The Scanning Electron Microscope (SEM) has been used to examine sediment surfaces since the late 1960’s. More recently, results of SEM analyses of grains have been used to link depositional environments and modes of transport for sediments and sandstones (Krinsely and Trusty, 1986; Mahaney and Kalm 2000; Mahaney et al., 2001). This technique has been considered to be a viable, though time consuming, option for researchers interpreting depositional environments. V-pits are a microfeature which is claimed to indicate a littoral deposition environment (Krinsley and Trusty, 1986; Middleton and Kassera, 1987), while others claim it is a result of fluvial processes and deposition (Mahaney and Kalm, 2000; Mahaney et al., 2001; Mahaney, 2002; St...
Quantitative scanning electron microscopy (SEM) quartz microtextural analysis can reveal the transpo...
A scanning electron microscopy analysis was performed for 570 quartz grains from desert and coastal ...
In field studies of the late Tertiary Ash Hollow Formation of the Ogallala Group in western Nebraska...
Sand grain surface textures were examined from modern Nile Delta coastal deposits of known origin th...
Surface microtextures on quartz grains provide an insight into the sedimentary history of clastic se...
Africa, the 'Mega Kalahari', extending far beyond the Kalahari Desert of today. Relic aeol...
The shape and surficial microtextures of sand grains can be aid in the interpretation of major trans...
A major limiting factor in efforts to develop a predictive capability for the distribution of clay-c...
Author Institution: Department of Geology, The Ohio State University, Columbus, Ohio 43210Electron m...
Grain-size distribution is a fundamental tool for interpreting sedimentary units within depositional...
The use of scanning electron microscopy (SEM) has allowed the viewing of the surfaces of silt and sa...
This study demonstrates the validity of using vertical grain size progressions as an environmental i...
I n general, sand grains should be cleaned of surface debris by ultrasonoratlon before the individua...
Sediments from Mars-analog, basaltic, aeolian (Moses Lake dunes, WA) and fluvial (Death Valley regio...
Using sieving and sample ‘‘unknowns’’ for instructional grain-size analysis and interpretation of sa...
Quantitative scanning electron microscopy (SEM) quartz microtextural analysis can reveal the transpo...
A scanning electron microscopy analysis was performed for 570 quartz grains from desert and coastal ...
In field studies of the late Tertiary Ash Hollow Formation of the Ogallala Group in western Nebraska...
Sand grain surface textures were examined from modern Nile Delta coastal deposits of known origin th...
Surface microtextures on quartz grains provide an insight into the sedimentary history of clastic se...
Africa, the 'Mega Kalahari', extending far beyond the Kalahari Desert of today. Relic aeol...
The shape and surficial microtextures of sand grains can be aid in the interpretation of major trans...
A major limiting factor in efforts to develop a predictive capability for the distribution of clay-c...
Author Institution: Department of Geology, The Ohio State University, Columbus, Ohio 43210Electron m...
Grain-size distribution is a fundamental tool for interpreting sedimentary units within depositional...
The use of scanning electron microscopy (SEM) has allowed the viewing of the surfaces of silt and sa...
This study demonstrates the validity of using vertical grain size progressions as an environmental i...
I n general, sand grains should be cleaned of surface debris by ultrasonoratlon before the individua...
Sediments from Mars-analog, basaltic, aeolian (Moses Lake dunes, WA) and fluvial (Death Valley regio...
Using sieving and sample ‘‘unknowns’’ for instructional grain-size analysis and interpretation of sa...
Quantitative scanning electron microscopy (SEM) quartz microtextural analysis can reveal the transpo...
A scanning electron microscopy analysis was performed for 570 quartz grains from desert and coastal ...
In field studies of the late Tertiary Ash Hollow Formation of the Ogallala Group in western Nebraska...
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