A GIS Methodology for Assessing the Safety Hazards of Abandoned Mine Lands (AMLs): Application to the State of Pennsylvania

International Journal of Applied Geospatial Research International Journal of Applied Geospatial Research, Vol. 2, Issue 3, 2011

Timothy J. Dolney

“Abandoned mine lands (AMLs) associated with past coal-mining scar Pennsylvania’s landscape with environmental and safety hazards. Reclamation projects eliminate and reduce hazards AMLs pose. Due to the large number of AMLs and limited funds, precedence is given to reclaim the most hazardous sites first. These sites are identified through an assessment process that assigns priorities to AMLs. However, priorities are out-dated and do not accurately reflect the current spatial distribution of land use and census data. This article presents a GIS methodology for the prioritization of AMLs using the process of extrapolation and focal statistics. By incorporating current assessment techniques into GIS with current land use and census data, AML priorities were reassigned to accurately reflect the current spatial landscape. Results indicate that current AML priorities assigned by the state do not accurately reflect current land use and census data and underestimate the safety hazards of many sites, including high priority sites.”

A Geographical Approach to Post-flood Analysis: The Extreme Flood Event of 12 October 2007 in Calpe (Spain)

Applied Geography, Volume 32, Issue 2, March 2012, Pages 490-500

E. Martínez Ibarra


  • Identification of the shortcomings in flood risk regulations at the local scale.
  • Stressing the importance of post-flood analyses for the determination of flood risk.
  • Stressing the importance of local-scale analyses in flood risk.

“The study demonstrates the importance, in general, of adopting a geographical (integral) approach and local analysis to determine flood risk in small Mediterranean basins, where normally there is no surface runoff. At the same time, it highlights the possibilities afforded by a post-flood study. More specifically, the study seeks to identify the factors that aggravated the impact of the extreme flood event in the tourist town of Calpe (Alicante, Spain) on 12 October 2007.

“Our results stress the high volume of discharge that can be generated by small basins in the Mediterranean following intense rainfall events that may exceed 200 mm/day. For the 4.6 km2 drainage network studied here, we calculate a maximum discharge of 143 m3/s, for a return period of 500 years. This natural risk (high potential discharge in what are usually dry basins) is exacerbated by the socio-economic transformations that have taken place along the Mediterranean coast. The expansion of urban land use has increased vulnerability to flooding in highly attractive tourist zones that are now at high risk of flooding. The municipal area recognised as presenting a class “2” qualitative vulnerability (on a scale from 1 to 6, where 1 is the most vulnerable) rose from 1% to 34% between 1956 and 2002. Changes to the basins and the traditional drainage systems in endorheic zones have also increased vulnerability to flood events. For example, the area occupied by the mouth of the main basin analysed here has fallen from 2.4 ha in 1956 to just 0.7 ha in 2002.

“The study’s main conclusions point to the need to introduce hydrological monitoring networks in small drainage systems in ephemeral river basins. It also stresses the importance of implementing structural actions to facilitate surface runoff discharge. In the mid-to-long term we conclude that there should be a declassification of urban land use zones at high risk of flooding. Moreover, detailed (local) studies which adopt an integral approach in their post-flood analyses should be undertaken to identify levels of flood risk and the appropriate land use regulations required.”