Your search keyword '"Phreatic zone"' showing total 4 results

1. Determining the directions and characteristics of underground water flow in karst for the purpose of traffic routes construction: the case of the new Divača-Koper railway line (SW Slovenia)

Author

Metka Petrič, Nataša Ravbar, Luca Zini, Chiara Calligaris, Riccardo Corazzi, Zdenka Žitko, Marco Restaino, and Martin Knez

Subjects

karst water, railway route, phreatic zone, tracer test, active cave streams, classical karst, Petrology, QE420-499, Stratigraphy, QE640-699

Abstract

The new railway line between Divača and Koper/Capodistria in south-western Slovenia is being built, a part of which crosses the southern outskirts of the Classical Karst plateaux. It will run through two tunnels, the northern tunnel T1 (6.7 km long) and the southern T2 (6 km long), which partially cross karst aquifer system. A multi-tracer test with injections of fluorescent dyes uranine and naphthionate, bypassing the karst vadose zone, was carried out to define the directions and dynamics of the underground water flow. The main goals were better understanding of the complex hydrogeological conditions in the area and assessment of possible environmental impacts on the nearby water sources. With tracing of uranine injected into a nearby cave stream, the direction of flow from the northern T1 tunnel mainly towards the Reka-Timavo aquifer system and further towards the Timava/Timavo springs was proved. The peak velocities, as determined from the peaks of the tracer breakthrough curves, range from 29 m/h to 36 m/h. Through the wider and well-connected conduits of the Reka-Timavo system, the peak velocities can reach up to 88 m/h. The recovery of uranine in an intermediate cave, i.e., Jama 1 v Kanjaducah, amounted to approximately 74 %. The northern section of the southern T2 tunnel is a part of a wider bifurcation zone between the Osapska Reka and the Boljunec/Bagnoli springs, where peak flow velocities between 10 and 13 m/h have been determined by tracing of naphthionate injected into a borehole located in the line of the planned tunnel. It has been estimated that about 25 % of the injected naphthionate flew out through the Osapska Reka spring and about 5 % through the Boljunec/ Bagnoli springs. Based on this research, proper monitoring of any potential negative impacts of the new railway line will be made possible. The study presents an approach to better planning of hazard control of traffic routes in complex and highly karstified rock settings.

Published

2020

2. DETERMINING THE DIRECTIONS AND CHARACTERISTICS OF UNDERGROUND WATER FLOW IN KARST FOR THE PURPOSE OF TRAFFIC ROUTES CONSTRUCTION: THE CASE OF THE NEW DIVAČA-KOPER RAILWAY LINE (SW SLOVENIA).

Author

Petrič, Metka, Ravbar, Nataša, Zini, Luca, Calligaris, Chiara, Corazzi, Riccardo, Žitko, Zdenka, Restaino, Marco, and Knez, Martin

Subjects

*HYDRAULICS, *KARST, *HYDROGEOLOGY, *ENVIRONMENTAL impact analysis, *RAILROADS, *TUNNEL lining

Abstract

The new railway line between Divača and Koper/Capodistria in south-western Slovenia is being built, a part of which crosses the southern outskirts of the Classical Karst plateaux. It will run through two tunnels, the northern tunnel T1 (6.7 km long) and the southern T2 (6 km long), which partially cross karst aquifer system. A multi-tracer test with injections of fluorescent dyes uranine and naphthionate, bypassing the karst vadose zone, was carried out to define the directions and dynamics of the underground water flow. The main goals were better understanding of the complex hydrogeological conditions in the area and assessment of possible environmental impacts on the nearby water sources. With tracing of uranine injected into a nearby cave stream, the direction of flow from the northern T1 tunnel mainly towards the Reka-Timavo aquifer system and further towards the Timava/Timavo springs was proved. The peak velocities, as determined from the peaks of the tracer breakthrough curves, range from 29 m/h to 36 m/h. Through the wider and well-connected conduits of the Reka-Timavo system, the peak velocities can reach up to 88 m/h. The recovery of uranine in an intermediate cave, i.e., Jama 1 v Kanjaducah, amounted to approximately 74%. The northern section of the southern T2 tunnel is a part of a wider bifurcation zone between the Osapska Reka and the Boljunec/Bagnoli springs, where peak flow velocities between 10 and 13 m/h have been determined by tracing of naphthionate injected into a borehole located in the line of the planned tunnel. It has been estimated that about 25% of the injected naphthionate flew out through the Osapska Reka spring and about 5% through the Boljunec/Bagnoli springs. Based on this research, proper monitoring of any potential negative impacts of the new railway line will be made possible. The study presents an approach to better planning of hazard control of traffic routes in complex and highly karstified rock settings. [ABSTRACT FROM AUTHOR]

Published

2020

3. Groundwater dynamics between Planinsko Polje and springs of the Ljubljanica River, Slovenia

Author

Cyril Mayaud, Franci Gabrovšek, and Matej Blatnik

Subjects

geography, Network geometry, geography.geographical_feature_category, Groundwater flow, Polje, Phreatic zone, Aquifer, Karst, Geomorphology, Geology, Groundwater, Earth-Surface Processes, Frequency measurements

Abstract

Caves reaching the (epi)phreatic zone may provide the only access to groundwater in the internal parts of karst aquifers. Modern instruments enable unattended high frequency measurements of groundwater parameters in such caves. A network of distributed observation points may give new information on temporal and spatial pattern of groundwater flow. Such network, recording water level, temperature and specific electrical conductivity was established in all major ponors and active water caves of the karst aquifer between Planinsko Polje and springs of the Ljubljanica River, Slovenia. Up to three and a half years long records were analysed in view of available and relevant geological, speleological, meteorological and hydrological information, and basic hydraulic principles of the epiphreatic flow. The result of the interpretation were models of possible conduit networks of the three main flow subsystems draining Planinsko Polje. For each subsystem a hydraulic model comprising the main features of the inferred conduit network and inputs was made. The models were adjusted until their response to the typical flood situations gave a good qualitative fit to the response of the observation network. The results provide new insights into the mechanism of flood propagation through the system and its relation to the known conduit geometry. The hydraulic role of known cave passages is assessed and new flow pathways are proposed. Back-flooding within the aquifer causes an increase of head in the polje, followed by the activation of higher located ponor zones and flow pathways related to them. Hydrographs recorded in two caves located northwest from Planinsko Polje revealed pos sible high transmissivity zone of the Idrija Fault Zone and the mechanism of estavelles located at the polje’s north-western border. The approach taken in this work offers new insights into the relation between the conduit network geometry and flood mechanism. It can be used elsewhere in conduit-dominated systems with multiple accesses to groundwater flow and well constrained recharge.Key words: karst aquifer, epiphreatic zone, groundwater monitoring, hydraulic models, Planinsko Polje, Ljubljanica River.Dinamika podzemne vode med Planinskim poljem in izviri Ljubljanice, Slovenija Jame v epifraticni coni obicajno predstavljajo edini dostop do podzemne vode znotraj kraskega vodonosnika. Sodobni merilniki omogocajo kakovostne zvezne meritve razlicnih parametrov tudi v taksnih jamah. Merilna mreža z vec lokacijami znotraj izbranega vodonosnika lahko ponudi nove podatke o casovni in prostorski dinamiki toka podzemne vode. Taksna merilna mreža, z meritvami visine, temperature in elektroprevodnosti vode, je bila vzpostavljena v vseh pomembnejsih ponorih in vodnih jamah na obmocju med Planinskim poljem in izviri Ljubljanice. Do tri in pol leta dolgi nizi podatkov so bili analizirani z vidika razpoložljivih geoloskih, speleoloskih, meteoroloskih in hidroloskih podatkov ter osnovnih hidravlicnih nacel o epifreaticnem toku vode. Rezultat interpretacij so poenostavljeni modeli z domnevno razporeditvijo podzemnih kanalov v treh glavnih podsistemih, ki odvajajo Planisko polje. Za vsak podsistem je bil napravljen hidravlicen model z dotokom in mrežo kanalov, ki najbolje ponazarja resnicno stanje. Tekom raziskave so se hidravlicni modeli nadgrajevali do taksne mere, da je simulacija vodnega toka zadovoljivo ponazarjala dogajanje, izmerjeno v resnicnem okolju. Rezultati so prinesli nove ugotovitve o sirjenju in dinamiki poplavljanja skozi sistem ter njihovo povezavo s poznano geometrijo proucevanega vodonosnika. Ocenjena je bila hidravlicna vloga poznanih jamskih rovov, na podlagi njih pa interpretirane nove smeri pretakanja vode. Ugotovljeno je bilo tudi zajezitveno poplavljanje znotraj vodonosnika, ki vpliva tudi na vodostaj na polju in nadalje na aktivacijo visje ležecih požiralnikov ter njim sledecih kanalov. V dveh jamah severozahodno od Planinskega polja so visinski hidrogrami nakazali na obstoj bolj prepustnega obmocja Idrijske prelomne cone ter delovanje estavel na severozahodnem obrobju polja. Postopek, ki je bil uporabljen v pricujocem delu, omogoca nova dognanja o razporeditvi podzemnih kanalov in s tem povezano dinamiko poplavljanja v kraskem vodonosniku. Predstavljeno metodo je mogoce uporabiti tudi v drugih kraskih sistemih z dobro razvitimi kanali, z vec dostopi do toka podzemne toka vode in dobro poznanem dotoku v sistem.Kljucne besede: kraski vodonosnik, epifreaticna cona, spremljanje podzemne vode, hidravlicni modeli, Planinsko polje, Ljubljanica.

Published

2019

4. Recent Results of Tracer Tests in the Catchment of the Unica River (SW Slovenia)

Author

Franci Gabrovšek, Janez Turk, Metka Petrič, Gregor Kovačič, Nataša Ravbar, and Janja Kogovšek

Subjects

Hydrology, geography, geography.geographical_feature_category, Groundwater flow, TRACER, Vadose zone, Phreatic zone, Aquifer, STREAMS, Karst, Geology, Earth-Surface Processes, Water level

Abstract

In the catchment area of the Unica River two combined tracer tests with fluorescent dyes have been performed aiming to characterize the properties of groundwater flow and transport of contaminants through the vadose zone and well developed system of karst channels in the epiphreatic and phreatic zone in different hydrologic conditions. Tracers were injected directly into the ponors and to the oil collector outlet on the karst surface. Prior to tracing monitoring network has been set up, including precipitation, physical and chemical parameters of the springs and cave streams. Field fluorimeters were used to detect tracers in the underground river and conventional sampling techniques and laboratory analyses were used at the springs. Some of the results were quantitatively evaluated by QTRACER2 Program. During the first tracer test, when injection was followed by rain event, flow through the well conductive cave system was characterized by apparent dominant flow velocities of 88–640 m/h. Breakthrough curves were continuous, uniform and single peaked, and almost complete recoveries were observed. During the second tracer test, when water level was in constant recession, the transport velocities through the well developed karst conduits were significantly slower (apparent maximal flow velocities being 2–4 times lower). Results also show lower dispersivity during the second tracer test, which corresponds to lower flow velocities. The tracer injected at the karst surface arrived with the expected delay (vdom around 9 m/h) and showed irregular and elongated breakthrough curves with secondary peaks. In this paper only tracer test results are presented, which are a part of a comprehensive study of groundwater flow through the complex karst aquifers aiming at improving karst water resources understanding, protection and management. The presented assessment will beyond be utilized for further detailed analysis, studies and modelling.

Published

2010