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GG2021: Geomorphology

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Land forming - Lateral accretion in meandering rivers builds floodplain ... Thames, Seine & Weser. Volga/ Dneiper. Atbara. Blue Nile. SIMPLE REGIMES: Single Peak ... – PowerPoint PPT presentation

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Title: GG2021: Geomorphology


1
GG2021 Geomorphology
  • Fluvial Processes I

2
Alluvial River meandering on its own floodplain
composed of transported sands/silts. (Upper
Mississippi)
3
High bedload, variable discharge braided glacial
outwash stream, Flaajokull, Iceland
4
Land forming - Lateral accretion in meandering
rivers builds floodplain
5
River Channel Change River response to
base-level, climate change and a change in
flow/sediment supply balance Vertical
adjustment- River Terraces
6
Rivers as Hazard Floods at Tewkesbury, July 2007
7
Ephemeral Rivers
  • INPUT
  • Internally fed, convective storms dominant.
  • Highly localised rainfall
  • Temporally variable
  • THROUGHPUT
  • Horton overland flow dominant. No base-flow.
    Quick-flow dominant.
  • Rapid initiation of surface runoff
  • Transmission losses through channel seepage. Peak
    discharge may thus FALL downstream if runoff is
    localised.
  • OUTPUT
  • Flash Floods
  • Steep rising and falling limbs of hydrographs
  • Considerable flow variability
  • FLOW OCCUPANCY 0-30
  • INTERMITTENT STREAMS FLOW OCCUPANCY 30-100
  • (Source Knighton)

8
Ephemeral River System
9
Perennial, Alluvial Rivers
10
Perennial Rivers
  • INPUT
  • Internally fed (springs) external sources
    (mountainous headwaters, snowmelt)
  • Larger headwater supply area for flow
  • Greater flow reliability
  • THROUGHPUT
  • Saturated overland flow, sub-surface storm-flow.
    Base-flow Quick-flow.
  • Longer response times to runoff
  • Transmission loss through evaporation and
    artificial abstraction for human requirements.
    Otherwise Discharge INCREASE downstream due to
    tributary input.
  • OUTPUT
  • Seasonal floods
  • Broader based hydrograph- longer rise/falling
    limbs
  • Seasonably dependable.
  • 100 channel occupancy (SourceKnighton)

11
Channel Network Ordering The Strahler system
12
River Regimes.Regime is the seasonal flow
variation of a river.
Complex 1 4-6 Hydrological phases eg 2 high/2
low flow phases per year. eg. May Snow-melt peak
summer convection storm peak
Durance Reuss
Rhine
Rhone Arve
Glacial snowmelt
Volga/ Dneiper
Winter rainfall
Congo
Rhone
Thames, Seine Weser
Atbara Blue Nile
Complex II Rivers which flow through distinct
relief/climate zones eg Nile, Ganges
SIMPLE REGIMES Single Peak
13
Event flow in the river as shown by the
hydrograph (Knighton)
14
Channel Width Function hydrograph form
Derivation of width function
Width function for R.Derwent at Chatsworth. Haw
Bridge R.Severn Predicted hydrographs
15
Hydrograph Formation Role of network width
function
  • The map shows a division of the Thames catchment
    based on geological regions and network width
    functions.
  • Note the more permeable lithologies Chalk
    Limestone, have smaller numbers of channels.
  • The Clay zones are impermeable and thus have high
    channel densities and large runoff reponse.

Smith Ward (1998)
16
Channel flow hydrograph as a combination of
Hillslope response and network response (related
to network-width) (Knighton)
17
Channel networks flow
  • Mean annual flood in Trent Basin and link
    magnitude.
  • Downstream flow accumulation on rivers Derwent
    Trent due to sub-catchment additions at tributary
    junctions.
  • (Source Knighton)
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