Carbonate Neoformations on Modern Buildings and Engineering Structures in Tyumen City, Russia: Structural Features and Development Factors

Novoselov, Andrey; Konstantinov, Alexandr; Leonova, L. V.; Соктоев, Булат Ринчинович; Morgalev, Sergey

doi:10.3390/geosciences9030128

Cited by 5 publications

(8 citation statements)

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“…The layer varies between 30-90 μm, which is in good agreement with other literature report [39]. By brushing, the layer is thickened, as SEM images shown (Figure 10a-d).…”

Section: Discussionsupporting

confidence: 91%

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Ion-Substituted Carbonated Hydroxyapatite Coatings for Model Stone Samples

et al. 2019

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Carbonated hydroxyapatite derivatives (CHAp) and its metallic derivatives (Ag, Sr, Ba, K, Zn) have been prepared and characterized in this paper and their coating capacity on some model stone samples have been evaluated and discussed. These compounds were characterized by using several analytical tools, including X-ray diffraction analysis (XRD), thermogravimetric analysis (TGA), Fourier transform infrared spectroscopy (FTIR), to determine the purity of the CHAp sample. The XRD and FTIR results confirmed the presence of AB-carbonated type CHAp. The thermal analysis (TGA) established two stages of weight loss that occured during the heating process: The first weight loss between 30–225 °C corresponding to the partial carbonate release from OH-channel and the second one between 226–700 °C, corresponding to some thermal reactions, possibly to the generation of calcium phosphate. The efficiency and suitability of these products on model stone samples were evaluated by monitoring the resistance to artificial weather (freeze–thaw), and pore structure changes (surface area, pore volume, pore diameter). Meanwhile, optical microscopy (OM) and Scanning Electron Microscopy with Energy Dispersive Spectroscopy (SEM–EDS) techniques showed the particles size and surface morphology of the samples, as well as information on its chemical composition. Also, the compressive strength of these new compounds as coatings revealed a homogeneity and strengthen of these model stone samples.

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“…The layer varies between 30-90 μm, which is in good agreement with other literature report [39]. By brushing, the layer is thickened, as SEM images shown (Figure 10a-d).…”

Section: Discussionsupporting

confidence: 91%

“…The layer thickness of the other consolidants is very thin, between 8-10 μm, this being a possible reason for the low efficacy of them. The layer varies between 30-90 µm, which is in good agreement with other literature report [39]. By brushing, the layer is thickened, as SEM images shown (Figure 10a-d).…”

Section: Discussionsupporting

confidence: 91%

Ion-Substituted Carbonated Hydroxyapatite Coatings for Model Stone Samples

et al. 2019

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“…Field observations are a characteristic, distinguishing method in geological studies and previously I have alluded to the example of how Lyell [6] highlighted the importance of field observations in refuting Werner theory about the genesis of igneous rocks. The paper presented in this special issue by Novoselov et al [12] presents extensive field studies asserting the frequency and diversity of carbonate neoformations but goes significantly further with laboratory studies that show how studies in the built environment can contribute to the discussion of some fundamental issues of geosciences (in this case, mineral genesis). The hypothesis proposed by the authors on the biological contribution must be highlighted given the present interest in biomineralization, namely of calcium carbonate.…”

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confidence: 95%

“…Indeed, one can argue that in the same way that there are patterns of speciation specific for organisms in the urban environments [11], there are undesigned crystal-forming processes that could be specific to the urban environment. The interactions between building materials and weathering agents contribute to the formation of products that are chemically and structurally similar to mineral species found outside the built environment, and the paper by Novoselov et al [12] presents a very detailed study of carbonate neoformations. My research has also involved this kind of products and indeed in a 2017 publication [13] based on extensive field observations, we concluded that they were the most extensive alteration feature in recent structures as they can occur in outside and inside places (some underground stations of Lisbon and Porto Metro systems in Portugal present easily observable examples).…”

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confidence: 99%

“…The hypothesis proposed by the authors on the biological contribution must be highlighted given the present interest in biomineralization, namely of calcium carbonate. There is extensive research on fast forming forms of calcium carbonate, precursors of calcite, which can be of interest also in terms of carbon sequestration, and the study of Boch et al [14] showed the fast formation of ikaite in built structures (in conditions with some geochemical affinities with those studied by Novoselov et al [12]). The present year even saw the publication in the journal Science of the proposal of a new hemihydrate calcium carbonate found in laboratory experiments [15].…”

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confidence: 99%

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A Two-Way Avenue of Knowledge: An Editorial for the Special Issue “Geoscience of the Built Environment 2019 Edition”

Alves

2019

Geosciences

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This editorial presents the papers published in the 2019 edition of this series of special issues in the context of the contribution of geological studies to the development of knowledge on the built environment (namely materials) and in the opposite sense, that is the potential contribution of studies of the Built Environment to geoscientific knowledge. This is discussed considering the major framework of the Anthropocene.

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Semiarid Lakes of the Southwestern Siberia as Sentinels of On-going Climate Change: Hydrochemistry, Carbon Cycle, and Modern Carbonate Mineral Formation

Novoselov,

Konstantinov,

Konstantinova

et al. 2023

Preprint

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Towards better understanding of factors controlling carbon (C) exchange between inland waters and atmosphere, we addressed inorganic carbon cycle in semi-arid lakes of Central Eurasia, subjected to strong impact of on-going climate change. For this, we assessed the hydrochemical vari-ability and quantified its control on formation of authigenic carbonate minerals, occurring within the upper layer of sediments in 43 semiarid lakes located in the southwest of Western Siberia (Central Eurasia). Based on measurements of pH, total dissolved solids (TDS), cationic and anionic composition, dissolved organic and inorganic C, as well as textural and mineralogical characterization of bottom sediments using X-ray diffraction and scanning electron microscopy, we demonstrate that lake water pH and TDS are primarily controlled by both lithological and climatic context of the lake watershed. We have not revealed any direct relationships between lake morphology and water chemistry. The most common authigenic carbonates scavenging atmospheric CO2 in the form of insoluble minerals in lake sediments were calcite, aragonite, Mg-calcite, dolomite and hydro-magnesite. The calcite was the most common component, aragonite mainly appears in lakes with sediments enriched in gastropod shells or artemia cysts, while hydromagnesite was most common in lakes with high Mg/Ca molar ratios, as well at high DIC concentrations. The relationships between mineral formation and water chemistry established in this study can be generalized to a wide suite of arid and semi-arid lakes in order to characterize current status of inorganic C cycle and predict its possible modification under on-going climate warming such as water temperature rise and change of hydrological connectivity, primary productivity and nutrient regime.

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Carbonate Neoformations on Modern Buildings and Engineering Structures in Tyumen City, Russia: Structural Features and Development Factors

Cited by 5 publications

References 32 publications

Ion-Substituted Carbonated Hydroxyapatite Coatings for Model Stone Samples

Ion-Substituted Carbonated Hydroxyapatite Coatings for Model Stone Samples

A Two-Way Avenue of Knowledge: An Editorial for the Special Issue “Geoscience of the Built Environment 2019 Edition”

Semiarid Lakes of the Southwestern Siberia as Sentinels of On-going Climate Change: Hydrochemistry, Carbon Cycle, and Modern Carbonate Mineral Formation

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