date: 2019-03-29T06:55:34Z
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pdf:docinfo:title: History-Dependent Threshold for Motion Revealed by Continuous Bedload Transport Measurements in a Steep Mountain Stream
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subject: Hydrology and Land Surface Studies; BIOGEOSCIENCES: Riparian systems; CRYOSPHERE: Rivers; GLOBAL CHANGE: Geomorphology and weathering; HYDROLOGY: Geomorphology: fluvial, Sediment transport, Erosion, River channels, Time series analysis; INFORMATICS: Temporal analysis and representation; MATHEMATICAL GEOPHYSICS: Time series analysis; OCEANOGRAPHY: GENERAL: Time series experiments; NONLINEAR GEOPHYSICS: Scaling: spatial and temporal; OCEANOGRAPHY: PHYSICAL: Sediment transport
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dc:title: History-Dependent Threshold for Motion Revealed by Continuous Bedload Transport Measurements in a Steep Mountain Stream
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cp:subject: Hydrology and Land Surface Studies; BIOGEOSCIENCES: Riparian systems; CRYOSPHERE: Rivers; GLOBAL CHANGE: Geomorphology and weathering; HYDROLOGY: Geomorphology: fluvial, Sediment transport, Erosion, River channels, Time series analysis; INFORMATICS: Temporal analysis and representation; MATHEMATICAL GEOPHYSICS: Time series analysis; OCEANOGRAPHY: GENERAL: Time series experiments; NONLINEAR GEOPHYSICS: Scaling: spatial and temporal; OCEANOGRAPHY: PHYSICAL: Sediment transport
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pdf:docinfo:subject: Hydrology and Land Surface Studies; BIOGEOSCIENCES: Riparian systems; CRYOSPHERE: Rivers; GLOBAL CHANGE: Geomorphology and weathering; HYDROLOGY: Geomorphology: fluvial, Sediment transport, Erosion, River channels, Time series analysis; INFORMATICS: Temporal analysis and representation; MATHEMATICAL GEOPHYSICS: Time series analysis; OCEANOGRAPHY: GENERAL: Time series experiments; NONLINEAR GEOPHYSICS: Scaling: spatial and temporal; OCEANOGRAPHY: PHYSICAL: Sediment transport
pdf:docinfo:creator: Claire C. Masteller, Noah J. Finnegan, Jens M. Turowski, Elowyn M. Yager, Dieter Rickenmann
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Author: Claire C. Masteller, Noah J. Finnegan, Jens M. Turowski, Elowyn M. Yager, Dieter Rickenmann
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dc:description: Hydrology and Land Surface Studies; BIOGEOSCIENCES: Riparian systems; CRYOSPHERE: Rivers; GLOBAL CHANGE: Geomorphology and weathering; HYDROLOGY: Geomorphology: fluvial, Sediment transport, Erosion, River channels, Time series analysis; INFORMATICS: Temporal analysis and representation; MATHEMATICAL GEOPHYSICS: Time series analysis; OCEANOGRAPHY: GENERAL: Time series experiments; NONLINEAR GEOPHYSICS: Scaling: spatial and temporal; OCEANOGRAPHY: PHYSICAL: Sediment transport
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Keywords: 10.1029/2018GL081325 and bedload transport; fluvial geomorphology; stress history; mountain rivers; grain-scale processes
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dc:creator: Claire C. Masteller, Noah J. Finnegan, Jens M. Turowski, Elowyn M. Yager, Dieter Rickenmann
description: Hydrology and Land Surface Studies; BIOGEOSCIENCES: Riparian systems; CRYOSPHERE: Rivers; GLOBAL CHANGE: Geomorphology and weathering; HYDROLOGY: Geomorphology: fluvial, Sediment transport, Erosion, River channels, Time series analysis; INFORMATICS: Temporal analysis and representation; MATHEMATICAL GEOPHYSICS: Time series analysis; OCEANOGRAPHY: GENERAL: Time series experiments; NONLINEAR GEOPHYSICS: Scaling: spatial and temporal; OCEANOGRAPHY: PHYSICAL: Sediment transport
dcterms:created: 2019-03-21T05:36:33Z
Last-Modified: 2019-03-29T06:55:34Z
dcterms:modified: 2019-03-29T06:55:34Z
title: History-Dependent Threshold for Motion Revealed by Continuous Bedload Transport Measurements in a Steep Mountain Stream
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dc:subject: 10.1029/2018GL081325 and bedload transport; fluvial geomorphology; stress history; mountain rivers; grain-scale processes
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