Ground movement in a moderately expansive soil subject to rainfall infiltration through pervious paving

Pavements, rooftops and compacted soils inhibit rainfall infiltration across our cities and drains built to prevent flooding can further reduce water availability to urban ecosystems. These hydrological changes diminish the provision of ecosystem service benefits to local populations and negatively...

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Bibliographic Details
Published in:Ecological engineering Vol. 158; p. 106022
Main Authors: Johnson, Timothy, Cameron, Donald, Moore, Gregory, Brien, Chris
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01.12.2020
Elsevier BV
Subjects:
Clay
Clay soils
Compacted soils
Ecosystem services
Environmental impact
Expansive clay soil
Expansive clays
Expansive soils
Flooding
Gravel
Ground motion
Hydrology
Infiltration
Local population
Pavements
Paving
Pervious pavement
Rain
Rainfall
Rainfall infiltration
Roofs
Soil
Soil compaction
Soil moisture
Soil reactivity
Soil shrinkage
Soil swelling
soil water
Soils
South Australia
Stormwater
Stormwater infiltration
summer
Trees
Water availability
winter
South Australia
Soil reactivity
Stormwater infiltration
Trees
Expansive clay soil
Pervious pavement
ISSN:0925-8574, 1872-6992
Online Access:Get full text
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Summary:Pavements, rooftops and compacted soils inhibit rainfall infiltration across our cities and drains built to prevent flooding can further reduce water availability to urban ecosystems. These hydrological changes diminish the provision of ecosystem service benefits to local populations and negatively impact downstream communities and environments. Stormwater engineering can help restore infiltration, but little use has been made of infiltration systems in expansive clay soil (often referred to as reactive clay), due to the potential for problematic shrinking and swelling soil movements in response to changes in soil moisture. In an experiment in South Australia, ground movement and moisture variation were monitored in moderately reactive clay soil beneath pervious and impervious paving, revealing that soil moisture and ground movement were influenced by interactions between pavement treatment, the design of the pervious pavement’s gravel base layer, the size and proximity of trees, and the season. Where there were no tree influences, water-related ground movement was smaller near impervious paving, but ground movement was smaller near pervious paving at sites near trees. The differences in ground movement between pervious and impervious pavements were small when compared with the amplitude of ground movement observed at pervious and impervious pavement treatments between summer and winter. •soil was typically drier beneath permeable paving than impermeable paving.•infiltration marginally reduced reactive ground movement near trees.•infiltration through permeable paving into reactive clay was not problematic.•soil water extraction by trees increases infiltration capacity of clay.
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ISSN:0925-8574
1872-6992
DOI:10.1016/j.ecoleng.2020.106022