His primary areas of investigation include Sedimentary rock, Geochemistry, Oil shale, Mars Exploration Program and Flume. His research in Sedimentary rock is mostly focused on Clastic rock. His study in Clastic rock is interdisciplinary in nature, drawing from both Geologic record and Terrigenous sediment.
His work in the fields of Geochemistry, such as Outcrop, intersects with other areas such as Bedding. The Oil shale study combines topics in areas such as Sedimentary depositional environment, Sedimentology, Petrography and Diagenesis. His Rocknest and Mars Hand Lens Imager study, which is part of a larger body of work in Mars Exploration Program, is frequently linked to Bayer filter, bridging the gap between disciplines.
Juergen Schieber mainly investigates Geochemistry, Mars Exploration Program, Diagenesis, Paleontology and Oil shale. His Geochemistry research includes themes of Sedimentary depositional environment and Geomorphology. His Mars Exploration Program research includes elements of Outcrop and Fluvial.
His Diagenesis study combines topics in areas such as Compaction and Petrology. His Oil shale study also includes fields such as
His primary scientific interests are in Geochemistry, Oil shale, Mars Exploration Program, Sedimentary rock and Gale crater. His research integrates issues of Bedrock, Composite number and Source rock in his study of Geochemistry. His Oil shale research is multidisciplinary, relying on both Organic matter, Cretaceous, Clay minerals, Maceral and Devonian.
His studies deal with areas such as Sedimentary depositional environment, Paleontology and Ridge as well as Mars Exploration Program. His work on Outcrop, Sequence and Facies as part of general Paleontology study is frequently connected to Bedding, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. Juergen Schieber focuses mostly in the field of Sedimentary rock, narrowing it down to matters related to Igneous rock and, in some cases, Olivine and Basalt.
Juergen Schieber mostly deals with Mars Exploration Program, Geochemistry, Sedimentary rock, Sedimentary depositional environment and Diagenesis. He studies Mars Exploration Program, namely Gale crater. His research investigates the connection between Geochemistry and topics such as Martian that intersect with problems in Sedimentary structures, Grain size and Lithology.
The concepts of his Sedimentary rock study are interwoven with issues in Sedimentology, Sulfate minerals, Fluvial and Hesperian. His Sedimentary depositional environment research is multidisciplinary, incorporating perspectives in Outcrop and Facies. His studies in Diagenesis integrate themes in fields like Biogeochemical cycle, Early Earth, Vivianite, Phosphate minerals and Weathering.
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A habitable fluvio-lacustrine environment at Yellowknife Bay, Gale crater, Mars.
J. P. Grotzinger;D. Y. Sumner;L. C. Kah;K. Stack.
Deposition, exhumation, and paleoclimate of an ancient lake deposit, Gale crater, Mars.
J.P. Grotzinger;S. Gupta;M. C. Malin;D.M. Rubin.
Accretion of Mudstone Beds from Migrating Floccule Ripples
Juergen Schieber;Juergen Schieber;John Southard;John Southard;Kevin Thaisen;Kevin Thaisen.
Volatile and organic compositions of sedimentary rocks in Yellowknife Bay, Gale crater, Mars.
Douglas W. Ming;P. D. Archer;D. P. Glavin;J. L. Eigenbrode.
Capturing Key Attributes of Fine-Grained Sedimentary Rocks In Outcrops, Cores, and Thin Sections: Nomenclature and Description Guidelines
O. Remus Lazar;Kevin M. Bohacs;Joe H. S. Macquaker;Juergen Schieber.
Journal of Sedimentary Research (2015)
Microbial mats in terrigenous clastics; the challenge of identification in the rock record
Common Themes in the Formation and Preservation of Intrinsic Porosity in Shales and Mudstones – Illustrated With Examples Across the Phanerozoic
SPE Unconventional Gas Conference (2010)
Atlas of microbial mat features preserved within the siliciclastic rock record
Juergen Schieber;Pradip K. Bose;Patrick G. Eriksson;Santanu Banerjee.
Curiosity’s Mars Hand Lens Imager (MAHLI) Investigation
Kenneth S. Edgett;R. Aileen Yingst;Michael A. Ravine;Michael A. Caplinger.
Space Science Reviews (2012)
Bedload transport of mud by floccule ripples—Direct observation of ripple migration processes and their implications
Juergen Schieber;John B. Southard.
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