Extracting palaeoflood data from coarse‐grained Pleistocene river terrace archives: an example from SE Spain

2017

Self Cite

Lithology is acknowledged as an important internal catchment control on flow processes to adjacent alluvial fans. In contrast the role of inherited structural configuration (e.g. bedrock attitude) to catchment connectivity and sediment transport is rarely considered. We examine 4 young (<100 year old), active tributary-junction alluvial fan systems from the Dadès Valley in the High Atlas of Morocco in terms of their catchment-scale connectivity, sediment transfer and resulting alluvial fan processes. The catchments occur on the same lithologies (limestones and interbedded mudstones) but experience different passive structural configurations (tilted and structurally thickened beds). The fan systems react differently to historic peak discharges (20-172 m 3 /sec). Catchments containing tectonically thickened limestone units develop slot canyons that compartmentalise the catchment by acting as barriers to sediment transfer, encouraging lower sediment to water flows on the fans. Syn-dip catchments boost connectivity and sediment delivery from translational bedrock landslides as a result of steep channel gradients, encouraging higher sediment to water flows. In contrast translational landslides in strike-oriented drainages disrupt longitudinal connectivity by constricting valley width, whilst the gradients of the main channels are supressed by the attitude of the limestone beds, encouraging localised backfilling. This diminishes the sediment to water content of resulting flows.

Section: Approach and Methodologymentioning

confidence: 99%

Bedrock structural control on catchment-scale connectivity and alluvial fan processes, High Atlas Mountains, Morocco

Mather

2017

Self Cite

“…The where up to 600 mm of net rainfall was recorded in close proximity to the study area triggering flash flood discharges of ~500 m 3 /sec in the Río Aguas at Sorbas (Capel-Molina, 1974;Thornes, 1974Thornes, , 1976Mather and Stokes, 2016). with stream definition verified against the drainage blue line 1:25,000 topographic map data.…”

Section: Study Area: Sorbas Basinmentioning

confidence: 70%

The application of geomorphic indices in terrain analysis for ground engineering practice

Geach

Hart

2017

Engineering Geology

Terrain analysis studies for long linear engineering projects provide critical engineering geological and geomorphological data that inform project design options, route selection and construction methodologies. This paper introduces the use of geomorphic indices alongside methods of aerial photograph interpretation and remote sensing in the desk study phase of engineering terrain evaluations in the identification of landscape changes and geohazards in active tectonic regions. Three geomorphic indices (hypsometry, river long profile analysis and stream-length gradient index) are applied to freely available DEM data in order to develop the qualitative and quantitative (relative to study area) understanding of how the hillslope and river systems respond to the effects of tectonic activity and climate change. A hypothetical pre-feasibility study corridor (10 km width) located in the Sorbas Basin (SE Spain) is used to develop the methods of application, which could represent a proposed rail, road or pipeline routing. The results of the scaled indices approach, from catchment to reach (i.e. section of uninterrupted river channel) investigations, indicate a variable response of

“…Thus, integrated river terrace and alluvial fan studies can add significant information to palaeoenvironmental reconstructions, providing potential information on upstream sediment source and flood magnitude (the terrace e.g. Stokes et al, 2012a,b;Mather and Stokes 2016) and hillslope connectivity and processes (the alluvial fan, e.g. Harvey, 2012).…”

Section: Coupling/connectivity Studiesmentioning

confidence: 99%

River terraces and alluvial fans: The case for an integrated Quaternary fluvial archive

Mather

Quaternary Science Reviews

Whitfield

2017

The fluvial archive literature is dominated by research on river terraces with appropriate mention of adjacent environments such as lakes. Despite modern sedimentary basins comprising a significant (>88%) volume of distributive fluvial systems, of which alluvial fans (>1km, <30km in scale) are a significant part, interaction with these environments tends to be neglected and discussed in separate literature. This paper examines the dynamic role of alluvial fans within the fluvial landscape and their interaction with river systems, highlighting the potential value of alluvial fans to the wider fluvial archive community. Published literature is used to examine both thematic and geographical based benefits of alluvial fan research that can assist understanding of Quaternary fluvial archives. 3 regional case studies are presented that illustrate the interaction between alluvial fan and river terrace archives at Quaternary time-scales at 3 different stages of landscape evolution. These are i) continuous mountain front alluvial fans interacting with a non incising but laterally eroding axial fluvial system; ii) alluvial fans which transition into fluvial terraces as sedimentary basins shift from net aggradation to net incision and iii) tributaryjunction alluvial fans that develop predominantly within incising river valley systems. A simple conceptual model is proposed to summarise the dynamic role of alluvial fans within this landscape context. The alluvial fans act as potential 'buffers' between hillslopes and river terrace records under 'top down' climate-driven high sediment supply and alluvial fan aggradation, and 'couplers' during periods of less sediment (in relation to water) discharge and alluvial fan incision. These dynamics will change with the addition of 'bottom up' controls such as main river incision, which will typically enhance the coupling effect of both systems.