Tyler J. Murchie scite author profile

Sedimentary ancient DNA (sedaDNA) has been established as a viable biomolecular proxy for tracking taxon presence through time in a local environment, even in the total absence of surviving tissues. SedaDNA is thought to survive through mineral binding, facilitating long-term biomolecular preservation, but also challenging DNA isolation. Two common limitations in sedaDNA extraction are the carryover of other substances that inhibit enzymatic reactions, and the loss of authentic sedaDNA when attempting to reduce inhibitor co-elution. Here, we present a sedaDNA extraction procedure paired with targeted enrichment intended to maximize DNA recovery. Our procedure exhibits a 7.7–19.3x increase in on-target plant and animal sedaDNA compared to a commercial soil extraction kit, and a 1.2–59.9x increase compared to a metabarcoding approach. To illustrate the effectiveness of our cold spin extraction and PalaeoChip capture enrichment approach, we present results for the diachronic presence of plants and animals from Yukon permafrost samples dating to the Pleistocene-Holocene transition, and discuss new potential evidence for the late survival (~9700 years ago) of mammoth (Mammuthus sp.) and horse (Equus sp.) in the Klondike region of Yukon, Canada. This enrichment approach translates to a more taxonomically diverse dataset and improved on-target sequencing.

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Collapse of the mammoth-steppe in central Yukon as revealed by ancient environmental DNA

Murchie

Monteath

Mahony

et al. 2021

Nat Commun

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The temporal and spatial coarseness of megafaunal fossil records complicates attempts to to disentangle the relative impacts of climate change, ecosystem restructuring, and human activities associated with the Late Quaternary extinctions. Advances in the extraction and identification of ancient DNA that was shed into the environment and preserved for millennia in sediment now provides a way to augment discontinuous palaeontological assemblages. Here, we present a 30,000-year sedimentary ancient DNA (sedaDNA) record derived from loessal permafrost silts in the Klondike region of Yukon, Canada. We observe a substantial turnover in ecosystem composition between 13,500 and 10,000 calendar years ago with the rise of woody shrubs and the disappearance of the mammoth-steppe (steppe-tundra) ecosystem. We also identify a lingering signal of Equus sp. (North American horse) and Mammuthus primigenius (woolly mammoth) at multiple sites persisting thousands of years after their supposed extinction from the fossil record.

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Mapping the origins of Imperial Roman workers (1st–4th century CE) at Vagnari, Southern Italy, using ⁸⁷Sr/⁸⁶Sr and δ¹⁸O variability

Emery

Stark

Murchie

et al. 2018

American J Phys Anthropol

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Results suggest that only 7% of individuals buried at Vagnari were born elsewhere and migrated to Vagnari, while the remaining individuals were either local to Vagnari (58%), or from the southern Italian peninsula (34%). Our results are consistent with the suggestion that Roman Imperial lower-class populations in southern Italy sustained their numbers through local reproduction measures, and not through large-scale immigration from outside the Italian peninsula.

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Pleistocene mitogenomes reconstructed from the environmental DNA of permafrost sediments

Murchie¹,

Karpinski²,

Eaton³

et al. 2022

Current Biology

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Relict permafrost preserves megafauna, insects, pollen, soils and pore-ice isotopes of the mammoth steppe and its collapse in central Yukon

Monteath

Kuzmina

Mahony

et al. 2023

Quaternary Science Reviews

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Tyler J. Murchie

Optimizing extraction and targeted capture of ancient environmental DNA for reconstructing past environments using the PalaeoChip Arctic-1.0 bait-set

Collapse of the mammoth-steppe in central Yukon as revealed by ancient environmental DNA

Mapping the origins of Imperial Roman workers (1st–4th century CE) at Vagnari, Southern Italy, using ⁸⁷Sr/⁸⁶Sr and δ¹⁸O variability

Pleistocene mitogenomes reconstructed from the environmental DNA of permafrost sediments

Relict permafrost preserves megafauna, insects, pollen, soils and pore-ice isotopes of the mammoth steppe and its collapse in central Yukon

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Tyler J. Murchie

Optimizing extraction and targeted capture of ancient environmental DNA for reconstructing past environments using the PalaeoChip Arctic-1.0 bait-set

Collapse of the mammoth-steppe in central Yukon as revealed by ancient environmental DNA

Mapping the origins of Imperial Roman workers (1st–4th century CE) at Vagnari, Southern Italy, using 87Sr/86Sr and δ18O variability

Pleistocene mitogenomes reconstructed from the environmental DNA of permafrost sediments

Relict permafrost preserves megafauna, insects, pollen, soils and pore-ice isotopes of the mammoth steppe and its collapse in central Yukon

Contact Info

Product

Resources

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Mapping the origins of Imperial Roman workers (1st–4th century CE) at Vagnari, Southern Italy, using ⁸⁷Sr/⁸⁶Sr and δ¹⁸O variability