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A critical evaluation of how ancient DNA bulk bone metabarcoding complements traditional morphological analysis of fossil assemblages

Citation

Grealy, AC and McDowell, MC and Scofield, P and Murray, DC and Fusco, DA and Haile, J and Prideaux, GJ and Bunce, M, A critical evaluation of how ancient DNA bulk bone metabarcoding complements traditional morphological analysis of fossil assemblages, Quaternary Science Reviews, 128 pp. 37-47. ISSN 0277-3791 (2015) [Refereed Article]


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DOI: doi:10.1016/j.quascirev.2015.09.014

Abstract

When pooled for extraction as a bulk sample, the DNA within morphologically unidentifiable fossil bones can, using next-generation sequencing, yield valuable taxonomic data. This method has been proposed as a means to rapidly and cost-effectively assess general ancient DNA preservation at a site, and to investigate temporal and spatial changes in biodiversity; however, several caveats have yet to be considered. We critically evaluated the bulk bone metabarcoding (BBM) method in terms of its: (i) repeatability, by quantifying sampling and technical variance through a nested experimental design containing subsamples and replicates at several stages; (ii) accuracy, by comparing morphological and molecular family-level identifications; and (iii) overall utility, by applying the approach to two independent Holocene fossil deposits, Bat Cave (Kangaroo Island, Australia) and Finsch's Folly (Canterbury, New Zealand). For both sites, bone and bone powder sub-sampling were found to contribute significantly to variance in molecularly identified family assemblage, while the contribution of library preparation and sequencing was almost negligible. Nevertheless, total variance was small. Sampling over 80% fewer bones than was required to morphologically identify the taxonomic assemblages, we found that the families identified molecularly are a subset of the families identified morphologically and, for the most part, represent the most abundant families in the fossil record. In addition, we detected a range of extinct, extant and endangered taxa, including some that are rare in the fossil record. Given the relatively low sampling effort of the BBM approach compared with morphological approaches, these results suggest that BBM is largely consistent, accurate, sensitive, and therefore widely applicable. Furthermore, we assessed the overall benefits and caveats of the method, and suggest a workflow for palaeontologists, archaeologists, and geneticists that will help mitigate these caveats. Our results show that DNA analysis of bulk bone samples can be a universally useful tool for studying past biodiversity, when integrated with existing morphology-based approaches. Despite several limitations that remain, the BBM method offers a costeffective and efficient way of studying fossil assemblages, offering complementary insights into evolution, extinction, and conservation.

Item Details

Item Type:Refereed Article
Keywords:aDNA, ancient DNA, archaeology, biodiversity, bulk bone, experimental error, fossil, metabarcoding, next-generation sequencing, palaeontology
Research Division:Earth Sciences
Research Group:Geology
Research Field:Palaeontology (incl. Palynology)
Objective Division:Cultural Understanding
Objective Group:Heritage
Objective Field:Conserving Natural Heritage
UTAS Author:McDowell, MC (Dr Matthew McDowell)
ID Code:136729
Year Published:2015
Web of Science® Times Cited:20
Deposited By:Plant Science
Deposited On:2020-01-15
Last Modified:2020-01-15
Downloads:0

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