Spatiotemporal variations in climate moisture indices in Georgia under global warming

Using observational data from 50 weather stations in Georgia for the period of 1936-2013, the following climate indices of moisture regime are studied: maximum 1-day precipitation, maximum 5-day precipitation, the simple daily intensity index, the number of days with precipitation equal to not less than 10, 20, and 50 mm, number of consecutive wet and dry days. Geoinformation maps of the spatial structure are plotted, and the dynamics of these indices is studied for the period of global warming. Expected changes in the moisture regime in different physiographic regions in Georgia are assessed.     

Strontium and oxygen isotopic systems in waters of mud volcanoes of the Taman Peninsula

Ten of eleven analyzed water samples from mud volcanoes of the Taman Peninsula are characterized by ⁸⁷Sr/⁸⁶Sr ratio within 0.70734–0.70957, which overlaps the values typical of the Mesozoic and Cenozoic sedimentary carbonates, but sharply differs from the value in the clayey sediments of the Maikop Group (0.7157 ± 0.0022). These data indicate that the strontium isotopic composition is mainly defined by carbonate reservoirs, with relatively little effect of elision solutions, input of which is noticeable only in the water of Gladkovsky Volcano (⁸⁷Sr/⁸⁶Sr = 0.71076). The high δ¹⁸O in mud volcanic waters (up to 14.2‰) can also be attributed to ionic exchange with sedimentary carbonates at temperatures around 150°C.     

Helium isotopes in gases of Mineral Waters in the western Caucasus

The He isotope composition as an indicator of mantle-derived component was studied in gases from mineral springs, stratal waters, and mud volcanoes developed west of the Teberda River valley (10 objects) and two springs in the central segment of the Greater Caucasus orogen between the active El’brus and Kazbek volcanoes. In the western segment of the orogen, the values of ³He/⁴He = R_corr vary in the range of (46–114) × 10⁻⁸ = (0.33–0.81)R_atm, where R_atm =1.4 × 10⁻⁶ is the atmospheric ratio. They are substantially lower as compared with values in the vicinity of El’brus and Kazbek and close to those in samples from the central segment equal to (70–134) × 10⁻⁸ = (0.50–0.96)R_atm, as well as to the values previously recorded in the Caucasian Mineral Waters (CMW) area. Moreover, the content of ³He in them is notably higher as compared with its crustal radiogenic level characteristic of mud volcanoes in the Taman Peninsula, where R = (1.4–2.8) × 10⁻⁸ = (0.01–0.02)R_atm. Nitrogen-methane gas from northern piedmonts of the western Caucasus also contain nonatmogenic components, including the radiogenic ⁴⁰Ar (⁴⁰Ar/³⁶Ar = 900), “excess” nitrogen (∼87% of the total N₂ concentration in sample) and the mantle He. These data specify the distribution of mantle derivates along the orogen strike and age of intrusive magmatic activity in its different segments.     

Velingrad Hydrogeothermal System (Bulgaria): Geochemical Features and Heat Output

Lithology and Mineral Resources - The geothermal and hydrochemical parameters of a large hydrogeothermal system located in the city of Velingrad and its environs (southwestern Bulgaria) are...     

Isotope-Geochemical Features and Genesis of Gases in the East Carpathian Region

The paper presents data on the composition of a gas phase of underground fluids in the East Carpathian region, including ³He/⁴He, ⁴⁰Ar/³⁶Ar, and ⁴He/²⁰Ne ratios. The argon isotope composition of these gases was used to estimate the fractions of atmospheric Aratm and radiogenic ⁴⁰Ar_rad formed in the rocks, N₂/Aratm ratio, and to reveal the admixture of nonatmogenic (“excess”) nitrogen in most samples. The CO₂ content in gases positively correlates with the fraction of mantle component in fluid helium. At the same time, the CO₂ content shows a negative correlation with the total helium (and light ³He enriching mantle derivatives), thus excluding the simultaneous influx of CO₂ and helium from a common mantle source in the fluids. A wide spectrum of ³He/⁴He = R in gases of the region spanning three orders of magnitude confirms the concept of mixing of the crustal and mantle components in the helium. However, even gases with similar R values show a wide scatter of He concentrations. This is mainly caused by the additional influx of other gases: CH₄ formed during OM transformation or CO₂ released during the thermal metamorphism of carbonate sequences. Correlation of the CH₄/³He ratio and the helium isotope composition in the Carpathian gases indicates the crustal origin of hydrocarbons, which formed economic gas pools in the Ciscarpathian Trough and the adjacent part of the Folded Carpathians. Lateral chemical and isotope variations revealed in the underground fluids are related to the tectonic zoning of the region. The helium isotope variations are also consistent with the geodynamic setting of the region (thinning of the crust and lithosphere towards the Pannonian Basin, growth of the background conductive heat flow and corresponding ascent of isotherms). In combination with geothermal data, they reflect specifics of the mantle heat-and-mass flow discharge.     

Travertines of the northern Caucasus

Mineralogical and isotope-chemical characteristics of carbonate travertines of the Greater Caucasus are investigated. It is shown that concentrations of many chemical elements, which predominantly precipitate together with iron hydroxides, decrease along the strike of the travertine dome. At the same time, δ¹³C and ¹⁸O values in carbonates systematically increase due to kinetic effects of isotope fractionation. This leads to the formation of isotopically heavy calcite (δ¹³C up to 16.3‰) near the travertine dome base. Concentrations of other elements (Mg, Sr, Ba, Na, S, and Li), which form a isomorphic part of calcite crystal lattice, almost do not change along the strike of the dome. Comparison of concentrations of these elements in travertines and initial water solutions makes it possible to get ideas on trends of their redistribution in the carbonate-water system. Correlations found in this work define not only TDS content and concentration of some ions, but also REE spectra and formation temperatures of ancient fluid systems.     

Isotope and chemical composition of gases from mud volcanoes in the Taman Peninsula and problem of their genesis

Variations in the carbon isotope composition in gases and waters of mud volcanoes in the Taman Peninsula are studied. The δ¹³C values in CH₄ and CO₂ vary from ?59.5 to ?44.0‰ (δ¹³C_av = ?52.4 ± 5.4‰) and from ?17.8 to +22.8‰ (δ¹³C_av = +6.9 ± 9.3‰), respectively. In waters from most mud volcanoes of the peninsula, this parameter ranges from +3.3 to +33.1‰, although locally lower values are also recorded (up to ?12‰. Fractionation of carbon isotopes in the CO₂-HCO₃ system corresponds to the isotope equilibrium under Earth’s surface temperatures. The growth of carbon dioxide concentration in the gaseous phase and increase in the HCO₃ ion concentration in their water phase is accompanied by the enrichment of the latter with the heavy ¹³C isotope. The δ¹³C_TDIC value in the water-soluble carbon depends on the occurrence time of water on the Earth’s surface (exchange with atmospheric CO₂, methane oxidation, precipitation of carbonates, and other processes), in addition to its primary composition. In this connection, fluctuations in δ¹³C_TDIC values in mud volcanoes with stagnant waters may amount to 10–20‰. In the clayey pulp, concentrations of carbonate matter recalculated to CaCO₃ varies from 1–4 to 36–50 wt %. The δ¹³C value in the latter ranges from ?3.6 to +8.4‰. Carbonate matter of the clayey pulp represents a mixture of sedimentogenic and authigenic carbonates. Therefore, it is usually unbalanced in terms of the carbon isotope composition with the water-soluble CO₂ forms.     

Geochemical and Isotope Characteristics of Carbonates from Ejecta of Mud Volcanoes of the Kura Basin,Azerbaijan

Lithology and Mineral Resources - This paper is devoted to the vein and dispersed carbonates from ejecta of mud volcanoes of Azerbaijan. The vein calcites are morphologically diverse and related to...     

Physicochemical model for the generation of the isotopic composition of the carbonate travertine produced by the Tokhana spring,mount Elbrus area,northern Caucasus

The isotopic composition of calcite from travertine deposits of the Tokhana-Verkhnii hot spring in the Elbrus area shows broad variations in δ¹³C and δ¹⁸O (from +3.8 to +16.3‰ and from +24.6 to +28.1‰, respectively). The δ¹³C and δ¹⁸O values increase toward the sole of the travertine dome. The isotopically heaviest carbonates (δ¹³C of up to +16.3‰) were found near the bottom of the dome and composed ancient travertine, which are now not washed by mineral water. The scatter of the δ¹³C values of the fresh sample is slightly narrower: from +3.8 to +10‰. Calculations indicate that all carbonates of the Tokhana dome were not in equilibrium with spontaneous carbon dioxide released by the spring (\(\delta ^{13} C_{CO_2 } \) = ?8‰). To explain the generation of isotopically heavy travertine, a physicochemical model was developed for precipitation of Ca carbonates during the gradual degassing of the mineral water. The character of variations in the calculated δ¹³C values (from +5.5 to +13‰) is in good agreement with the tendency in the variations of the δ¹³C in the carbonate samples. The calculated and measured pH values are also consistent. Our results demonstrate that the isotopic composition of large travertine masses can be heterogeneous, and this should be taken into account during paleoclimatic and paleohydrogeological reconstruction.