) and CO2 mole fraction were started at Ny-Ålesund, Svalbard (78.93°N, 11.83°E, 40 m a.s.l.) in November 2012. Atmospheric potential oxygen (APO) calculated from the measured O2 and CO2 values during November 2012–January 2015 show a clear seasonal cycle with a peak-to-peak amplitude of approximately 50 per meg. The seasonal cycle of APO simulated using an atmospheric transport model, with prescribed oceanic O2, N2 and CO2 fluxes at monthly time intervals, is in excellent agreement with the observed APO. However, in spring and early summer, high values of APO are observed irregularly on a timescale of hours to days. By comparing backward trajectories of air parcels released from the site with distributions of marine net primary production (NPP), and tagged tracer experiments made using the atmospheric transport model for APO, it is found that these high APO fluctuations are primarily attributable to O2 emissions from the Greenland Sea, the Norwegian Sea and the Barents Sea, due to marine biological productivity. Marine net community production, estimated based on the sea-to-air O2 flux derived from observed APO fluctuations, agrees with NPP obtained from satellite observations within an order of magnitude. The results obtained in this study have still some uncertainties, but our continuous observations of atmospheric δ(O2/N2) and CO2 mole fraction at Ny-Ålesund can play an important role in detecting possible changes in the carbon cycle in the near future.
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