Bone diagenesis in a Mycenaean secondary burial (Kastrouli, Greece)

Ioannis Kontopoulos; Kirsty Penkman; Ioannis Liritzis; Matthew J. Collins

doi:10.1007/s12520-019-00853-0

Bone diagenesis in a Mycenaean secondary burial (Kastrouli, Greece)

Ioannis Kontopoulos^*, Kirsty Penkman, Ioannis Liritzis, Matthew J. Collins

^*Corresponding author for this work

16 Citations (Scopus)

7 Downloads (Pure)

Abstract

This paper presents the characteristics of bone diagenesis in a secondary commingled Mycenaean burial in Kastrouli (Phocis, Greece) through the histological (light microscopy), physical (FTIR-ATR), and biochemical (collagen) analysis of seventeen human (including two petrous bones) and seven animal bones. Post-mortem modifications in bone microstructure, bioapatite, and collagen were characteristic of burial environments with seasonal groundwater and temperature fluctuations. The two human petrous bones displayed a lack of microscopic focal destruction (MFD) sites and a generally good histological preservation, but although a small sample size, did not show any better bioapatite and collagen preservation compared with human femora. Intra-site variations were defined by three main diagenetic patterns that display differences in histological modifications, crystallinity changes, and collagen degradation. These different patterns were either related to different microenvironment conditions and/or influenced by possible differences in the early taphonomic histories experienced by bones prior to secondary deposition. Further, this study highlights the importance of infrared splitting factor (IRSF), carbonate/phosphate ratio (C/P), and general histological index (GHI) for the qualitative assessment of archaeological bone, and the potential use of amide/phosphate ratio (Am/P) as a collagen predictor.

Original language	English
Journal	Archaeological and Anthropological Sciences
Volume	11
Issue number	10
Pages (from-to)	5213-5230
ISSN	1866-9557
DOIs	https://doi.org/10.1007/s12520-019-00853-0
Publication status	Published - 1 Oct 2019

Keywords

Bioapatite
Bone diagenesis
Collagen
Histology
Mycenaean
Secondary burial

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10.1007/s12520-019-00853-0Licence: CC BY

Bone diagenesis in a Mycenaean secondary burial (Kastrouli, Greece)Final published version, 3.15 MBLicence: CC BY

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title = "Bone diagenesis in a Mycenaean secondary burial (Kastrouli, Greece)",

abstract = "This paper presents the characteristics of bone diagenesis in a secondary commingled Mycenaean burial in Kastrouli (Phocis, Greece) through the histological (light microscopy), physical (FTIR-ATR), and biochemical (collagen) analysis of seventeen human (including two petrous bones) and seven animal bones. Post-mortem modifications in bone microstructure, bioapatite, and collagen were characteristic of burial environments with seasonal groundwater and temperature fluctuations. The two human petrous bones displayed a lack of microscopic focal destruction (MFD) sites and a generally good histological preservation, but although a small sample size, did not show any better bioapatite and collagen preservation compared with human femora. Intra-site variations were defined by three main diagenetic patterns that display differences in histological modifications, crystallinity changes, and collagen degradation. These different patterns were either related to different microenvironment conditions and/or influenced by possible differences in the early taphonomic histories experienced by bones prior to secondary deposition. Further, this study highlights the importance of infrared splitting factor (IRSF), carbonate/phosphate ratio (C/P), and general histological index (GHI) for the qualitative assessment of archaeological bone, and the potential use of amide/phosphate ratio (Am/P) as a collagen predictor.",

keywords = "Bioapatite, Bone diagenesis, Collagen, Histology, Mycenaean, Secondary burial",

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AU - Kontopoulos, Ioannis

AU - Penkman, Kirsty

AU - Liritzis, Ioannis

AU - Collins, Matthew J.

PY - 2019/10/1

Y1 - 2019/10/1

N2 - This paper presents the characteristics of bone diagenesis in a secondary commingled Mycenaean burial in Kastrouli (Phocis, Greece) through the histological (light microscopy), physical (FTIR-ATR), and biochemical (collagen) analysis of seventeen human (including two petrous bones) and seven animal bones. Post-mortem modifications in bone microstructure, bioapatite, and collagen were characteristic of burial environments with seasonal groundwater and temperature fluctuations. The two human petrous bones displayed a lack of microscopic focal destruction (MFD) sites and a generally good histological preservation, but although a small sample size, did not show any better bioapatite and collagen preservation compared with human femora. Intra-site variations were defined by three main diagenetic patterns that display differences in histological modifications, crystallinity changes, and collagen degradation. These different patterns were either related to different microenvironment conditions and/or influenced by possible differences in the early taphonomic histories experienced by bones prior to secondary deposition. Further, this study highlights the importance of infrared splitting factor (IRSF), carbonate/phosphate ratio (C/P), and general histological index (GHI) for the qualitative assessment of archaeological bone, and the potential use of amide/phosphate ratio (Am/P) as a collagen predictor.

AB - This paper presents the characteristics of bone diagenesis in a secondary commingled Mycenaean burial in Kastrouli (Phocis, Greece) through the histological (light microscopy), physical (FTIR-ATR), and biochemical (collagen) analysis of seventeen human (including two petrous bones) and seven animal bones. Post-mortem modifications in bone microstructure, bioapatite, and collagen were characteristic of burial environments with seasonal groundwater and temperature fluctuations. The two human petrous bones displayed a lack of microscopic focal destruction (MFD) sites and a generally good histological preservation, but although a small sample size, did not show any better bioapatite and collagen preservation compared with human femora. Intra-site variations were defined by three main diagenetic patterns that display differences in histological modifications, crystallinity changes, and collagen degradation. These different patterns were either related to different microenvironment conditions and/or influenced by possible differences in the early taphonomic histories experienced by bones prior to secondary deposition. Further, this study highlights the importance of infrared splitting factor (IRSF), carbonate/phosphate ratio (C/P), and general histological index (GHI) for the qualitative assessment of archaeological bone, and the potential use of amide/phosphate ratio (Am/P) as a collagen predictor.

KW - Bioapatite

KW - Bone diagenesis

KW - Collagen

KW - Histology

KW - Mycenaean

KW - Secondary burial

U2 - 10.1007/s12520-019-00853-0

DO - 10.1007/s12520-019-00853-0

M3 - Journal article

AN - SCOPUS:85067285376

SN - 1866-9557

VL - 11

SP - 5213

EP - 5230

JO - Archaeological and Anthropological Sciences

JF - Archaeological and Anthropological Sciences

IS - 10

ER -

Bone diagenesis in a Mycenaean secondary burial (Kastrouli, Greece)

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Keywords

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