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Solution-collapse breccias in the upper Olenekian–Ladinian succession, Tatra Mts, Poland

Jaglarz P., Rychliński T.

Annales Societatis Geologorum Poloniae

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2018

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Vol. 88, No. 4

303--319

EN

The upper Olenekian-Middle Triassic succession of the Tatricum domain (Central Western Carpathians, southern Poland) includes a few horizons of breccias, which are intercalated with early-diagenetic dolostones. On the basis of macroscopic and microscopic (including cathodoluminescence) observations, the paper presents a new interpretation of the genesis of the breccias and their diagenetic history. The rocks studied range from monomictic, cemented mosaic packbreccias to chaotic, unsorted, monomictic, particulate rubble floatbreccias. The processes that preceded the formation of the breccias encompassed the precipitation of evaporites and the early-diagenetic dolomitization of lime muds. The solution-collapse breccias were formed during episodes of cyclic sediment emersions in the upper Olenekian and Middle Triassic, as the result of gradual sediment collapse after karstic dissolution of the intercalated evaporites. After the brecciation process, during diagenesis the rocks were subjected to cementation by sulphate minerals and next, to multi-stage dolomitization. Later tectonic processes led to fracturing and even re-brecciation of the previously formed solution-collapse breccias.

2

Optymalizacja wielokryterialna na potrzeby zintegrowanego systemu obsługi trasowania w sieciach sterowanych programowo (SDNRoute)

Boryło P., Chołda P., Jaglarz P., Kantor M., Ludwin W., Rzym G.

Przegląd Telekomunikacyjny + Wiadomości Telekomunikacyjne

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2017

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nr 8-9

733--738, CD

PL

W artykule przedstawiono moduł optymalizacji stanowiący składową systemu obsługi trasowania pakietów w sieciach sterowanych programowo (SDNRoute). Moduł ten współpracując, w nadchodzącym oknie czasowym, z modułem predykcji ruchu dostarcza do sterownika dane dotyczące zalecanego przebiegu przepływów w sieci. Wyniki działania modułu optymalizacji są przekazywane do emulatora, który weryfikuje ich jakość przed zastosowaniem w sieci rzeczywistej. Ze względu na fakt, że moduł optymalizacji uwzględnia kilka kryteriów minimalizacji: użycia zasobów, opóźnień oraz konsumpcji energii, sformułowano zadanie optymalizacji wielokryterialnej oraz przedstawiono sposób postępowania w zakresie prowadzenia obliczeń.

EN

An optimization module, which is an element of an integrated system supporting routing in software defined networks (SDNRoute), is presented. The module cooperates with a traffic prediction module providing data related to the next time window. The optimization module feeds traffic flow routing data to a system controller, as well as to an emulator used for experimental evaluation of the optimization results before they are applied in the production network. Due to the fact that the optimization module assumes a few minimized goal functions (resource utilization, delays, and energy consumption), an optimization task is formulated and the method to carry data processing is given.

3

Budowa geologiczna masywu Ciemniaka na podstawie danych z Jaskini Małej w Mułowej (Tatry Zachodnie)

Szczygieł J., Borowska U., Jaglarz P.

Przegląd Geologiczny

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2014

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Vol. 62, nr 7

349--355

EN

The Mała Cave in Mułowa has been explored to a depth of 555 m at the beginning of the 21th century. It makes a good opportunity to review the knowledge on the geological structure of the Ciemniak Massif. The geological research was performed in two main conduits of the cave. The Mała Cave in Mułowa developed in Lower and Middle Triassic carbonates belonging to the dziary Unit (CzerwoneWierchy Nappe – part of the High-Tatric Allochthon), as well as in marly shales of the Zabijak Formation and limestones of the Wysoka Turnia Limestone Formation belonging to the High-Tatric Autochthon. The cave is the second outcrop of the lower limb of the main syncline of the dziary Unit. It follows that the dziary Unit in the Ciemniak area is represented by a recumbent, open syncline with completely preserved both limbs. This syncline is open northtoward . The fold axes are subhorizontal and the axis surface is inclined ~37o N. From a depth of 300 m (below the entrance), the cave was formed at the contact of Cretaceous rocks belonging to the autochthonous cover and Triassic rocks of the dziary Unit.

4

Wieloetapowa dolomityzacja w sukcesji triasu dolnego i środkowego serii wierchowej (Tatry Zachodnie, Polska)

Jaglarz P.

Przegląd Geologiczny

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2012

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Vol. 60, nr 5

284-293

EN

The paper is focused on multi-stage dolomitization process in the Lower-Middle Triassic succession of the High-Tatric series from the Western Tatra Mts. Lower and Middle Triassic bedded dolostones have several features indicating their early-diagenetic (synsedimentary) origin: preservation of sedimentary structures, fine-grained fraction (except redeposited deposits), relatively high concentration of siliciclastics, pseudomorphs after sulfates, lack of benthic fauna (except storm deposits). This can also be identified by presence of teepee structures and solution-collapse breccias. The sedimentological features and δ13C values may lead to conclusion that bedded dolostones were formed in the hypersaline environment, within supra- to interitidal zone. The part of bedded dolostones (mainly Early Triassic and latest Middle Triassic age) were formed during dilution of hipersaline waters by periodic fresh-water inputs. Positive correlation between δ13C and δ18O in dolomitized calcarenites suggests dolomitization with the influence of mixed meteoric and marine (hypersaline) waters. That dolomitization process took place during relatively early stage of burial diagenesis at marine regression times. The δ13C values of dolomitized calcilutites, as well as mosaic and saddle dolomitic cements suggest the dolomitization by solutions of marine origin. The lack of correlation between δ13C and δ18O indicates high temperature of these solutions. The values of δ18O indicate the temperature formation of dolomitic mosaic cements at 45-65°C. Calcilutites were dolomitized at 70-80°C, and saddle dolomite cements were formed in similar thermal conditions (70–85°C). Hydrothermal dolomitization is dated on Middle Triassic time.

5

Uwagi do nomenklatury skał węglanowych triasu tatrzańskiego

Jaglarz P., Rychliński T.

Przegląd Geologiczny

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2010

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Vol. 58, nr 4

327-334

EN

The Upper Olenekian and Middle Triassic shallow water carbonates from Tatra Mts. were hitherto described using old, descriptive nomenclature only. Moreover, some sedimentological features were also misinterpreted, for example, fenestral structures were described mostly as organic ones. Authors carried out genetic reinterpretation of these sediments and selected sedimentological structures, which allow to apply modern terminology for the mentioned carbonate rocks. Generally, dolomites with fenestral structures are interpreted as early diagenetic sabkha dolomites with pseudomorphs after sulfates (gipsum, anhydrite). Fenestral structures in dedolomites are also interpreted as evaporite pseudomorphs while those developed in mudstones are interpreted as pseudomorphs after celestite. Dolosparites, earlier described as "sugar dolomites", are actually dolomitized calcarenites (grainstones and packstones).

6

Facies and sedimentary environment of the carbonate-dominated Carpathian Keuper from the Tatricum domain: results from the Dolina Smytnia valley (Tatra Mts, Southern Poland)

Jaglarz P.

Annales Societatis Geologorum Poloniae

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2010

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Vol. 80, No 2

147-161

EN

The paper focuses on an interpretation of sedimentary and early diagenetic environment in the carbonate-dominated uppermost Ladinian-Norian succession from the Tatricum domain of the Tatra Mountains as well as its controlling factors. Limestones with cherts are the product of pedogenic processes, formed during long-term exposures of carbonate substrate. Chalcedony cherts were formed during relatively early diagenesis of pedogenic limestones. Dolostones and dolomitic mudstones were deposited in a kind of salt marshes. Pseudomorphs after sulfates and absence of benthic fauna indicate increased salinity and intensive evaporation. Additionally, low TOC concentration suggests a low productivity in the basin. On the contrary, stable isotope signals indicate that the sedimentary environment was strongly affected by meteoric water. Moreover, 18O and concentration of Sr suggest that dolostones were formed under the influence of both marine and meteoric waters. Dolomitic mudstones could be deposited in a salt-marsh environment fed by distal sheet floods. Components of palynological material and organic compounds in black dolomitic mudstones indicate the terrestrial origin of organic matter. Dolomitic regoliths were formed as the result of subaerial exposure and karstification of dolostones. Coarse-grained siliciclastics and variegated mudstone are interpreted, respectively, as a fluvial channel and flood plain facies of ephemeric fluvial environment. Sedimentary environment of the Keuper sediments was controlled by two main factors: synsedimentary tectonic movements and climate changes. In the latest Ladinian, the Middle Triassic carbonate platform was emerged, what resulted in the development of palaeosols. Block tectonic movements affected the Tatricum Basin in Keuper time. Horsts were emerged, whereas troughs were filled with fluvial or salt marsh sediments. Intensive tectonic movements are suggested by seismic-generated slumps and abrupt facies changes. More intensive chemical weathering and intensive contribution of pure siliciclastics suggest climate pluvialization in late Ladinian-early Carnian time. On the contrary, domination of physical weathering indicates the aridization of climate in late Carnian?-Norian time. The upper Carnian?-Norian succession was formed in hot and semi-arid climate conditions. Long-term climate changes was masked by short-term climate fluctuations. Geochemical indicators suggest that dolostones represent more humid periods, whereas dolomitic mudstones relatively dry periods.

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Middle Triassic evolution of the Tatricum sedimentary basin : an attempt of sequence stratigraphy to the Wierchowa Unit in the Polish Tatra Mountains

Jaglarz P., Szulc J.

Annales Societatis Geologorum Poloniae

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2003

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Vol. 73, No 3

169-182

EN

The paper focuses on paleoenvironmental reconstruction and sequence stratigraphy of the Tatricum Basin for the late Scythian-Ladinian interval. The reconstruction is based on observations carried out in the Kominiarski Wierch section, situated in the Polish part of the Tatra Mts. Sedimentological and geochemical studies indicate that during middle Triassic time the Tatricum Basin was situated upon an isolated and restricted carbonate platform dominated by shallow water carbonate and evaporitic sedimentation. The basin was a tectonically stable area controlled by eustatic fluctuations. Incipient tectonic movements first occurred in late Ladinian time only. The studied sedimentary succession is composed of several stacked, shallowing-upward cycles that are interpreted as 3rd order depositional sequences. The constructed sedimentary sequence framework corresponds well with the sequence stratigraphic scheme of the Northern Alpine Triassic and enables a better chronostratigraphic resolution of the Triassic in the Tatra Mts.