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Effect of Cold Front-Induced Waves Along Wetlands Boundaries
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2020
Source: Journal of Geophysical Research: Oceans, 125, e2020JC016603
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Journal Title:Journal of Geophysical Research: Oceans
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Description:Along wetland shorelines, the energetic wave environment generated by cold fronts occurs more frequently than for major storms, yet their impact on wetland evolution processes has not been fully identified. To capture the changes in wave climate during the passage of cold fronts, a wave gauge was installed near a salt marsh edge in Galveston Bay, Texas, USA. A coupled wave-hydrodynamic model, validated with the data, was used to assess the dominant processes of cold front induced surge and waves. During the measurement period, wind gusts and abrupt direction shifts during cold fronts produced high-energy wave events that propagated toward the wetland edge. Before a cold front passed our study area, there was an initial increase in the water level inside the bay. As soon as the cold front passed and the wind direction shifted, large waves were created by strong winds. Over the first few hours, the relatively high water level reduced the depth limitations on these waves, allowing them to be quite large. However, as the waves struck the wetland edge at these higher water levels, vegetation intercepted and dampened the erosive force. Over the next few days, the water level dropped well below the mean tide, allowing plunging waves to impinge directly on the edge with a high-energy flux. From the calculated wave power during the entire measurement period, it was found that cold front-induced waves, despite their brief duration, had a high erosive impact on the evolution of the wetland edge.
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Source:Journal of Geophysical Research: Oceans, 125, e2020JC016603
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Sea Grant Document Number:TAMU-R-20-027
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