Obtaining quantitative information about the timescales associated with sediment transport, storage, and deposition in continental settings is important but challenging. The uranium-series comminution age method potentially provides a universal approach for direct dating of Quaternary detrital sediments, and can also provide estimates of the sediment transport and storage timescales. (The word "comminution" means "to reduce to powder," reflecting the start of the comminution age clock as reduction of lithic parent material below a critical grain size threshold of ~50μm.) To test the comminution age method as a means to date continental sediments, we applied the method to drill-core samples of the glacially-derived Kings River Fan alluvial d...
High precision uranium isotope measurements of marine clastic sediments are used to measure the tra...
Uranium-trend dating is an open-system method for age estimation of Quaternary sediments, using dise...
The uranium-series isotope signatures of the suspended and dissolved load of rivers have emerged as ...
Obtaining quantitative information about the timescales associated with sediment transport, storage,...
Understanding how erosional and sediment transport processes have responded to past environmental ch...
Uranium-series (U-series) isotopes are fractionated in soils, sediments and natural waters by erosio...
The uranium isotope composition ( 234 U and 238 U) of detrital matter has become an essential tool f...
Quantifying the rates of landscape evolution in response to climate change is inhibited by the diffi...
Uranium isotope ratios have been determined for the fine-grained detrital fraction of Pleistocene Wi...
Uranium (U) isotopes are useful for constraining the timescales of weathering and erosion processes....
The time elapsed since detrital minerals were reduced to <63μm by weathering can be constrained by a...
The possibility of using the 15% excess U234 activity in oceanic uranium for dating pelagic sediment...
High precision uranium isotope measurements of marine clastic sediments are used to measure the tran...
© 2020 Elsevier Ltd Uranium (U) isotopes can be used to estimate the comminution age of sediments, i...
High precision uranium isotope measurements of marineclastic sediments are used to measure the trans...
High precision uranium isotope measurements of marine clastic sediments are used to measure the tra...
Uranium-trend dating is an open-system method for age estimation of Quaternary sediments, using dise...
The uranium-series isotope signatures of the suspended and dissolved load of rivers have emerged as ...
Obtaining quantitative information about the timescales associated with sediment transport, storage,...
Understanding how erosional and sediment transport processes have responded to past environmental ch...
Uranium-series (U-series) isotopes are fractionated in soils, sediments and natural waters by erosio...
The uranium isotope composition ( 234 U and 238 U) of detrital matter has become an essential tool f...
Quantifying the rates of landscape evolution in response to climate change is inhibited by the diffi...
Uranium isotope ratios have been determined for the fine-grained detrital fraction of Pleistocene Wi...
Uranium (U) isotopes are useful for constraining the timescales of weathering and erosion processes....
The time elapsed since detrital minerals were reduced to <63μm by weathering can be constrained by a...
The possibility of using the 15% excess U234 activity in oceanic uranium for dating pelagic sediment...
High precision uranium isotope measurements of marine clastic sediments are used to measure the tran...
© 2020 Elsevier Ltd Uranium (U) isotopes can be used to estimate the comminution age of sediments, i...
High precision uranium isotope measurements of marineclastic sediments are used to measure the trans...
High precision uranium isotope measurements of marine clastic sediments are used to measure the tra...
Uranium-trend dating is an open-system method for age estimation of Quaternary sediments, using dise...
The uranium-series isotope signatures of the suspended and dissolved load of rivers have emerged as ...