Add to ORKGStudy of organic matter in immature sediments from a Messinian evaporitic basin shows that consideration of structures, modes of occurrence, and carbon isotopic compositions of free and sulfur-bound carbon skeletons allow identification of biochemical precursors. Detailed information concerning biotic communities present during deposition of sediments can be retrieved in this way. Moreover, unprecedented biochemicals were recognized; these extend the horizon of biomarker geochemistry
Reduced sulfur accumulation in Holocene and latest Pleistocene euxinic marine sediments from the Car...
Stable isotopic compositions of biologically important elements (e.g., C and S) in sedimentary rocks...
Microbial life below the seafloor has changed over geological time, but these changes are often not ...
Five immature sediments from a Messinian evaporitic basin, representing one evaporitic cycle, were s...
The work described in this thesis aims to decipher the biogeochemical information contained in sulph...
An approach to coordinated, spatially resolved, insitu carbon isotope analysis of organic matter and...
An approach to coordinated, spatially resolved, insitu carbon isotope analysis of organic matter and...
Sulfur isotopes display mass independent fractionation (MIF) according to pyrite morphology in some ...
The work described in this thesis aims to decipher the biogeochemical information contained in sulph...
The work described in this thesis aims to decipher the biogeochemical information contained in sulph...
The work described in this thesis aims to decipher the biogeochemical information contained in sulph...
The work described in this thesis aims to decipher the biogeochemical information contained in sulph...
An approach to coordinated, spatially resolved, in situ carbon isotope analysis of organic matter an...
Information on the depositional environment of sediments and sedimentary rocks can be obtained in se...
Information on the depositional environment of sediments and sedimentary rocks can be obtained in se...
Reduced sulfur accumulation in Holocene and latest Pleistocene euxinic marine sediments from the Car...
Stable isotopic compositions of biologically important elements (e.g., C and S) in sedimentary rocks...
Microbial life below the seafloor has changed over geological time, but these changes are often not ...
Five immature sediments from a Messinian evaporitic basin, representing one evaporitic cycle, were s...
The work described in this thesis aims to decipher the biogeochemical information contained in sulph...
An approach to coordinated, spatially resolved, insitu carbon isotope analysis of organic matter and...
An approach to coordinated, spatially resolved, insitu carbon isotope analysis of organic matter and...
Sulfur isotopes display mass independent fractionation (MIF) according to pyrite morphology in some ...
The work described in this thesis aims to decipher the biogeochemical information contained in sulph...
The work described in this thesis aims to decipher the biogeochemical information contained in sulph...
The work described in this thesis aims to decipher the biogeochemical information contained in sulph...
The work described in this thesis aims to decipher the biogeochemical information contained in sulph...
An approach to coordinated, spatially resolved, in situ carbon isotope analysis of organic matter an...
Information on the depositional environment of sediments and sedimentary rocks can be obtained in se...
Information on the depositional environment of sediments and sedimentary rocks can be obtained in se...
Reduced sulfur accumulation in Holocene and latest Pleistocene euxinic marine sediments from the Car...
Stable isotopic compositions of biologically important elements (e.g., C and S) in sedimentary rocks...
Microbial life below the seafloor has changed over geological time, but these changes are often not ...