区域海平面气压对全球分布的长记录潮量站海平面变化的影响

IF 0.9 Q4 REMOTE SENSING
H. Iz
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引用次数: 11

摘要

这项研究为大气压力对海平面变化的影响提供了额外的信息。观测到的海平面大气压力的规律性主要取决于纬度,并证实在靠近赤道的地方主要是随机的。结果表明,在全球分布的27个测潮站,几乎所有的年和半年海平面变化都可归因于区域/局地大气强迫的倒压效应。在区域大气压力序列中检测到统计上显著的非线性,这反过来又与月球节点强迫一起影响其他海平面变化,产生以多年代际为周期的月球次谐波。结果表明,区域大气压力随机分量在月间隔内有聚集的趋势。这些星团可能是由年际季节性大气温度变化引起的,它也可能作为随机节拍产生在海平面变化中观测到的次谐波,作为另一种机制。本研究还肯定了区域大气压力的变化没有统计上显著的长期趋势,因此大气压力对20世纪的海平面趋势没有贡献。同时,反演晴雨表效应的非均匀尺度因子的估计表明,如果将海平面大气压力的影响作为没有适当标度的修正加以考虑,则海平面趋势会产生偏差。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effect of regional sea level atmospheric pressure on sea level variations at globally distributed tide gauge stations with long records
Abstract This study provides additional information about the impact of atmospheric pressure on sea level variations. The observed regularity in sea level atmospheric pressure depends mainly on the latitude and verified to be dominantly random closer to the equator. It was demonstrated that almost all the annual and semiannual sea level variations at 27 globally distributed tide gauge stations can be attributed to the regional/local atmospheric forcing as an inverted barometric effect. Statistically significant non-linearities were detected in the regional atmospheric pressure series, which in turn impacted other sea level variations as compounders in tandem with the lunar nodal forcing, generating lunar sub-harmonics with multidecadal periods. It was shown that random component of regional atmospheric pressure tends to cluster at monthly intervals. The clusters are likely to be caused by the intraannual seasonal atmospheric temperature changes,which may also act as random beats in generating sub-harmonics observed in sea level changes as another mechanism. This study also affirmed that there are no statistically significant secular trends in the progression of regional atmospheric pressures, hence there was no contribution to the sea level trends during the 20th century by the atmospheric pressure.Meanwhile, the estimated nonuniform scale factors of the inverted barometer effects suggest that the sea level atmospheric pressure will bias the sea level trends inferred from satellite altimetry measurements if their impact is accounted for as corrections without proper scaling.
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来源期刊
Journal of Geodetic Science
Journal of Geodetic Science REMOTE SENSING-
CiteScore
1.90
自引率
7.70%
发文量
3
审稿时长
14 weeks
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