快速城市化和全球变暖对珠江口潮汐动态有显著影响

Shuting Lin , Shuhui Zhang , Qichun Yang , Yanzi Cai , Xia Li , Ze Ren
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摘要

由于人为干扰和气候变化的双重影响,河口的潮汐流体力学已被深入研究,因为它们可能增加洪水风险,破坏沿海栖息地和人类社区。气候变化导致海平面上升,这会放大区域潮汐并增加潮差。本研究以中国发展最快的河口之一珠江河口区为例,探讨陆地覆盖变化和海平面上升对潮汐动力学的影响。在五条主要河流/水道的26个主要水文站收集了年平均潮位。为了更好地了解潮汐水位的时间变化,我们通过线性回归和复Morlet小波分析来分析趋势和周期模式。在珠江主要出海口,农业用地主要转为城市用地,建成区面积的增加和耕地面积的减少显著影响了潮汐水位的变化。另一方面,在Xi河中上游和顺德横门水道,我们观察到随着农业用地的减少,海平面下降。年平均潮位与主要河流下游的土地覆盖变化之间没有发现显著的相关性。相反,靠近海岸线的潮汐水位变化与海平面上升的关系更大,平均每年上升0.002米。这项研究强调了人类活动和海平面上升对潮汐动力学影响的重要性。对河口潮汐变化的系统了解有望有助于加强河口水文机制,为改善沿海地区应对气候变化和河口保护的管理和实践奠定基础。
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Rapid urbanization and global warming significantly impact tidal dynamics in the Pearl River Estuary, China

Due to the dual impacts of anthropogenic disturbances and climate change, tidal hydrodynamics of estuaries have been intensively investigated for their potential to increase flood risk and devastate coastal habitats and human communities. Climate change leads to rises in sea levels, which can amplify regional tides and increase tidal ranges. This study takes the estuarine area of the Pearl River (PRE), one of the fastest-developed estuaries in China, as an example to explore the effects of land cover changes and sea level rise on tidal dynamics. Annual mean tidal levels were collected at 26 major hydrological stations from five major rivers/waterways. To better understand the temporal changes in tidal levels, we analyzed the trends and periodic patterns through linear regression and Complex Morlet wavelet analyses. For the main Pearl River outlet, where conversion of agricultural land to urban use had been primarily taking place, the tidal level changes were significantly affected by increased built-up areas and decreased cultivated land areas. On the other hand, in the middle to upper reaches of the Xi River and Shunde-Hengmen Waterway, we observed decreased tidal levels with decreases in the agricultural lands. No significant correlations were found between annual mean tidal levels and land cover changes downstream of the main rivers. Instead, the tidal level changes at locations close to the coastline were more related to sea level rise, with an average of 0.002 m per year increase. This study highlighted the importance of human activity and sea level rise impacts on tidal dynamics. A systematic understanding of the tidal changes in the estuary is expected to help enhance mechanisms of estuarine hydrology, which could serve as the basis for improving the management and practice of coastal regions in coping with climate change and estuary protection.

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