Temperature and discharge variations in natural mineral water springs due to climate variability: a case study in the Piedmont Alps (NW Italy)

Bastiancich, Leone; Lasagna, Manuela; Mancini, Susanna; Falco, Mauro; Luca, Domenico Antonio De

doi:10.1007/s10653-021-00864-8

Cited by 15 publications

(8 citation statements)

References 49 publications

(48 reference statements)

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“…nitrate removal rates vary from 5% to 88% for different thermal regimes globally, which has serious implications in a warming environment.To better observe the effect of CC on GW in the absence of anthropogenic effects, some authors analysed springs in mountainous areas. Bastiancich et al [ 47 ], in northern Italy, highlighted that approximately one-third of the analysed springs in their study showed a GWT increase (+0.007 °C/yr) associated with the increase in AT (up to +0.03 °C/year) over the period 2001–2018. In addition, cross-correlation tests demonstrated a close relationship between AT and GWT, with a time-lag of between 0 and 3 months, and between spring flow and AT, with a time-lag of between 1 and 3 months.…”

Section: Resultsmentioning

confidence: 90%

How groundwater temperature is affected by climate change: A systematic review

Egidio,

De Luca,

Lasagna

2024

Heliyon

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Section: Resultsmentioning

confidence: 90%

How groundwater temperature is affected by climate change: A systematic review

Egidio,

De Luca,

Lasagna

2024

Heliyon

Self Cite

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“…Numerous studies indicate that weather exacerbates the most severe impacts on water quality (Mimikou et al, 2000;Whitehead et al, 2009; EPA, 2016; Amanullah et al, 2020; Shinhu et al, 2023). Increased rainfall variability impacts drinking water quality signi cantly leading to notable changes in water quality parameters, often shifting from clear to turbid water (Bastiancich et al, 2022;Turyasingura et al, 2023). It also promotes the prevalence of cyanobacteria, worsening eutrophication and impacting the physical, chemical, and biological parameters, as well as nutrient availability (Ojok et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Linking Land Use and Precipitation Changes to Water Quality changes in Lake Victoria Using Remote Sensing

Nakkazi,

Nkwasa,

Martinez

et al. 2024

Preprint

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Due to the continued increase in land use changes and changing climatic patterns in the Lake Victoria basin, understanding the impacts of these changes on the water quality of Lake Victoria is imperative for safeguarding the integrity of the freshwater ecosystem. Thus, we analyzed spatial and temporal patterns of land cover, precipitation, and water quality changes in the Lake Victoria basin from 2000 to 2022 using processed remote sensing (RS) data. Focusing on chlorophyll-a (Chl-a) and turbidity (TUR) in Lake Victoria, we used statistical metrics (correlation coefficient, trend analysis, change budget, and intensity analysis) to understand the relationship between land use and precipitation changes in the basin with changes in Chl-a and TUR at two major pollution hotspots on the lake i.e. Winam Gulf and Inner Murchison Bay (IMB). Results show that the Chl-a and TUR concentrations in the Winam gulf increase with increases in precipitation. Through increases in precipitation, the erosion risks are increased and transport of nutrients from land to the lake system, promoting algal growth and turbidity. In the IMB, Chl-a and TUR concentrations decrease with increase in precipitation, possibly due to dilution, but peak during moderate rainfall. Interestingly, LULC changes showed no substantial correlation with water quality changes at selected hotspot areas even though LULC change analysis showed a notable 300% increase in built-up areas across the Lake Victoria basin. These findings underscore the dominant influence of precipitation changes over LULC changes on the water quality of Lake Victoria for the selected hotspot areas.

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“…Among them, many scholars have studied the impact of sudden climate change on water quality. Bastincich et al [ 2 ] analyzed the availability and impact of climate change on surface water; Lasagna et al [ 3 ] analyzed the impact of an arid climate on surface water; Chen et al, Lu et al and Fei et al [ 4 , 5 , 6 ] analyzed the way climate change affects water quality and proposed corresponding management countermeasures; and Maurizio et al [ 7 ] analyzed the impact of climate change on groundwater quality.…”

Section: Introductionmentioning

confidence: 99%

Research on the Optimal Regulation of Sudden Water Pollution

Ren

Lin

Tao

et al. 2023

Toxics

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For the needs of the whole region’s emergency regulation of the nullah sudden water pollution event, the emergency regulation strategy of the accident section and upstream and downstream of the sudden water pollution event is studied. For the accident section, the duration of the whole emergency event is calculated using the parameter quantification method; for the upstream of the accident section, the NSGA-II is used to adjust the gate opening to ensure the water level stability of the upstream pools; for the downstream section, the optimized partition method is used to identify the unfavorable pools and close the unfavorable pool to extend the water supply time. Based on the example of an emergency event in the section of the Liyanghe gate–Guyunhe gate of the middle line project, the research results are as follows: the accident section is identified as the Xiaohe gate–Hutuohe gate, the upstream of the accident section is the Liyanghe gate–Xiaohe gate, and the downstream of the accident section is the Hutuohe gate–Gangtou Tunnel gate. The duration of the emergency event in the accident section is 7.9 h; the maximum average water level deviation before the gate upstream of the accident section is 0.05 m; two unfavorable canal pools are identified in the stream of the accident section, and the water supply time of the unfavorable pools is extended by 6.13 and 5.61 d.

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Temperature and discharge variations in natural mineral water springs due to climate variability: a case study in the Piedmont Alps (NW Italy)

Cited by 15 publications

References 49 publications

How groundwater temperature is affected by climate change: A systematic review

How groundwater temperature is affected by climate change: A systematic review

Linking Land Use and Precipitation Changes to Water Quality changes in Lake Victoria Using Remote Sensing

Research on the Optimal Regulation of Sudden Water Pollution

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