runoff pathways slide from mike kirkby, university of leeds, agu chapman conference on hillslope...

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Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001 Infiltration Capacity R a i n f a l l Saturation O F B edrock A quifer Percolation Regolith Regolith Subsurface Flow Saturation A quiferSubsurface Flow H ortonian O F Percolation

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Page 1: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Runoff Pathways

InfiltrationCapacity

R a i n f a l l

Saturation OF

BedrockAquifer

Percolation

RegolithRegolith Subsurface Flow

Saturation

Aquifer Subsurface Flow

Hortonian OF

Percolation

Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Page 2: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001
Page 3: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

(Grip and Rodhe, 1994)

Southern Sweden—much like NE US

Page 4: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

A different form of overland flow

Page 5: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001
Page 6: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Overland flow (infiltration excess+ saturation excess) emerging from a sugar cane paddock over Kasnozem (Oxisol) soils (originating from Basalt), South Johnstone near Innisfail during a monsoon event, March 1985.

Photo courtesy of Brian Prove

Page 7: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Experimental Design of Dunne and Black (1970)

Page 8: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Seasonal Variations in VSADunne, 1969; 78

Page 9: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

The link to flowFrom Dunne and Leopold, 1978

Page 10: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

From the original diagram by Hewlett, 1982

Direct Precipitation onto Saturated Areas and Return Flow

• Expands and contracts during events

• Expands and contracts seasonally

• Key zone for partitioning fast and slow runoff

• Key non-point source hot spot!

Brooks et al., Fig 4.11

Page 11: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Where Saturation Occurs

Relation to live streams

Ward, 1970

Page 12: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Saturated areas: We can sometimes estimate based on topography

Dave Tarboton, Utah State U.

Page 13: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

0 M o r e I n t e ns e % R a in D ay s L e s s I n t e ns e 10 0

10 0

M or eH umid

E T A C T

E T PO T

%

M or eA r id

0

7 5 %

5 0 %

2 5 %T o t a l R uno ff

0 %

M ainlyH or t onianO ver land F low

M ainlyS at ur at ion

O ver land F low

Generalised dependenceof Runoff Coefficientand Style of Overland Flow on Arid-Humid scale and on Storm Rainfall Intensities

Seasonal or storm period fluctuations

Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

HOF vs SOF

Page 14: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Runoff Pathways

InfiltrationCapacity

R a i n f a l l

Saturation OF

BedrockAquifer

Percolation

RegolithRegolith Subsurface Flow

Saturation

Aquifer Subsurface Flow

Hortonian OF

Percolation

Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Page 15: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001
Page 16: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

The British Invasion

Benchmark papers by Burt, 1970s and early 1980sand Weyman, Anderson, Kirkby, Chorley……….

From Kirkby, 1978

Page 17: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Topographic Convergence

Anderson andBurt, 1978

Hornberger et al text

Page 18: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Topographic Controls on Saturation Development

Ruhe and Walker, 1968

Page 19: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Subsurface Stormflow

• At the start of an event, percolation occurs vertically

• Soil moisture increases & some water bypasses to depth

• Where percolation reaches a less permeable layer that will not accept the wetting front, saturation will develop

• Saturation development controlled by permeability & available storage

• The saturated “wedge” or perched water table contributes significantly during peak runoff Weyman 1973

Page 20: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Whipkey’s work

Page 21: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Whipkey, 1965

Data:

Page 22: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Highly preferential

Tarboton web course

Sidle et al 2001 HP

Page 23: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

What are the conditions necessary for lateral flow regardless of process?

Page 24: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

What are the conditions necessary for lateral flow regardless of process?

• Gradient• Hydraulic Conductivity Contrast

Page 25: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Hydraulic Conductivity Contrasts

• Where do they occur?– Soil surface

• IF Ksat< rainfall rate HOF

Page 26: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Hydraulic Conductivity Contrasts

• Where do they occur?– Soil surface– Wetting front

• Even in uniform texture, character curves for a soil can be responsible for generating saturated layers under the right circumstances…HOW?

Page 27: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Hydraulic Conductivity Contrasts

• Where do they occur?– Soil surface– Wetting front– Grain anisotropy

• Kx >> Ky

• Can lead to ponding

Page 28: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Hydraulic Conductivity Contrasts

• Where do they occur?– Soil surface– Wetting front– Grain anisotropy– Capillary barrier

• Pic is of snow, can happen in soil under what conditions?

Page 29: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Hydraulic Conductivity Contrasts• Where do they occur?

– Soil surface– Wetting front– Grain anisotropy– Capillary barrier– Layering in saturated soils

• High K over low K can lead to ponding ON low K layer– Perched aquifers– Impermeable basement

Page 30: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Hydraulic Conductivity Contrasts• Where do they occur?

– Soil surface– Wetting front– Grain anisotropy– Capillary barrier– Layering in saturated soils

• High K over low K can lead to ponding ON low K layer• Low K over high K

Page 31: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Lateral Gradients

• Where do lateral gradients occur?– Unsaturated soil?

• When K contrasts lead to ponding on sloped surfaces

• 3D perspective– Water balance in convergent zones

Page 32: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Flow pathways

• Must somehow mobilize stored water

Page 33: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Not a new idea

Page 34: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Pinder and Jones 1969 WRR

Page 35: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Two component mixing model

Solve two simultaneous mass-balance equations for Qold and Qnew

Qstream = Qold + Qnew

CstreamQstream = ColdQold+ CnewQnew To yield the proportion of old water

pold Qold

Qstream

Cstream Cnew

Cold Cnew

Hooper (2001)

Page 36: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Qpe/Qs = (Cs-Ce)/(Cpe-Ce)

Weiler et al. 2004, WRR

Page 37: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Variations in stream discharge, dD, and electrical conductivity at M8

(Sklash et al., 1986 WRR)

Groundwater Surface WaterInteractions

“Groundwater” is the main

component of flood

hydrographs

Page 38: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Runoff Pathways

InfiltrationCapacity

R a i n f a l l

Saturation OF

BedrockAquifer

Percolation

RegolithRegolith Subsurface Flow

Saturation

Aquifer Subsurface Flow

Hortonian OF

Percolation

Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Page 39: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

How is old water mobilized? Many theories including

Groundwater ridging Pressure wave translation Transmissivity feedback

Page 40: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Groundwater Ridging

Page 41: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

The Soil-Water Interface and the Effect of Suction

Abdul and Gillham, 1984

Page 42: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Groundwater Ridging

Flow Lines

Precipitation

Seepageface

Equipotentiallines

Capillary Fringe

Page 43: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

...a Swedish view on the subject

From Grip and Rodhe; Seibert et al. 2002 HP

Rodhe, 1987 Transmissivity feedback

Page 44: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Rodhe, 1987 Transmissivity feedback

Page 45: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Runoff PathwaysPutting it all together

InfiltrationCapacity

R a i n f a l l

Saturation OF

BedrockAquifer

Percolation

RegolithRegolith Subsurface Flow

Saturation

Aquifer Subsurface Flow

Hortonian OF

Percolation

Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Page 46: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Storm Precipitation

Soil Mantle Storage

Baseflow

Channel Precip.+

Overland Flow

Overland Flow

InterflowSubsurfaceStormflow

Saturation Overland Flow Hortonian Overland Flow

Basin Hydrograph

Re-drawn from Hewlett and Troendle, 1975

Page 47: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001

Dominant processes of hillslope response to rainfall

Horton overland flow dominates hydrograph; contributions from subsurface stormflow are less important

Direct precipitation and return flow dominate hydrograph; subsurface stormflow less important

Subsurface stormflow dominates hydrograph volumetrically; peaks produced by return flow and direct precipitation

Arid to sub-humid climate; thin vegetation or disturbed by humans

Humid climate; dense vegetation

Steep, straight hillslopes; deep,very permeable soils; narrow valley bottoms

Thin soils; gentle concave footslopes; wide valley bottoms; soils of high to low permeability

Climate, vegetation and land use

Topograph

y and soils

Variable source concept

(Dunne and Leopold, 1978)

Page 48: Runoff Pathways Slide from Mike Kirkby, University of Leeds, AGU Chapman Conference on Hillslope Hydrology, October 2001