DiSTAV (Department of Earth, Environmental and Life Sciences), University of Genoa, Corso Europa 26, I-16132 Genova, Italy; GeoScape Soc. Coop., Via Varese 2, I-16122 Genova, Italy.
DiSTAV (Department of Earth, Environmental and Life Sciences), University of Genoa, Corso Europa 26, I-16132 Genova, Italy; GeoScape Soc. Coop., Via Varese 2, I-16122 Genova, Italy.
Sci Total Environ. 2020 Dec 15;748:141373. doi: 10.1016/j.scitotenv.2020.141373. Epub 2020 Jul 29.
Extreme environmental events can strongly affect coastal marine ecosystems but are typically unpredictable. Reliable data on benthic community conditions before such events are rarely available, making it difficult to measure their effects. At the end of October 2018, a severe storm hit the Ligurian coast (NW Mediterranean) producing damages to coastal infrastructures. Thanks to recent data collected just before the event on two Posidonia oceanica seagrass meadows hit by the storm, it has been possible to assess the impact of the event on one of the most valuable habitats of the Mediterranean Sea. By means of seagrass cover and depth data gathered along four depth transects positioned within the two meadows in areas differently exposed to the storm waves, and by using models (WW3® + SWAN + XBeach 1D) to evaluate wave height and bed shear stress, we showed that meadows experienced erosion and burial phenomena according to exposure. Paradoxically, meadows in good conditions suffered more damage as compared to those already suffering from previous local anthropogenic impacts. Besides the direct effect of waves in terms of plant uprooting, a major loss of P. oceanica was due to sediment burial in the deepest parts of the meadows. Overall, the loss of living P. oceanica cover amounted to about 50%. Considering that previous research showed that the loss of the original surface of P. oceanica meadows in 160 years due to anthropogenic pressures was similarly around 50%, the present study documented that an extreme environmental event can generate in a single day a loss of natural capital equal to that produced gradually by more than a century of human impact.
极端环境事件会对沿海海洋生态系统产生强烈影响,但通常难以预测。此类事件发生前,很少有可靠的海底生物群落状况数据,因此难以衡量其影响。2018 年 10 月底,一场强烈风暴袭击了利古里亚海岸(西北地中海),对沿海基础设施造成了破坏。由于最近在风暴袭击的两个波西多尼亚海草场(Posidonia oceanica)收集了一些数据,因此可以评估该事件对地中海最有价值的栖息地之一的影响。通过在受风暴波不同影响的两个草场中的四条深度横截线上收集的海草覆盖率和深度数据,并使用模型(WW3®+SWAN+XBeach 1D)来评估波高和底床剪切力,我们表明,根据暴露情况,草场经历了侵蚀和掩埋现象。具有讽刺意味的是,状况良好的草场比那些已经遭受先前局部人为影响的草场遭受了更多的破坏。除了波浪对植物连根拔起的直接影响外,P. oceanica 的大量损失还归因于草场最深部分的泥沙掩埋。总体而言,活 P. oceanica 覆盖率的损失约为 50%。考虑到先前的研究表明,由于人为压力,160 年来 P. oceanica 草场原始表面的损失同样约为 50%,本研究记录表明,极端环境事件可能在一天内造成相当于一个多世纪人类活动造成的自然资本损失。
