Skip to Main Content
Skip Nav Destination

Scour and fill in steep, sand-bed ephemeral streams

GSA Bulletin (1978) 89 (4): 559–570.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Spatial variation in the sedimentary architecture of a dryland fluvial system
Sedimentology (2021) 68 (6): 2887.
Progradation of a mid‐Cretaceous distributive fluvial system: The upper member of the Bima Formation, Northern Benue Trough, Nigeria
Sedimentology (2021) 68 (5): 1861.
Depositional controls on sediment properties in dryland rivers: Influence on near-surface diagenesis
Earth-Science Reviews (2020) 208: 103297.
Global quantitative analyses of river discharge variability and hydrograph shape with respect to climate types
Earth-Science Reviews (2020) 200: 102977.
Variable‐discharge‐river macroforms in the Sunnyside Delta Interval of the Eocene Green River Formation, Uinta Basin, USA
Sedimentology (2020) 67 (4): 1914.
The sedimentology of an ephemeral fluvial–aeolian succession
Sedimentology (2020) 67 (5): 2392.
Alluvial stratification styles in a large, flash‐flood influenced dryland river: The Luni River, Thar Desert, north‐west India
Sedimentology (2019) 66 (1): 102.
Stratigraphic complexity in fluvial fans: Lower Eocene Green River Formation, Uinta Basin, USA
Basin Research (2019) 31 (5): 892.
Alluvial to lacustrine sedimentation in an endorheic basin during the Mio-Pliocene: The Toro Negro Formation, Central Andes of Argentina
Journal of South American Earth Sciences (2018) 84: 69.
Paleobiology and paleoecology of an arid–semiarid Miocene South American ichnofauna in anastomosed fluvial deposits
Palaeogeography, Palaeoclimatology, Palaeoecology (2009) 284 (3-4): 129.
Antidunes on steep slopes
Journal of Geophysical Research: Earth Surface (2009) 114 (F4)
Spatial patterns of scour and fill in dryland sand bed streams
Water Resources Research (2006) 42 (8)
Streambed scour and fill in low‐order dryland channels
Water Resources Research (2005) 41 (5)
Improving the Urban Stream Restoration Effort: Identifying Critical Form and Processes Relationships
Environmental Management (2005) 35 (5): 579.
Measurement of the temporal progression of scour in a pool‐riffle sequence in a gravel bed stream using an electronic scour monitor
Water Resources Research (2001) 37 (11): 2805.
Annual bed-elevation regime in the alluvial channel of Squamish River, Southwestern British Columbia, Canada
Earth Surface Processes and Landforms (2000) 25 (9): 991.
Geomorphological impacts of a flood event on ephemeral channels in SE Spain
Geomorphology (2000) 34 (3-4): 163.
Process, form and change in dryland rivers: a review of recent research
Earth-Science Reviews (2000) 51 (1-4): 67.
The transport of gravel in an ephemeral sandbed river
Earth Surface Processes and Landforms (1999) 24 (7): 623.
Logratio linear modelling of hydraulic geometry using indices of flow resistance as covariates
Geomorphology (1995) 14 (1): 65.
Fluvial scour and incision: models for their influence on the development of realistic reservoir geometries
Geological Society, London, Special Publications (1993) 73 (1): 33.
Scour, fill, and burial depth of coarse material in gravel bed streams
Earth Surface Processes and Landforms (1990) 15 (4): 341.
Fluvial conglomerates in continental red beds of the Buntsandstein (Lower Triassic) in the Eifel (F.R.G.) and their palaeoenvironmental, palaeogeographical and palaeotectonic significance
Sedimentary Geology (1985) 44 (1-2): 1.
Arroyo Engineering in an Urban Environment
Journal of Urban Planning and Development (1983) 109 (1): 1.
Fluvial geomorphology
Progress in Physical Geography: Earth and Environment (1979) 3 (2): 274.
Close Modal

or Create an Account

Close Modal
Close Modal