Title

Long-Term Sequential Monitoring Of Controlled Graves Representing Common Burial Scenarios With Ground Penetrating Radar: Years 2 And 3

Keywords

Clandestine grave; Controlled graves; Forensic archaeology; Forensic geophysics; Ground-penetrating radar; Pig carcasses

Abstract

Geophysical techniques such as ground-penetrating radar (GPR) have been successfully used for forensic searches to locate clandestine graves and physical evidence. However, additional controlled research is needed to fully understand the applicability of this technology when searching for clandestine graves in various environments, soil types, and for longer periods of time post-burial. The purpose of this study was to determine the applicability of GPR for detecting controlled graves in a Spodosol representing multiple burial scenarios for Years 2 and 3 of a three-year monitoring period. Objectives included determining how different burial scenarios are factors in producing a distinctive anomalous response; determining how different GPR imagery options (2D reflection profiles and horizontal time slices) can provide increased visibility of the burials; and comparing GPR imagery between 500 MHz and 250 MHz dominant frequency antennae. The research site contained a grid with eight graves representing common forensic burial scenarios in a Spodosol, a common soil type of Florida, with six graves containing a pig carcass (Sus scrofa). Burial scenarios with grave items (a deep grave with a layer of rocks over the carcass and a carcass wrapped in a tarpaulin) produced a more distinctive response with clearer target reflections over the duration of the monitoring period compared to naked carcasses. Months with increased precipitation were also found to produce clearer target reflections than drier months, particularly during Year 3 when many grave scenarios that were not previously visible became visible after increased seasonal rainfall. Overall, the 250 MHz dominant frequency antenna imagery was more favorable than the 500 MHz. While detection of a simulated grave may be difficult to detect over time, long term detection of a grave in a Spodosol may be possible if the disturbed spodic horizon is detected. Furthermore, while grave visibility increased with the 2D reflection profiles, particularly with the 250 MHz antenna, the combination of both imagery options is recommended when evaluating GPR data during a search for a clandestine grave.

Publication Date

9-1-2016

Publication Title

Journal of Applied Geophysics

Volume

132

Number of Pages

60-74

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1016/j.jappgeo.2016.06.015

Socpus ID

84978121176 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84978121176

This document is currently not available here.

Share

COinS