Markus Bott scite author profile

Markus Bott

5Publications

12Citation Statements Received

24Citation Statements Given

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Affiliations

Swiss Federal Institute of Aquatic Science and Technology

Publications

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Analysis of the Major Fe Bearing Mineral Phases in Recent Lake Sediments by EXAFS Spectroscopy

Spadini

Bott

Wehrli

et al. 2003

Aquatic Geochemistry

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Abstract. Extended X-ray absorption fine structure (EXAFS) spectroscopy and chemical analyses were combined to determine the Fe bearing minerals in recent lake sediments from Baldeggersee (Switzerland). The upper section of a laminated sediment core, deposited under eutrophic conditions, was compared to the lower part from an oligotrophic period. Qualitative analysis of FeK EXAFS agreed well with chemical data: In the oligotrophic section Fe(II)-O and Fe(III)-O species were present, whereas a significant fraction of Fe(II)-S sulfides was strongly indicated in the eutrophic part. A statistical analysis was performed by least square fitting of normalized reference spectra. The set of reference minerals included Fe(III) oxides and Fe(II) sulfides, carbonates and phosphates. In the oligotrophic regime no satisfying fit was obtained using the set of reference spectra, indicating that siderite (FeCO 3 ) was not present in a significant amount in these carbonate-rich sediments. Simulated EXAFS spectra for a (Ca x , Fe 1−x )CO 3 solid solution allowed reconstructing the specific features of the experimental spectra, suggesting that this phase was the dominant Fe carrier in the oligotrophic section of the core. In the eutrophic part, mackinawite was positively identified and represented the dominant Fe(II) sulfide phase. This finding agreed with chemical extraction, which indicated that 18-40 mol% of Fe was contained in the acid volatile iron sulfide fraction. EXAFS spectra of the eutrophic section were best fitted by considering the admixture of mackinawite and the Fe-Ca carbonate phase inferred to be predominant in the oligotrophic regime.

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Analysis and dating of Pb, Cd, Cu, Zn sediment profiles from the Vitznau basin of Lake Lucerne (Switzerland) / Analyse et datation de profils en Pb, Cd, Cu, Zn de sédiments lacustres provenant du lac des Quatre Cantons, Suisse (bassin de Vitznau)

Spadini¹,

Sturm²,

Wehrli³

et al. 2003

rga

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Two parallel sediment cores were recovered in the Vitznau basin of Lake Lucerne, Switzerland, were analysed for % dry weight and for Pb, Cd, Cu, Zn. The dry weight and the four metal profiles show two anomalies at 12 cm and at 39 cm core depth pointing to anomalous sedimentation events. The first anomaly (at 1 2 cm) can be related to the rock fall of the Biirgenstock at Obermatt which occurred in two phases in 1963 and 1964. The second anomaly (at 39 cm) is related to the slide of the Vitznau river in 1674. The mean sedimentation rates, obtained from these two events and the dry weight profiles are S1997.1964 = 0.041 g cm-2 y1 and S,962 .674 = °-025 g cm"2 Г1- The difference in the rates is supposedly primarily due to the deposition of organic matter related to eutro- phication which started in 1954. Before 1800 the metal profiles are constant and these concentrations are considered to represent pre-industrial geochemical background concentrations: 37.9 ±1.8 mg/kg for Pb, 0.53 ±0.10 mg/kg for Cd, 33.0 ± 2.6 mg/kg for Cu, and 103.9 ±5.5 mg/kg for Zn. From 1800 up to 1950 all four metal concentrations increase exponentially and decrease from 1970 onwards to recent days. We consider these curves as related to the increasing diffusive emission of heavy metals in the environment during industrial development and the subsequent efforts of the post-industrial society to limit this pollution. Maximum measured metal concentrations increased by 3.5 (Pb), 3.8 (Cd), 1.7(Cu) and 2.0 (Zn) times relative to natural background concentrations. The relative late decrease of Pb concentration in the profiles, starting around 1975, relates to the ban of leaded gasoline in Switzerland. Actual metal concentrations are still far above the natural background levels.

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Zeche Nordstern: Aufstockung Schacht II

Dietz¹,

Bott²

2011

Stahlbau

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Die Zeche Nordstern in Gelsenkirchen‐Heßler wurde 1868 als erste Zeche nördlich der Emscher errichtet. In den Jahren 1926/27 und 1930 erweiterten die Architekten Kremmer und Schupp die Zeche in der ihnen eigenen funktionalen Architektur, welche schon das Bild der benachbarten Zeche Zollverein prägt. Der Förderturm Schacht II wurde 1951 nach der Planung von Fritz Schupp als Stahlfachwerkkonstruktion mit einer vorgeblendeten Mauerwerksfassade gebaut. Die historische Aufnahme (Bild 1) zeigt den Förderturm Schacht II während der Bauphase. Der gesamte Stahlbau wurde nicht gegen Korrosion geschützt, man ging davon aus, dass nach Ende der Kohleförderung der Schacht abgebaut wird. Aus diesem Schacht wurde bis zum Jahre 1993 Steinkohle aus bis zu 1000 m Tiefe gefördert.Der Beitrag beschreibt die Aufstockung von fünf Etagen auf den bestehenden 62 m hohen Schacht II und die Errichtung des zugehörigen Erschließungsbauwerkes. Die Aufstockung gliedert sich wie folgt: Die Ebene auf 64,78 m ist als Konferenzbereich geplant, die oberen drei Ebenen werden zu Büroetagen ausgebaut. In der bisherigen Dachebene des Schachtes II, am Übergang von Bestand zur Aufstockung, wurde ein Splitlevel als Verteiler‐ und Technikebene angeordnet. Dieses ist wie folgt aufgebaut: Die Ebene auf 61,61 m ist eine Technikebene mit Lamellenfassade; der tiefer liegende Bereich auf 57,94 m ist ein Auditorium, welches als Kubus in den ehemalige 10 m hohen Maschinenraum eingehängt ist. Ein für dieses Hochhaus notwendiges Erschließungsbauwerk aus Stahlbeton wurde vor der Ostwand des Bestandsturmes errichtet. Nach der Aufstockung hat das Bauwerk eine Höhe von 84 m. Auf dem Dach, in einer Höhe von 80,38 m, befindet sich eine öffentlich zugängliche Terrasse.

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Sequential Extraction and EXAFS Measurements on Fe and S Mineral Phases in Lake Sediments

Bott¹

1998

Mineralogical Magazine

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Iron Sulfides in Baldeggersee during the last 8000 Years: Formation Processes, Chemical Speciation and Mineralogical Constraints from EXAFS Spectroscopy

Bott¹

2002

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Markus Bott

Analysis of the Major Fe Bearing Mineral Phases in Recent Lake Sediments by EXAFS Spectroscopy

Analysis and dating of Pb, Cd, Cu, Zn sediment profiles from the Vitznau basin of Lake Lucerne (Switzerland) / Analyse et datation de profils en Pb, Cd, Cu, Zn de sédiments lacustres provenant du lac des Quatre Cantons, Suisse (bassin de Vitznau)

Zeche Nordstern: Aufstockung Schacht II

Sequential Extraction and EXAFS Measurements on Fe and S Mineral Phases in Lake Sediments

Iron Sulfides in Baldeggersee during the last 8000 Years: Formation Processes, Chemical Speciation and Mineralogical Constraints from EXAFS Spectroscopy

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