This research project tested microbial community structure and its change over time or succession in human cadavers.
The project tested the overall hypothesis that bacterial species communities change over time and ultimately modulate the speed and mode of decomposition. The following hypotheses were tested: 1) Decomposition varies due to successive changes in bacterial species guilds (complexes of species in an ecosystem that exploit the same resources) that inhabit the cadaver after death and colonize the cadaver postmortem; 2) Gases emanating from the cadaver are a byproduct of bacterial metabolism; 3) Fly species attracted to or repelled by the cadaver are responding to gases from the cadaver; and 4) Microbial soil composition beneath a cadaver changes over time. Cadavers were placed outdoors to decompose under natural conditions at the Southeast Texas Applied Forensic Science facility. Results thus far are reported for shifting bacterial community structure, fly-associated bacteria, and volatile organic compounds emitted during decomposition. Data have been collected on approximately 10,000 bacterial, VOC, and insect samples, with only a fraction having been sequenced and/or identified. The research team is working on developing an internet database ("Virtual Museum") that details microbial succession. To date, the research team has published five papers and made 51 presentations. Other papers are being prepared. 10 figures and 2 tables
Downloads
Similar Publications
- Elucidation of the Effect of Solar Light on the Near-Infrared Excitation Raman Spectroscopy-Based Analysis of Fabric Dyes
- Detecting and Processing Clandestine Human Remains with Unmanned Aerial Systems and Multispectral Remote Sensing
- Positive Identification Using Frontal Sinus Comparisons: Developing Empirically Based Guidelines