The freshwater discharge into the Adriatic Sea revisited

IF 3.3 Q2 ENVIRONMENTAL SCIENCES
Leonardo Aragão, Lorenzo Mentaschi, Nadia Pinardi, G. Verri, Alfonso Senatore, Silvana Di Sabatino
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引用次数: 0

Abstract

The present study reconstructs the river discharge climatology and its respective historical series for all rivers of the Adriatic Sea with averaged climatological daily river discharge above 1 m3s−1, to reach a better representation of the Adriatic rivers in hydrodynamic models and, consequently, to develop a more realistic freshwater balance in the different regions of the hydrographic basin. Based on the European Flood Awareness System (EFAS) data set, a careful method of identification and selection of the Adriatic rivers, followed by a rigorous assessment against observational data, was developed to evaluate the current state of the Adriatic river discharges and their respective trends throughout several climate indicators from 1991 to 2022. Observational data are limited to 85% of the identified rivers, totaling 98% of the overall freshwater input into the Adriatic Sea. The results confirm that the Shallow Northern Adriatic receives the largest freshwater inputs with a daily average exceeding 2,400 m3s−1, which amounts to 61% of the overall Adriatic discharges. Consequently, this region guides the freshwater seasonal cycle of the Adriatic Sea, which presents a well-defined pattern of two flood peaks in late autumn and late spring, separated by a minimum discharge period at mid-summer. From the Central to the Southern Adriatic subregions, the absence of snow-melting effects prevents the secondary flood peak during the spring, shaping the seasonal cycle of river discharges from a single flood peak in late autumn to a drought period in August. The 32 years of continuous river discharge data reveal a negligible trend in the overall Adriatic Sea but a negative trend for the last decade (2013–2022). This decadal decrease is driven by the extreme drought that drastically pounded the northern Adriatic in 2022.
亚得里亚海淡水排放再研究
本研究重建了亚得里亚海所有日平均气候河流排水量超过 1 m3s-1 的河流排水量气候及其相应的历史序列,以便在水动力模型中更好地反映亚得里亚海河流的情况,进而在水文流域的不同区域建立更真实的淡水平衡。以欧洲洪水预警系统(EFAS)数据集为基础,开发了一种识别和选择亚得里亚海河流的细致方法,随后根据观测数据进行了严格评估,以评估亚得里亚海河流排水量的现状及其在 1991 年至 2022 年期间几个气候指标的变化趋势。观测数据仅限于 85% 已确定的河流,这些河流的淡水总量占亚得里亚海总淡水输入量的 98%。结果证实,北亚得里亚海浅水区的淡水输入量最大,日均超过 2,400 立方米/秒,占亚得里亚海总排水量的 61%。因此,该地区引导着亚得里亚海的淡水季节性周期,呈现出秋末和春末两个洪水高峰期,中间是夏季最小排泄期的明确模式。从亚得里亚海中部到南部次区域,由于没有融雪效应,春季不会出现二次洪峰,从而形成了从深秋单一洪峰到八月干旱期的河流排水季节性周期。连续 32 年的河流排水量数据显示,亚得里亚海的总体趋势可以忽略不计,但最近十年(2013-2022 年)却出现了负趋势。2022 年亚得里亚海北部遭受特大旱灾,导致了这一十年趋势的下降。
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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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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