Interplay between tectonics, climate, and fluvial transport during the Cenozoic evolution of the Ebro Basin (NE Iberia)

García‐Castellanos, Daniel; Vergés, Jaume; Gaspar‐Escribano, Jorge M.; Cloetingh, S.A.P.L.

doi:10.1029/2002jb002073

Cited by 243 publications

(243 citation statements)

References 78 publications

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“…Overall, this study highlights several key observations concerning the morphological adjustment of bedrock rivers on Earth and Mars [50][51][52] that are particularly pertinent in the study of geomorphological phenomena such as extreme flood discharge events and river diversions through drainage capture and overspill: (1) that moderate water discharges (o1,500 m 3 s À 1 , in this example) are capable of radical erosion suggesting that adjustments to changes such as drainage diversion and capture may be initially much more rapid than has hereto been assumed 53,54 ; (2) that megafloods are not a prerequisite for major erosion events in mechanically strong lithologies; (3) that such radical erosion is strongly facilitated by a favourable discontinuity pattern in mechanically strong rocks even in the absence of significant surface weathering, and that this discontinuity pattern also strongly influences the gorge morphology; (4) that the key removal process in such rocks would appear to be fluvial plucking probably in association with block topple; (5) that spring sapping is not essential to develop an amphitheatre-headed gorge in resistant bedrock lithologies 1,4 ; and (6) that extreme erosion rates are possible even in the absence of bedload and suspended load. Furthermore, these observations have implications for the efficiency of bedrock erosion and raise important questions about incision rates, driving mechanisms and timescale assumptions for models of landscape evolution over a variety of temporal and spatial scales and for modern engineering strategies.…”

Section: Discussionmentioning

confidence: 99%

Exceptional river gorge formation from unexceptional floods

et al. 2015

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An understanding of rates and mechanisms of incision and knickpoint retreat in bedrock rivers is fundamental to perceptions of landscape response to external drivers, yet only sparse field data are available. Here we present eye witness accounts and quantitative surveys of rapid, amphitheatre-headed gorge formation in unweathered granite from the overtopping of a rock-cut dam spillway by small-moderate floods (B100-1,500 m 3 s À 1 ). The amount of erosion demonstrates no relationship with flood magnitude or bedload availability. Instead, structural pattern of the bedrock through faults and joints appears to be the primary control on landscape change. These discontinuities facilitate rapid erosion (4270 m headward retreat; B100 m incision; and B160 m widening over 6 years) principally through fluvial plucking and block topple. The example demonstrates the potential for extremely rapid transient bedrock erosion even when rocks are mechanically strong and flood discharges are moderate. These observations are relevant to perceived models of gorge formation and knickpoint retreat.

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Section: Discussionmentioning

confidence: 99%

Exceptional river gorge formation from unexceptional floods

et al. 2015

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“…Paleozoic, Mesozoic and Cenozoic and 2. The overall transport is carried by surface waters, underground water flow is disgarded [2].…”

Section: Modellingmentioning

confidence: 99%

“…In this study I varied (1) elastic thickness, (2) river capacity and runoff, (3) diffusive erodability and (3) 2 (length×width) and its resolution is 1 km in both directions. The choice of rain=200 mm a −1 , i.e.…”

Section: Modellingmentioning

confidence: 99%

Forward modelling of the Bureba escarpment (Rioja Trough, N-Spain)

Mikes

2009

Open Geosciences

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Abstract:In this work I use the numerical model TAO to study the evolution of the Bureba escarpment, sitting at the watershed between Duero and Ebro Basins and draining into the Rioja Trough. Facies correlation across this area is troublesome through lack of age-dates and therefore timing of tectonosedimentary events is controversial. Numerical modelling should shed some light on the evolution of this area. To that end I have run homogeneous and heterogeneous models for a range of values of erodability, runoff and elastic thickness. The models demonstrate that the tilting of the NE Duero could have resulted from isostatic compensation to erosion in the Rioja Trough and that the Bureba escarpment is a natural barrier to erosion preventing escarpment retreat for at least the next 1 My.

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“…This basin is bounded by the Iberian Range to the south and the Catalonian Coastal Range to the east, and is crossed by the Ebro River that flows towards the Mediterranean Sea to the east. The basin was endorheic from the Late Eocene to the MiddleLate Miocene (García-Castellanos et al, 2003) and alluvial fans sourced in the surrounding mountains interfered with central saline or carbonate lakes (Muñ oz et al, 2002;Pardo et al, 2004). Due to this paleogeographical distribution, the stratigraphic succession in the central part of the basin is characterized mainly by thick, nearly horizontal carbonate or evaporite rocks.…”

Section: Geological and Geographical Settingmentioning

confidence: 99%

Quaternary alluvial sinkholes: Record of environmental conditions of karst development, examples from the Ebro Basin, Spain

Asunción¹,

Luzón²,

Yuste³

et al. 2012

JCKS

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The central Ebro Basin is an exceptional region for studying karstification through time and under different environmental conditions, as sinkholes have been developing since the Early Pleistocene. Knowledge of active sinkholes is complemented with research on paleosinkholes and contemporary deposits. Sedimentological, mineralogical, geomorphological and structural approaches permit interpretation of the natural environmental conditions that favored karst in the past and the main genetic mechanisms involved. The sedimentary features of Pleistocene terraces indicate that they were deposited by a gravel braided fluvial system characterized by higher water and sediment availability than today, probably related to meltwater flows coming from glaciated source areas, mainly in the Pyrenees. Genesis of paleosinkholes was mainly linked to this high water supply. Some of them acted as small lakes where fine sediments are exceptionally well conserved to give clues about environmental conditions. The neoformation of palygorskite and sepiolite suggests arid to semiarid climatic conditions, in agreement with the idea of cold glacial episodes. During Pleistocene times, development of sinkholes was influenced by tectonics. Currently, the genesis and evolution of numerous sinkholes are also influenced by water supplies from human activities such as irrigation or urbanization, sharply changing the nearly steady state exhibited in the past.

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Interplay between tectonics, climate, and fluvial transport during the Cenozoic evolution of the Ebro Basin (NE Iberia)

Cited by 243 publications

References 78 publications

Exceptional river gorge formation from unexceptional floods

Exceptional river gorge formation from unexceptional floods

Forward modelling of the Bureba escarpment (Rioja Trough, N-Spain)

Quaternary alluvial sinkholes: Record of environmental conditions of karst development, examples from the Ebro Basin, Spain

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