These data include carbon, oxygen and clumped isotope compositions of shells of natural populations of three land snail species (Clausilia pumila, Succinella oblonga and Trochulus hispidus) across Europe. δ¹³C, δ¹⁸O and Δ₄₇ values of snail shells from field-collections were determined in two laboratories (Institute for Nuclear Research, Debrecen, and Geological Institute, ETH Zürich) using IRMS. Detailed analysis and interpretations of the results obtained can be read in the original publication.
The Kupferschiefer districts in Central Europe contain some of the world’s highest-grade sediment-hosted stratiform Cu (SSC) deposits (see Borg et al., 2012). The high-grade sulfide mineralization in the organic matter-rich marine mudstones of the Kupferschiefer (T1), and also in the underlying continental sandstones of the uppermost Rotliegend (S1) and overlying Zechstein Limestone (Ca1), in the Saale subbasin (Eastern Germany) are dominantly formed as a replacement of calcite cement (Mohammedyasin et al., 2023). We provide carbonate major element chemistry, carbon isotope composition of organic matter, and calcite carbon and oxygen isotope microanalysis datasets of drill core samples from the Saale subbasin in Eastern Germany. The samples include the uppermost Rotliegend sandstone (S1), Kupferschiefer (T1) mudstones and lowermost Zechstein Limestone (Ca1), referred as the Kupferschiefer system, from three drill cores (Sangerhausen, Allstedt and Wallendorf). For further details, see Mohammedyasin et al. (Chemical Geology, when available).
These data include site information and collection dates of land snails (Clausilia pumila, Succinella oblonga, Trochulus hispidus), meteorological data of collection sites using the ClimateEU software, as well as carbon, oxygen and clumped isotope compositions of snail shells of the mentioned three species from culturing experiments and natural populations across Europe. During the laboratory experiments at the University of Lodz (Poland) individuals of the three species were kept at 12, 18 and 24 °C temperatures in climate chambers, fed exclusively by fresh lettuce and humidity was controlled using tap water (δ¹⁸O: -9.29 ±0.52 ‰, V-SMOW). δ¹³C, δ¹⁸O and Δ₄₇ values of snail shells from lab experiments and field-collections were determined in two laboratories (Institute for Nuclear Research, Debrecen, and Geological Institute, ETH Zürich) using IRMS. Detailed analysis and interpretations of the results obtained can be read in the original publication.
Soils were sampled from 27 sites in western Eurasia during 2016 and 17 sites in northeastern Australia during 2017. Triplicate replicate microcosm incubations were created from homogenised soil from each site. The net soil-atmosphere exchange of carbon dioxide and its oxygen and carbon isotope composition between the soil and atmospheric was measured under two different headspace conditions using a custom built gas-exchange system. Subsequently the pH, microbial biomass and the availability of ammonium and nitrate were determined for incubated soils. An additional fertlisation experiment, consisting of a 0.7 mg addition of ammonium nitrate per gram of dry soil, was conducted on soils from 14 sites. The data from these incubations are reported along with the characteristics of the original sampling sites.
The first table provide data on the meteorological conditions of the sites where land snails were collected, and the calculated stable oxygen isotope compositions of local rainwater.
We provide a globally distributed compilation of published surface temperature proxies for eight Cenozoic time periods that cover the range of paleoclimate states. The proxies have both a marine and terrestrial provenance and are compared to the annual temperature of the same location today. This data is then used to quantify long-term temperature changes on zonal and global levels. When coupled with recent estimates of atmospheric CO2 concentration, temperature data constrains the sensitivity of Earth's climate system to perturbation of the radiative balance, with possible implications for the future response to anthropogenic forcing. The dataset consists of an excel file with eight sheets for the eight selected timeslices, namely, • mid-Pliocene (3,0 - 3,3 Ma) • late Miocene (7,2 - 11,6 Ma) • mid-Miocene (14,7 - 17,0 Ma) • early Miocene (20,3 - 23,0 Ma) • early Oligocene (27,8 - 33,9 Ma) • late Eocene (33,9 - 37,8 Ma) • middle Eocene (42 - 46 Ma) • early Eocene (48 - 55 Ma)
Earth's climate sensitivity – defined as the temperature increase for a doubling of pCO2 – and the mechanisms responsible for amplification of high latitude warming remain controversial. The latest Paleocene/earliest Eocene (LPEE; 57-55 million years ago) is a time when pCO2 peaked between 1400 and 4000 ppm, which allows us to evaluate the climatic response to high pCO2. Here, we present a reconstruction of continental temperatures and oxygen isotope compositions of precipitation – reflective of specific humidity – based on clumped and oxygen isotope analysis of pedogenic siderites. We show that continental mean annual temperature reached 41 °C in the equatorial tropics, and summer temperatures reached 23 °C in the Arctic. The oxygen isotope compositions of precipitation reveal that compared to the present-day the hot LPEE climate was characterized by an increase in specific humidity and the average residence time of atmospheric moisture and by a decrease in the subtropical-to-polar specific humidity gradient. The global increase in specific humidity reflects the fact that atmospheric vapor content is more sensitive to changes in pCO2 than evaporation and precipitation, resulting in an increase in the residence time of moisture in the atmosphere. Pedogenic siderite data from other super-greenhouse periods support the evidence that the spatial patterns of specific humidity and warmth are related providing new means to evaluate Earth's climate sensitivity.
Die natürliche Umwelt des Alpenraumes reagiert sehr sensitiv auf Änderungen von Temperatur und Niederschlag wie der aktuelle Gletscherrückgang, verursacht durch die gegenwärtige Erwärmung, beweist. Gletscher werden schon seit vielen Jahrzehnten zur Analyse der holozänen Klimaentwicklung herangezogen. Funde von Holzresten langlebiger Bäume führten jedoch in den letzten Jahren zu einer Änderung der Vorstellungen über die holozäne Gletscher- und damit auch Klimavariabilität in den Alpen. Inhalt und Ziel des Forschungsprojekts Dieses Projekt zielt auf die Verbesserung des Kenntnisstandes zur holozänen Umwelt- und natürlichen Klimavariabilität ab. Dazu sollen erstmals hochaufgelöste, mehrtausendjährige Proxy-Zeitreihen stabiler Isotope unter Heranziehung von Holzmaterial aufgebaut und diese mit anderen Proxy-Reihen ähnlicher Auflösung verglichen werden. Folgende Ziele verfolgt diese Projekt: i) Aufbau von erstmals mehrtausendjährigen Zeitreihen für die stabilen Isotope C, O und H, basierend auf kalenderdatierten, jeweils 5 Jahrringe umfassenden Holzproben, sowie Durchführung von Spätholzdichte (blue intensity) Messungen am selben Material; ii) Erfassung der natürlichen holozänen Klimasensitivität und -variabilität durch die Analyse von Jahrringmaterial aus Klima-Optima als auch aus kühlen Perioden basierend auf einem Multi-Proxy-Ansatz (stabile Isotope, Jahrringbreite, maximale Spätholzdichte) - höchste Aufmerksamkeit bekommt dabei das gut dokumentierte 8.2 ka BP Ereignis; iii) Überprüfung der zeitlichen Stabilität der Übereinstimmung sowie der Sensitivität unserer neuen Proxy-Zeitreihen mit anderen hochaufgelösten Reihen stabiler Isotope aus dem Alpenraum sowie aus Grönland; und iv) Einsatz dieser Sensitivitäten für die Verbesserung des gegenwärtig limitierten Verständnisses für den Einbau von Wasserisotopen in Pflanzenmaterial. Wissenschaftlicher und gesellschaftlicher Kontext des Forschungsprojekt Das Wissen über Klima- und Umweltveränderungen ist zentral um Anpassungs- und Änderungsszenarien in allen Bereichen unseres Lebens zu entwickeln. Insbesondere gilt es lokale bis regionale Veränderungen zu dokumentieren und zu verstehen, um gezielte Anpassungsstrategien zu den erwartenden Veränderungen zu schärfen und zu optimieren. Mittels dieses Projekts rekonstruieren wir die Variationen der Gletscher als auch der lokalen bis regionalen Klimaparameter wie Temperatur, Niederschlag der letzten Jahrtausende anhand der Baum-Chronologie und stellen sie in Vergleich zu den heutigen Veränderungen.
The redox-sensitive metals Mn, Fe, U, Re, Mo, and V and sulfur cycling were studied within the subterranean estuary of a sand beach on Spiekeroog Island, Northern Germany. Pore water samples were obtained along a cross-shore transect down to 5 m below the sediment surface. Redox conditions range from oxic, close to the base of the dune, to sub- to anoxic towards the low water line. We could show that biogeochemical processes alter not only the pore water concentrations of the trace metals, but are also reflected by the O isotope- and to a minor degree the S isotope composition of dissolved sulfate. Seawater circulation through sediments of the upper beach (duneward part of the intertidal zone) removes U and V from solution, but serves as a source for Mn, Fe, Re, and Mo to the ocean. Pore water discharging from a berm close to the low water line exhibits lower U, V, and Re concentrations than adjacent seawater. This part of the beach thus serves as a sink for U, V, and Re, but as a source for Mn, Fe, and Mo. No significant Mo depletion is found in the pore water, due to the lack of dissolved sulfide.
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