Better Safe Than Sorry: A Model to Assess Anthropic Impacts on a River System in Order to Take Care of the Landscape

Land Pub Date : 2024-07-17 DOI:10.3390/land13071076
Eleonora Rivieccio, D. Fulgione, G. de Filippo, A. De Natale, Vincenzo Paturzo, Claudio Mineo, Stefania Passaretti, Anna Varriale, M. Buglione
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Abstract

The need to find a trade-off between protecting water-related ecosystems and increasing safe water-use for human society is recognized in the 2030 Agenda of the European Union. We assess the ecological status of a riverine system in order to mitigate human impacts, considering its importance for supplying drinking water to more than 4 million users in Rome. We used an integrated approach, analyzing animal and plant communities at riverbanks and the riverbed. A macrobenthos analysis revealed a well-structured community with a good ecology for all sampling stations. The highest value was found immediately upstream and downstream of the springs collection system, while the lowest richness value was where the river collects urban wastewater. A floristic inventory showed Hemicryptophytes composing almost 45% of all species, and prevalence of Euroasiatic (35%) and Orophilous (34%) chorotypes. A positive correlation between riverbed vegetation and the quality of the benthic community was revealed, while tree height seems to have a negative trend. Our data suggest a river stretch affected by resurgence and water abstraction did not highlight irreversible alterations to the landscape. Indeed, the composition of vegetation and correlated animal communities mirrored a clinal gradient expected for an Apennine river system. Our study has the potential to improve the approach used to monitor the impacts of humans on freshwater ecosystems, aiming at preserving the integrity of the water-related landscape.
防患于未然:评估人类活动对河流系统影响以保护景观的模型
欧盟 2030 年议程认为,有必要在保护与水有关的生态系统和提高人类社会的安全用水量之间找到一个平衡点。考虑到河流对罗马 400 多万用户饮用水供应的重要性,我们对河流系统的生态状况进行了评估,以减轻对人类的影响。我们采用综合方法,分析河岸和河床的动植物群落。大型底栖生物分析表明,所有取样站的群落结构合理,生态良好。在泉水收集系统的上游和下游发现了最高的丰富度值,而在河流收集城市污水的地方发现了最低的丰富度值。植物学清单显示,半毛藻占所有物种的近 45%,欧亚藻(35%)和嗜水藻(34%)占多数。河床植被与底栖动物群落的质量呈正相关,而树木高度似乎呈负相关。我们的数据表明,河段受河水复流和取水的影响,并没有对景观造成不可逆转的改变。事实上,植被和相关动物群落的组成反映了亚平宁河流系统所预期的气候梯度。我们的研究有可能改进用于监测人类对淡水生态系统影响的方法,从而保护与水有关的景观的完整性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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