A methodology for estimating risks associated with landslides of contaminated soil into rivers
Artikel i vetenskaplig tidskrift, 2014

Urban areas adjacent to surface water are exposed to soil movements such as erosion and slope failures (landslides). A landslide is a potential mechanism for mobilisation and spreading of pollutants. This mechanism is in general not included in environmental risk assessments for contaminated sites, and the consequences associated with contamination in the soil are typically not considered in landslide risk assessments. This study suggests a methodology to estimate the environmental risks associated with landslides in contaminated sites adjacent to rivers. The methodology is probabilistic and allows for datasets with large uncertainties and the use of expert judgements, providing quantitative estimates of probabilities for defined failures. The approach is illustrated by a case study along the river Gota Alv, Sweden, where failures are defined and probabilities for those failures are estimated. Failures are defined from a pollution perspective and in terms of exceeding environmental quality standards (EQSs) and acceptable contaminant loads. Models are then suggested to estimate probabilities of these failures. A landslide analysis is carried out to assess landslide probabilities based on data from a recent landslide risk classification study along the river Gota Alv. The suggested methodology is meant to be a supplement to either landslide risk assessment (LRA) or environmental risk assessment (ERA), providing quantitative estimates of the risks associated with landslide in contaminated sites. The proposed methodology can also act as a basis for communication and discussion, thereby contributing to intersectoral management solutions. From the case study it was found that the defined failures are governed primarily by the probability of a landslide occurring. The overall probabilities for failure are low; however, if a landslide occurs the probabilities of exceeding EQS are high and the probability of having at least a 10% increase in the contamination load within one year is also high.


Göta älv

Contaminated sites

Environmental risk assessment


G. Goransson

Swedish Geotechnical Institute

Lunds universitet

Jenny Norrman

Chalmers, Bygg- och miljöteknik, Geologi och geoteknik

FRIST kompetenscentrum

M. Larson

Lunds universitet

Claes Alén

Chalmers, Bygg- och miljöteknik, Geologi och geoteknik

Lars Rosen

FRIST kompetenscentrum

Chalmers, Bygg- och miljöteknik, Geologi och geoteknik

DRICKS Ramprogrammet för dricksvattenforskning vid Chalmers

Science of the Total Environment

0048-9697 (ISSN)

Vol. 472 481-495


Building Futures



Miljöanalys och bygginformationsteknik