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Isotopic characterization of cave environments at varying altitudes on the eastern Adriatic coast (Croatia) – implications for future speleothem- based studies (CROSBI ID 234398)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Surić, Maša ; Lončarić, Robert ; Lončar, Nina ; Buzjak, Nenad ; Bajo, Petra ; Drysdale, Russell N. Isotopic characterization of cave environments at varying altitudes on the eastern Adriatic coast (Croatia) – implications for future speleothem- based studies // Journal of hydrology, 545 (2017), 367-380. doi: 10.1016/j.jhydrol.2016.12.051

Podaci o odgovornosti

Surić, Maša ; Lončarić, Robert ; Lončar, Nina ; Buzjak, Nenad ; Bajo, Petra ; Drysdale, Russell N.

engleski

Isotopic characterization of cave environments at varying altitudes on the eastern Adriatic coast (Croatia) – implications for future speleothem- based studies

An important step in the implementation of paleoclimate reconstructions from speleothems (cave carbonate deposits) is to evaluate the sensitivity of the host cave environment to regional climate. Accordingly, we studied three caves at different altitudes (74 m, 570 m and 1250 m a.s.l.) along a transect from the Dalmatian islands to Velebit Mountain peaks in coastal Croatia to characterize their environments in terms of each cave’s suitability to host speleothems that would be capable of yielding robust paleoclimate reconstructions. We conducted cave microclimate (2-years) and dripwater (1-year) monitoring and analyzed the isotopic composition of precipitation, cave dripwater and modern spelean calcite. As for the water isotopic imprints, the isotopic values of meteoric waters reaching the two lower-altitude caves, in spite of an altitude difference of 500 m, lie on local meteoric water lines (LMWLs) of similar slope and intercept (δ2H = 6.61 × δ18O + 4.92 and δ2H = 6.69 × δ18O + 6.86). Their slopes lower than that of GMWL indicate enhanced evaporation during the warm season. As expected, the LMWL of the highest cave region (δ2H = 7.83 × δ18O + 14.45) resembles the slope of the GMWL, but the values of deuterium excess obtained for all three caves (between 15.2‰ and 16.6‰) match that of western Mediterranean- sourced waters (~15‰). Monthly d-excess values suggest Atlantic-sourced air masses can reach the sites throughout the year but never dominate the rainfall composition. The altitude effect was noted both in precipitation and in dripwater isotopic composition, but with notably different ∆δ18O/100 m gradients (-0.33‰ and -0.11‰, respectively). Stable isotope variations of the dripwaters in all caves were attenuated in relation to the rainwater, even those of the drip sites with fracture-flow behaviour. Based on stable cave microclimate conditions, relatively steady discharges, and modern calcite apparently precipitated at or close to isotopic equilibrium with dripwater, the two caves at lower altitudes show the greatest potential for future paleoclimate studies. The cave at the highest altitude experiences large cave air temperature amplitudes (5.3 °C) and pronounced ventilation, making the isotopic signal susceptible to kinetic fractionation which might preclude quantification of environmental changes, but on the other hand it accentuates isotopic events, making them easier to identify.

karst ; cave ; drip hydrology ; stable isotopes ; paleoenvironment ; Croatia

Projekt 60200 Sveučilišta u Zadru: Rekonstrukcija regionalnih paleoklimatskih promjena – zapisi iz siga sjeverne Dalmacije. Voditeljica: Maša Surić

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Podaci o izdanju

545

2017.

367-380

objavljeno

0022-1694

10.1016/j.jhydrol.2016.12.051

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