The present study provides a detailed quantification of the ‘thermopeaking’ phenomenon, which consists of sharp intermittent alterations of stream thermal regime associated with hydropeaking releases from hydroelectricity plants. The study refers to the Noce River (Northern Italy), a typical hydropower-regulated Alpine stream, where water stored in high-altitude reservoirs often has a different temperature compared with the receiving bodies. The analysis is based on a river water temperature dataset that has been continuously collected for 1 year at 30-min intervals in four different sections along the Noce River. A suitable threshold-based procedure is developed to quantify the main characteristics of thermopeaking, which is responsible for thermal alterations at different scales. The application of Wavelet Transform allows to separately investigate the thermal regime alterations at sub-daily, daily and weekly scales. Moreover, at a seasonal scale, patterns of ‘warm’ and ‘cold’ thermopeaking can be clearly detected and quantified. The study highlights the relevance of investigating a variety of short-term alterations at multiple time scales for a better quantitative understanding of the complexity that characterizes the river thermal regime. The outcomes of the analysis raise important interdisciplinary research questions concerning the effects of thermopeaking and of the related short- and medium-term effects on biological communities, which have been rather poorly investigated in ecological studies.

Zolezzi, G.; Siviglia, A.; Toffolon, M.; Maiolini, B. (2011). Thermopeaking in Alpine streams: event characterization and time scales. ECOHYDROLOGY, 4 (4): 564-576. doi: 10.1002/eco.132 handle: http://hdl.handle.net/10449/20261

Thermopeaking in Alpine streams: event characterization and time scales

Maiolini, Bruno
2011-01-01

Abstract

The present study provides a detailed quantification of the ‘thermopeaking’ phenomenon, which consists of sharp intermittent alterations of stream thermal regime associated with hydropeaking releases from hydroelectricity plants. The study refers to the Noce River (Northern Italy), a typical hydropower-regulated Alpine stream, where water stored in high-altitude reservoirs often has a different temperature compared with the receiving bodies. The analysis is based on a river water temperature dataset that has been continuously collected for 1 year at 30-min intervals in four different sections along the Noce River. A suitable threshold-based procedure is developed to quantify the main characteristics of thermopeaking, which is responsible for thermal alterations at different scales. The application of Wavelet Transform allows to separately investigate the thermal regime alterations at sub-daily, daily and weekly scales. Moreover, at a seasonal scale, patterns of ‘warm’ and ‘cold’ thermopeaking can be clearly detected and quantified. The study highlights the relevance of investigating a variety of short-term alterations at multiple time scales for a better quantitative understanding of the complexity that characterizes the river thermal regime. The outcomes of the analysis raise important interdisciplinary research questions concerning the effects of thermopeaking and of the related short- and medium-term effects on biological communities, which have been rather poorly investigated in ecological studies.
Thermopeaking
Regulated Alpine rivers
River temperature
Hydropower
Wavelet Transform
Zolezzi, G.; Siviglia, A.; Toffolon, M.; Maiolini, B. (2011). Thermopeaking in Alpine streams: event characterization and time scales. ECOHYDROLOGY, 4 (4): 564-576. doi: 10.1002/eco.132 handle: http://hdl.handle.net/10449/20261
File in questo prodotto:
File Dimensione Formato  
2011 Zolezzi_etal_EH_print.pdf

non disponibili

Licenza: Tutti i diritti riservati (All rights reserved)
Dimensione 1.26 MB
Formato Adobe PDF
1.26 MB Adobe PDF   Visualizza/Apri   Richiedi una copia

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10449/20261
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 108
  • ???jsp.display-item.citation.isi??? 103
social impact