亚得里亚海海洋生态系统的气候寡营养化预测

IF 3.3 Q2 ENVIRONMENTAL SCIENCES
Lorenzo Mentaschi, Tomas Lovato, M. Butenschön, J. Alessandri, Leonardo Aragão, G. Verri, Roberta Guerra, G. Coppini, Nadia Pinardi
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引用次数: 0

摘要

亚得里亚海拥有多样的海洋生态系统,具有丰富的生物多样性和独特的生态动态。其错综复杂的沿海栖息地和开放水域养育了一系列物种,并为该地区的生态和经济意义做出了贡献。要确保这一流域未来的安全,就必须了解当前气候变化对这一脆弱环境造成的影响。为了解决这个问题,我们为整个流域开发了一个生物地球化学模型,水平分辨率约为 2 千米,纵向分辨率为 120 级,在 RCP8.5 排放情景下,通过对 1992 年至 2050 年大气、水文和海洋环流的预测进行模拟。对 2031-2050 年和 1992-2011 年间预测的变化进行了评估,评估对象是以不同营养条件为特征的生态区,采用 K-medoid 分类技术进行识别。结果表明,在波河平原河流排水量大幅减少的影响下,该流域将出现普遍的低营养化现象,北部河口地区尤为严重。这种资源枯竭和减少的情况,再加上海水持续变暖、盐碱化和酸化,使人们对北亚得里亚海食物网结构的长期恢复能力产生了怀疑,因为食物网结构是在高营养条件下进化而来的。这项研究的成果为利益相关者提供了一个工具,使其了解北亚得里亚海河流水系可能出现的长期减少会如何影响海洋生态系统及其未来的产品和服务。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Projected climate oligotrophication of the Adriatic marine ecosystems
The Adriatic Sea hosts diverse marine ecosystems, characterized by rich biodiversity and unique ecological dynamics. Its intricate coastal habitats and open waters support a range of species and contribute to the region's ecological and economic significance. Unraveling the consequences of the ongoing climate changes on this delicate environment is essential to ensure the future safeguard of this basin. To tackle this problem, we developed a biogeochemical model for the entire basin, with a horizontal resolution of about 2 km and 120 vertical levels, forced by the projections of atmosphere, hydrology and ocean circulation between 1992 and 2050, under emission scenario RCP8.5. The changes projected between 2031–2050 and 1992–2011 were evaluated on ecoregions characterized by different trophic conditions, identified using a k-medoid classification technique. The results point toward a generalized oligotrophication of the basin, especially intense in the northern estuarine areas, driven by a substantial decrease in river discharge projected for the rivers of the Po Plain. This scenario of unproductive and declining resources, together with the ongoing warming, salinization, and acidification of marine waters, cast doubt on the long-term resilience of the Northern Adriatic food web structure, which has evolved to thrive in high trophic conditions. The outcome of this study provides the stakeholders with a tool to understand how potential long-term decreases in the regimes of the Northern Adriatic Rivers could affect the marine ecosystem and its goods and services in the future.
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来源期刊
Frontiers in Climate
Frontiers in Climate Environmental Science-Environmental Science (miscellaneous)
CiteScore
4.50
自引率
0.00%
发文量
233
审稿时长
15 weeks
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