Exploring DNA degradation in situ and in museum storage through genomics and metagenomics

Anne Marie Høier Eriksen; Juan Antonio Rodríguez; Frederik Seersholm; Hege Ingjerd Hollund; Anne Birgitte Gotfredsen; Matthew James Collins; Bjarne Grønnow; Mikkel Winther Pedersen; M. Thomas P. Gilbert; Henning Matthiesen

doi:10.1038/s42003-025-07616-9

Exploring DNA degradation in situ and in museum storage through genomics and metagenomics

Anne Marie Høier Eriksen^*, Juan Antonio Rodríguez, Frederik Seersholm, Hege Ingjerd Hollund, Anne Birgitte Gotfredsen, Matthew James Collins, Bjarne Grønnow, Mikkel Winther Pedersen, M. Thomas P. Gilbert, Henning Matthiesen

^*Corresponding author for this work

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Abstract

Understanding the environmental and microbial processes involved in DNA degradation from archaeological remains is a fundamental part of managing bone specimens. We investigated the state of DNA preservation in 33 archaeozoological caribou (Rangifer tarandus) ribs excavated from the same excavation trench at a former Inuit hunting camp in West Greenland, separated by 43 years: 1978 and 2021. Our findings show that DNA is better preserved in the most recently excavated samples, indicating a detrimental effect of museum storage on DNA integrity. Additionally, our data reveals a diverse microbiome in these bones, encoding genes relevant for bone degradation, such as enzymatic families relating to collagenases, peptidases and glycosidases. Microbes associated with bone degradation were present in both new and historical samples, with museum-stored bones showing significantly more DNA damage. Overall, our research sheds light on the nuanced dynamics governing the preservation of genomic material in archaeological contexts, underscoring the vital importance of careful considerations in museum curation practices for the sustainable conservation of invaluable skeletal records in museum repositories and in situ.

Original language	English
Article number	210
Journal	Communications Biology
Volume	8
Number of pages	14
ISSN	2399-3642
DOIs	https://doi.org/10.1038/s42003-025-07616-9
Publication status	Published - 2025

Bibliographical note

Keywords

Museums
Metagenomics/methods
Genomics/methods
Animals
Archaeology
Greenland
Bone and Bones
DNA/genetics

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Cite this

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title = "Exploring DNA degradation in situ and in museum storage through genomics and metagenomics",

abstract = "Understanding the environmental and microbial processes involved in DNA degradation from archaeological remains is a fundamental part of managing bone specimens. We investigated the state of DNA preservation in 33 archaeozoological caribou (Rangifer tarandus) ribs excavated from the same excavation trench at a former Inuit hunting camp in West Greenland, separated by 43 years: 1978 and 2021. Our findings show that DNA is better preserved in the most recently excavated samples, indicating a detrimental effect of museum storage on DNA integrity. Additionally, our data reveals a diverse microbiome in these bones, encoding genes relevant for bone degradation, such as enzymatic families relating to collagenases, peptidases and glycosidases. Microbes associated with bone degradation were present in both new and historical samples, with museum-stored bones showing significantly more DNA damage. Overall, our research sheds light on the nuanced dynamics governing the preservation of genomic material in archaeological contexts, underscoring the vital importance of careful considerations in museum curation practices for the sustainable conservation of invaluable skeletal records in museum repositories and in situ.",

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author = "Eriksen, {Anne Marie H{\o}ier} and Rodr{\'i}guez, {Juan Antonio} and Frederik Seersholm and Hollund, {Hege Ingjerd} and Gotfredsen, {Anne Birgitte} and Collins, {Matthew James} and Bjarne Gr{\o}nnow and Pedersen, {Mikkel Winther} and Gilbert, {M. Thomas P.} and Henning Matthiesen",

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doi = "10.1038/s42003-025-07616-9",

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AU - Eriksen, Anne Marie Høier

AU - Rodríguez, Juan Antonio

AU - Seersholm, Frederik

AU - Hollund, Hege Ingjerd

AU - Gotfredsen, Anne Birgitte

AU - Collins, Matthew James

AU - Grønnow, Bjarne

AU - Pedersen, Mikkel Winther

AU - Gilbert, M. Thomas P.

AU - Matthiesen, Henning

PY - 2025

Y1 - 2025

N2 - Understanding the environmental and microbial processes involved in DNA degradation from archaeological remains is a fundamental part of managing bone specimens. We investigated the state of DNA preservation in 33 archaeozoological caribou (Rangifer tarandus) ribs excavated from the same excavation trench at a former Inuit hunting camp in West Greenland, separated by 43 years: 1978 and 2021. Our findings show that DNA is better preserved in the most recently excavated samples, indicating a detrimental effect of museum storage on DNA integrity. Additionally, our data reveals a diverse microbiome in these bones, encoding genes relevant for bone degradation, such as enzymatic families relating to collagenases, peptidases and glycosidases. Microbes associated with bone degradation were present in both new and historical samples, with museum-stored bones showing significantly more DNA damage. Overall, our research sheds light on the nuanced dynamics governing the preservation of genomic material in archaeological contexts, underscoring the vital importance of careful considerations in museum curation practices for the sustainable conservation of invaluable skeletal records in museum repositories and in situ.

AB - Understanding the environmental and microbial processes involved in DNA degradation from archaeological remains is a fundamental part of managing bone specimens. We investigated the state of DNA preservation in 33 archaeozoological caribou (Rangifer tarandus) ribs excavated from the same excavation trench at a former Inuit hunting camp in West Greenland, separated by 43 years: 1978 and 2021. Our findings show that DNA is better preserved in the most recently excavated samples, indicating a detrimental effect of museum storage on DNA integrity. Additionally, our data reveals a diverse microbiome in these bones, encoding genes relevant for bone degradation, such as enzymatic families relating to collagenases, peptidases and glycosidases. Microbes associated with bone degradation were present in both new and historical samples, with museum-stored bones showing significantly more DNA damage. Overall, our research sheds light on the nuanced dynamics governing the preservation of genomic material in archaeological contexts, underscoring the vital importance of careful considerations in museum curation practices for the sustainable conservation of invaluable skeletal records in museum repositories and in situ.

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KW - Metagenomics/methods

KW - Genomics/methods

KW - Animals

KW - Archaeology

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KW - DNA/genetics

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