Organic staining on bone from exposure to wood and other plant materials

• Published in: Forensic science international Vol. 283; pp. 200 - 210
• Main Authors: Pollock, Corey R., Pokines, James T., Bethard, Jonathan D.
• Format: Journal Article
• Language: English
• Published: Ireland Elsevier B.V 01.02.2018; Elsevier Limited
• Subjects: Archaeology; Bones; Cemeteries; Color; Data collection; Excavation; Exposure; Forensic engineering; Forensic osteology; Forensic science; Forensic sciences; Human remains; Leaching; Munsell Soil Color Charts; Organic matter; Organic staining; Plant species; Porous materials; Soils; Staining; Tannins; Taphonomy; Terrestrial environments; Wood; New York; Uxbridge Massachusetts; Indiana; United States > US; Kentucky; Organic staining; Munsell Soil Color Charts; Taphonomy
• ISSN: 0379-0738; 1872-6283
• DOI: 10.1016/j.forsciint.2017.12.021

•Staining is used to determine the significance of remains and potentially the PMI.•Staining varied with the soil burial, wood burial, and surface deposition conditions.•Organic materials can leave different staining patterns and colorations. Determining the depositional environment and the postmortem alterations to a set of remains are necessary aspects of a forensic investigation to explain the circumstances surrounding the death of an individual. The present study examines organic staining as a method for reconstructing the depositional environment of skeletal remains and the taphonomic agents with which they came into contact. Organic staining results largely from tannins leaching from plant materials and therefore can be seen on bone deposited in wooden coffin environments or on terrestrial surfaces. The present study examines the hypothesis that the degree of staining observed on skeletal elements would increase as the length of exposure to the organic matter increased and that different plant materials and environments would leave different patterns or colorations of staining. The sample consisted of 165 pig (Sus scrofa) femora divided into four groups exposed to differing experimental conditions, including burial in direct contact with soil or burial in a simulated coffin environment, immersion in water with wood samples, and surface deposition with plant matter contact. The bones were removed once a month from their experimental environments and the level of staining was recorded qualitatively using the Munsell Soil Color Chart. In all of the experimental environments, staining was present after two months of exposure, and the color darkened across the bone surface with each episode of data collection. The results from the present study indicate that staining can manifest on bone within a relatively short time frame once skeletonization occurs and a variety of colorations or patterns of staining can manifest based on the plant material. The present research also demonstrates the potential of organic staining to aid in estimations of the postmortem interval as well as a depositional environmental reconstruction through plant species identification.