Abstract
The year 2017 was anomalously warm and dry across the whole Italian Peninsula, and the paucity of precipitation was emphasized during the extreme summer drought of the main Italian river, i.e., the Po river, which was characterized by a discharge persistently below 600 m3/s (in spite of the average discharge of 1500 m3/s). During these extreme conditions, the Po river oxygen and hydrogen stable isotopes (δD, δ18O) displayed a relation (δD = 6.1*δ18O − 6.6) significantly different from that recorded in the previous investigation of the years 2012–2014 (δD = 7.5*δ18O + 6.5). The lowering of the slope and the negative intercept clearly reflect the transition toward arid conditions that characterized the investigated period. The difference is expressed by the derivative parameter Line-Conditioned excess (LC-exc), which better describes the compositional difference of Po river water in the year 2017 with respect to that of the period 2012–2014, when the system was less affected by warm or dry conditions and the river discharge was more similar to the historical trends. The isotopic anomaly observed in 2017 throughout the river is even greater in the terminal part of the river, where in the meanders of the deltaic branches, the river flow progressively slows down, suffering significant evaporation. The isotopic signature of the water appears, therefore, an appropriate tool to monitor the watershed response to evolving environmental conditions. These sensitive isotopic parameters could be interpreted as “essential climate variables” (ECV) that are physical, chemical, or biological geo-referenced parameters that critically contribute to the characterization of Earth’s climate. Future research needs to find relationships between ECV (including the water stable isotopes) and the evolution of ecosystems, which especially in the Mediterranean area, appear to be fragile and severely affected by natural and anthropogenic processes.
Highlights
Several studies emphasized the link between water stable isotopes and climatic conditions, which in turn regulate the hydrological cycle [1,2,3]
Isotopic methods were introduced in catchment hydrology research as a tool to obtain important hydrological information [4,5], suggesting that large-scale isotopic signatures of rivers potentially preserve that of precipitation and are useful for climate investigation at a regional scale [6,7]
The isotopic study includes:(a) 22 water samples collected in two different hydrological periods (May and July 2017) along the Po river course in specific sites already investigated by Marchina et al [15,16,19]; (b) 10 water samples collected at the closing section of Pontelagoscuro between October 2016 and September 2017; and (c) 15 water samples collected in different branches of the Po river delta, mainly during August 2017
Summary
Several studies emphasized the link between water stable isotopes and climatic conditions, which in turn regulate the hydrological cycle [1,2,3]. Isotopic methods were introduced in catchment hydrology research as a tool to obtain important hydrological information [4,5], suggesting that large-scale isotopic signatures of rivers potentially preserve that of precipitation and are useful for climate investigation at a regional scale [6,7]. Systematic isotopic studies concerning large-scale catchments [5,8,9,10,11,12,13,14] are unevenly distributed around the world. The GNIR database (Global Network of Isotopes in Rivers, [4]) lacks information in some specific areas, including Northern Italy, where the main.
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