Kölcsönösen átjárható városi, – és elővárosi vasúti rendszerek globális forgalmi hatásainak komplex vizsgálata

Molnár, L.; Vinkó, Ákos; Vasvári, Gergely

doi:10.36246/ul.2021.1.02

Cited by 2 publications

(4 citation statements)

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“…According to the mining data [18], the Dezső Rezső Valley is placed almost perpendicularly to the dip of the iron ore body, which continues in the southern direction from the valley [18] (p. 189) (Figure 2) beneath the plowland beyond a further 200 m. Occasionally, spring or autumn plowing delivers blocks from the lower soil. In this way, we collected these samples in the field (Figure 6).…”

Section: Dezső Rezső Valley Outcropsmentioning

confidence: 99%

“…The tiny depositional iron ore body at Zengővárkony (Mecsek Mountains, South Hungary) was discovered by Mr. Rezső Dezső, a private entrepreneur who made magnetic inclination measures in the 1930s. After World War II, the Hungarian State opened an ore mine that produced approximately 24,850 tons of iron ore between 1954 and 1956 [18]. Scientific research has also started [19], and a rich microfossil content was reported by [20].…”

Section: Introductionmentioning

confidence: 99%

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Bacteria-Driven Fossil Ecosystems as Paleoindicators of Active Continental Margins and the Role of Carbonate Sediment-Hosted Vents in Geodynamic Reconstructions

Bujtor,

Gyollai,

Szabó

et al. 2024

Minerals

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Continental rifting of the Tisza microplate started during the Late Jurassic and resulted in phreatic eruptions, peperite, and the construction of a volcanic edifice in the Early Cretaceous in the Mecsek Mountains (South Hungary). In the SE direction from the volcanic edifice at Zengővárkony, a shallow marine (depth 100–200 m) carbonate sediment hosted a vent environment, and iron ore deposition occurred at the end of the Valanginian to early Hauterivian, hosting a diverse, endemic fauna of approximately 60 species. The detailed mineralogical analysis of the transport conduits included Fe oxides (ferrihydrite, goethite, hematite, and magnetite), quartz, mixed carbonate, pyrite, feldspar, Fe-bearing clay minerals, apatite, sulfates (barite, gypsum, and jarosite), and native sulfur. Filamentous, microbially mediated microtextures with inner sequented, necklace-like spheric forms (diameter of 1 μm) and bacterial laminae are also observed inside decapod crustacean coprolites (Palaxius tetraochetarius) and in the rock matrix. This complex ecological and mineralogical analysis provided direct evidence for the presence of bacteria in fossil sediment-hosted vent (SHV) environments on the one hand and for the intimate connection between bacteria and decapod crustaceans in hydrothermal environments 135 Ma before. This observation completes the fossil food chain of chemosynthesis-based ecosystems, from primary producers to the top carnivores reported for the first time from this locality.

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Section: Dezső Rezső Valley Outcropsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Bacteria-Driven Fossil Ecosystems as Paleoindicators of Active Continental Margins and the Role of Carbonate Sediment-Hosted Vents in Geodynamic Reconstructions

Bujtor,

Gyollai,

Szabó

et al. 2024

Minerals

View full text Add to dashboard Cite

show abstract

“…According to the mining data (Molnár 1961) the Dezső Rezső Valley is placed almost perpendicular to the dipping of the iron ore body that continues in southern direction from the valley (Molnár 1961 p.…”

Section: Hydrothermal Deposits (Figs 3-4)mentioning

confidence: 99%

“…His mining licence was confiscated and the Hungarian State opened the ore mine in the 1950s. Parallel to the mining activity, that produced some 24,850 tons of iron-ore between 1954 and 1956 (Molnár 1961) the scientific research also has started (Sztrókay 1952). Rich microfossil content from the cover of the ore body was reported by Pantó et al (1955).…”

Section: Introductionmentioning

confidence: 99%

Bacteria driven fossil ecosystems as indicator of active continental margins in the geological past. Usefulness of carbonate sediment hosted vent environments in geodynamic reconstructions

Bujtor

Gyollai

Szabó

et al. 2023

Preprint

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Continental rifting of the Tisza microplate has started during the Late Jurassic that resulted phreatic eruptions, peperites, and built up a volcanic edifice in the Early Cretaceous of the Mecsek Mountains (South Hungary). In SE direction from the volcanic edifice at Zengővárkony a shallow marine (depth 100 – 200 m) carbonate sediment hosted vent environment and iron-ore deposition occurred at end Valanginian too early Hauterivian hosting a diverse, endemic fauna of around 60 species. Detailed mineralogical analysis of the transport channels include Fe oxides (ferrihydrite, goethite, hematite, magnetite), quartz, mixed carbonate, pyrite, feldspar, Fe-bearing clay minerals, apatite, sulphates (barite, gypsum, jarosite) and native sulphur. Filamentous, microbially mediated microtexture with inner sequented, necklace-like spheric forms (diameter 1 μm) and bacterial laminae are observed inside the decapod crustacean coprolites (Palaxius tetraochetarius) and in the rock matrix, too. This complex, ecological and mineralogical analysis provided direct evidence for the presence of bacteria at fossil SHV environments on one hand, and the intimate connection between bacteria and decapod crustaceans at hydrothermal environments 135 Ma before. This observation completes this chemosymbiotic fossil food chain from the primary producers to the top carnivores reported for the first time from this locality.

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Kölcsönösen átjárható városi, – és elővárosi vasúti rendszerek globális forgalmi hatásainak komplex vizsgálata

Cited by 2 publications

References 0 publications

Bacteria-Driven Fossil Ecosystems as Paleoindicators of Active Continental Margins and the Role of Carbonate Sediment-Hosted Vents in Geodynamic Reconstructions

Bacteria-Driven Fossil Ecosystems as Paleoindicators of Active Continental Margins and the Role of Carbonate Sediment-Hosted Vents in Geodynamic Reconstructions

Bacteria driven fossil ecosystems as indicator of active continental margins in the geological past. Usefulness of carbonate sediment hosted vent environments in geodynamic reconstructions

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