斯里兰卡的海平面上升、海岸盐度和植被变化

T. Mathiventhan, D. Gorman, T. Jayasingam
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引用次数: 3

摘要

海平面上升是许多气候变化情景的一个关键组成部分。预计这种增长将造成更大的沿海海水淹没,减少淡水-咸水透镜的深度,并对沿海生态系统产生一系列后果。土壤盐度决定了沿海植被在海陆梯度上的分布模式,海平面上升预计会改变这些分布。我们在斯里兰卡东海岸进行的研究表明,土壤盐度从海洋到陆地呈可预测的下降趋势,在距离平均高水位50米的距离内,土壤盐度在21‰到30‰之间变化。土壤盐度也随土壤深度(0、10、50 cm)的增加而下降,但不显著。陆生植被的出现与土壤盐度接近0‰的跨岸过渡带同时出现。我们的预测表明,如果Batticaloa地区(斯里兰卡)的平均海平面上升1米,这将导致向陆地的社区被不同深度的微咸水淹没。在海平面上升1米的情景下,目前的永久沿海植被锋可能会向陆地移动30-45米。海平面上升及其后果可能导致沿海植被的各种变化,例如面貌和多样性的改变、新领土的殖民化、红树林和盐沼等耐盐物种的扩大,因此将极大地影响适应性管理和未来规划。本文是“发展有弹性的能源系统”主题问题的一部分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sea-level rise, coastal salinity and vegetation changes in Sri Lanka
Sea-level rise is a key component of many climate change scenarios. Such increases are expected to cause greater coastal inundation by seawater, reduce the depth of the freshwater-saline water lens and have a range of consequences for coastal ecosystems. Soil salinity determines the distribution patterns of coastal vegetation across a sea-to-land gradient, and sea-level rise would be expected to alter these distributions. Our study done along the east coast of Sri Lanka shows that soil salinity decreases predictably from sea to land, varying between 21‰ and 30‰ over a distance of 50 m from the mean high water springs level. Soil salinity also showed declines with increasing soil depth (0, 10, 50 cm) although this was marginally non-significant. The emergence of terrestrial vegetation coincided with a cross-shore ecotone where the soil salinity approached 0‰. Our predictions suggest that if the mean sea-level were to increase by 1 m in the Batticaloa region (Sri Lanka), this would cause landward communities to be inundated with brackish water at various depths. The present permanent coastal vegetation front would likely shift landward by 30–45 m under scenarios involving a 1 m increase in sea level. Sea-level rise and its consequences could result in a variety of changes to coastal vegetation such as altered physiognomy and diversity, colonization of new territory, expansion of salt-tolerant species such as mangroves and saltmarsh and will therefore greatly influence adaptive management and future planning. This article is part of the theme issue ‘Developing resilient energy systems’.
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