海岸线凹度对美国墨西哥湾沿岸最大风暴潮高度的影响

Kayleigh Addington, Stephanie Zick
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摘要

风暴潮是登陆热带气旋(TCs)最危险的组成部分。沿海人口的增长凸显了研究影响最大风暴潮高度的大气和地理因素的重要性。迄今为止,很少有研究对海岸线凹度的影响进行研究。在这里,我们研究了在凹海岸线登陆的tc比在凸海岸线登陆的tc具有更高的msh的假设。科罗拉多州立大学扩展的最佳跟踪数据集包括34kt风半径(R34)、登陆最小平均海平面压力(MSLP)、登陆最大持续风速和tc的前进速度。美国墨西哥湾沿岸的风暴潮数据库提供了影响美国墨西哥湾沿岸的tc的位置和msh。从中选出11个符合特定标准并代表较大数量大西洋tc的tc。利用余弦定律和mshh点周围50、100和200 km半径的缓冲区计算每个TC的调整海岸线凹度(ADoC)。Mann Whitney U检验没有显示在每种海岸线类型上登陆的tc的平均MSSH有任何显著差异。此外,简单线性回归f检验的结果表明,与以往的研究结果不同,所包含的参数都没有显著影响msh。尽管如此,Spearman’s Rho相关值表明ADoC和msh之间存在微弱的正相关关系。这种关系在100 km和200 km的缓冲层上是显著的,这与假设一致。结果受到样本量小的限制。未来的研究应该使用更大的数据集,并调查每个单独的风暴特征如何影响msh。关键词:热带气旋;飓风;风暴潮;沿海地理位置;海岸线凹面;墨西哥湾;余弦定律
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 Coastline Concavity on Maximum Storm Surge Height along the US Gulf Coast
Storm surge is the most dangerous component of landfalling tropical cyclones (TCs). The growing coastal population highlights the importance of research regarding the atmospheric and geographic factors influencing the maximum storm surge height (MSSH). To date, few studies have investigated the influence of coastline concavity. Here, we investigate the hypothesis that TCs making landfall on a concave coastline will have a higher MSSH than TCs making landfall on a convex coastline. The Colorado State University extended best track dataset includes the radius of 34 kt winds (R34), landfall minimum mean sea level pressure (MSLP), landfall maximum sustained winds, and forward speed of TCs. The storm surge database for the US Gulf Coast provides the location and MSSH for TCs impacting the U.S. Gulf Coast. From this, eleven TCs that meet specific criteria and represent the larger population of Atlantic TCs are selected. The adjusted degree of coastline concavity (ADoC) is calculated for each TC using the law of cosines and 50, 100, and 200 km radius buffers around the point of MSSH. A Mann Whitney U test does not indicate any significant differences between the mean MSSH of TCs making landfall on each coastline type. Additionally, results from a simple linear regression F-test suggest that none of the included parameters have a significant influence on MSSH despite the findings of previous research. Still, the Spearman’s Rho correlation values suggest a weak positive relationship between the ADoC and MSSH. This relationship is significant at the 100 and 200 km buffers, which is consistent with the hypothesis. Results are limited by the small sample size. Future research should use a larger dataset and investigate how each individual storm characteristic affects MSSH. KEYWORDS: Tropical Cyclones; Hurricanes; Storm Surge; Coastal Geography; Coastline Concavity; Gulf of Mexico; Law of Cosines
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