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Geologija in hidrogeokemija izvira Žvepovnik pri Ljubnem ob Savinji : magistrsko delo
ID Polenšek, Teja (Author), ID Verbovšek, Timotej (Mentor) More about this mentor... This link opens in a new window, ID Rožič, Boštjan (Comentor)

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Abstract
Netermalni žvepleni izviri iz karbonatnih vodonosnikov so v Sloveniji redek pojav. Eden izmed teh je izvir Žvepovnik v Zgornji Savinjski dolini, ki sem ga preiskala z geološkega in hidrogeokemijskega vidika. Za omejitev dolomitnega vodonosnika in opredelitev nastanka območja sem izvedla geološko kartiranje, sedimentološko analizirala izdanek diskordantne meje v bližini izvira, naredila mikroskopsko analizo zbruskov in z rentgensko praškovno difrakcijo potrdila prisotnost pirita ob diskordantni meji. Izvajala sem mesečne meritve fizikalno-kemijskih parametrov izvirske vode in dvakrat vzorčila za podrobno kemijsko in izotopsko analizo. Izvirska voda pripada kalcijevo-bikarbonatnemu tipu, molsko razmerje Ca2+/Mg2+ pa kaže na pretežno dolomitni vodonosnik s potencialno prisotnim kalcitom ali sadro. Mikroskopske analize dokazujejo anizijsko starost dolomitnega vodonosnika s prisotnim kalcitom, na katerega so diskordantno odloženi oligocenski laporovci iz globljega sedimentacijskega okolja. Prisotnost pirita in hidrotermalnega dolomita nakazuje diagenetske spremembe, ki so predvidoma povezane z vulkansko hidrotermalno aktivnostjo. Indeksi nasičenja kalcita, dolomita in barita kažejo na rahlo prenasičenost, indeksi sadre in anhidrita pa močno podnasičenost. Vrednost ^13CDIC okoli -12,5 ‰ nakazuje izvor raztopljenega anorganskega ogljika iz preperevanja karbonatnih mineralov kot posledica reakcije s H2CO3, ki je nastala z razpadom organske snovi v prsti. Vrednosti ^2H in ^18O vode kažejo zelo dobro ujemanje z globalno meteorološko vodno linijo ter z vrednostmi bližnjega izvira Berglez. Skupaj z vsebnostjo tritija kažejo na mešanje recentne vode s starejšo. Vplive izvora vode iz globljega vodonosnika pa je mogoče zaznati tudi pri vsebnosti raztopljenega kisika in vrednosti Eh. Vrednosti ^34S in ^18O v sulfatu pa ne podajo enoznačnega odgovora o izvoru žvepla. Izotopska sestava se ujema z izvorom žvepla v baritu, ki bi se lahko nahajal pod diskordantno mejo v podobnemu orudenju, kot je v antimonovem rudišču Lepa njiva pri Šmihelu nad Mozirjem. Ujema se tudi z izvorom v sadri, ki se lahko pojavlja v globljem delu vodonosnika. Drugi dve možnosti pa sta oksidacija močno obogatenega pirita ali pa obogatitev preostalega sulfata v raztopini pri redukciji pirita s SRB (sulfatno redukcijske bakterije).

Language:Slovenian
Keywords:izvir Žvepovnik, žvepleni izvir, kraški vodonosniki, hidrogeokemija, stabilni izotopi
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:NTF - Faculty of Natural Sciences and Engineering
Place of publishing:Ljubljana
Publisher:T. Polenšek
Year:2024
Number of pages:XVI, 67 f.
PID:20.500.12556/RUL-154885 This link opens in a new window
UDC:55
COBISS.SI-ID:188504323 This link opens in a new window
Publication date in RUL:07.03.2024
Views:651
Downloads:40
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Secondary language

Language:English
Title:Geology and hydrogeochemistry of Žvepovnik spring near Ljubno ob Savinji, NE Slovenia : master's thesis
Abstract:
Non-thermal sulphur springs from karstic aquifers are very rare in Slovenia. One of them that I investigated from geological and hydrogeochemical standpoint is Žvepovnik spring (Zgornja Savinjska Valley, NE Slovenia). To define the dolomitic aquifer I did geological mapping, microscopical analysis of thin sections and confirmed presence of pyrite along the discordant contact with X-ray diffraction. I also measured physico-chemical properties of spring water monthly and did two samplings for detailed chemical and isotopic analysis. Water belongs to the calcium bicarbonate type and the Ca2+/Mg2+ ratio shows aquifer is mostly dolomitic with possible calcite or gypsum present. Microscopical analysis proves that aquifer of Anisian age is dolomitic with some calcite and is discordantly overlain by Oligocene deep see environment marls. Presence of pyrite and hydrothermal dolomite indicates diagenetical changes, that are presumably related to volcanic hydrothermal activity. Saturation indices (SI) for calcite, dolomite and barite show slight oversaturation, but SI for gypsum and anhydrite shows strong undersaturation. ^13CDIC value around -12,5 ‰ indicates that dissolved inorganic carbon comes from weathering of carbonate by reaction with H2CO3, which was created by decay of organic matter in soil. ^2H and ^18O values fit well with the global meteoric water line and with values from nearby Berglez spring. Tritium content indicates mixing of recent and older water. Dissolved oxygen and Eh value also show signs of a deeper aquifer. ^34S in ^18O values in sulphate don’t provide an unambiguous answer to sulphur source. Isotopic composition complies with barite being the source. There could be a similar deposit to Lepa Njiva near the spring, under the discordant contact. Or the source could be gypsum in the deeper parts of the aquifer. Other two options are oxidation of highly enriched pyrite or enrichment of the residual sulphate in the solution as a result from reduction of pyrite with SRB (sulphate reducing bacteria).

Keywords:Žvepovnik spring, Sulphide spring, Karst aquifers, Hydrogeochemistry, Stable isotopes

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