Tropical ancient DNA from bulk archaeological fish bone reveals the subsistence practices of a historic coastal community in southwest Madagascar

Grealy, Alicia; Douglass, Kristina; Haile, James; Bruwer, C. A.; Gough, Charlotte; Bunce, Michael

doi:10.1016/j.jas.2016.10.001

Cited by 43 publications

(34 citation statements)

References 41 publications

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“…Notwithstanding the use of a recently developed extraction protocol aimed to maximize endogenous DNA (54), this rate of success compares favorably to results from mammalian bones whereby the majority of samples-excluding petrous bonestypically yield a few percent endogenous DNA at most (55). Our positive results agree with studies using PCR-based methods that have reported successful amplification from fish bones (56)(57)(58)(59)(60) in some cases up to 10,000 y old (61). The observation that porous, light fish bones can yield whole genome shotgun libraries with high levels of endogenous DNA underscores our lack of understanding of DNA preservation in different types of animal bone.…”

Section: Discussionsupporting

confidence: 78%

Ancient DNA reveals the Arctic origin of Viking Age cod from Haithabu, Germany

Star

Boessenkool

Gondek

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

115

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Knowledge of the range and chronology of historic trade and long-distance transport of natural resources is essential for determining the impacts of past human activities on marine environments. However, the specific biological sources of imported fauna are often difficult to identify, in particular if species have a wide spatial distribution and lack clear osteological or isotopic differentiation between populations. Here, we report that ancient fishbone remains, despite being porous, brittle, and light, provide an excellent source of endogenous DNA (15-46%) of sufficient quality for whole-genome reconstruction. By comparing ancient sequence data to that of modern specimens, we determine the biological origin of 15 Viking Age (800-1066 CE) and subsequent medieval (1066-1280 CE) Atlantic cod (Gadus morhua) specimens from excavation sites in Germany, Norway, and the United Kingdom. Archaeological context indicates that one of these sites was a fishing settlement for the procurement of local catches, whereas the other localities were centers of trade. Fish from the trade sites show a mixed ancestry and are statistically differentiated from local fish populations. Moreover, Viking Age samples from Haithabu, Germany, are traced back to the North East Arctic Atlantic cod population that has supported the Lofoten fisheries of Norway for centuries. Our results resolve a long-standing controversial hypothesis and indicate that the marine resources of the North Atlantic Ocean were used to sustain an international demand for protein as far back as the Viking Age.genomics | high-throughput sequencing | trade | chromosomal inversion | fish bone

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Section: Discussionsupporting

confidence: 78%

Ancient DNA reveals the Arctic origin of Viking Age cod from Haithabu, Germany

Star

Boessenkool

Gondek

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

115

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“…The recovery of aDNA or paleoenvironmental DNA from a variety of organisms is a technique that has been greatly improved during the last decade (and now often termed paleogenomics) (Rawlence et al, 2014;Willerslev & Cooper, 2005). The highest success rate for aDNA extraction has been attained with organisms from frozen sites (Gould, León, Buffen, & Thompson, 2010) and generally from dry or cold environments, rather than hot or humid sites (Grealy et al, 2016;Haouchar et al, 2014;Poinar et al, 1998;Rawlence et al, 2014). The Atacama Desert, due to its hyperaridity, therefore offers a potentially perfect environment to preserve aDNA (Kuch et al, 2002), but the high diurnal temperatures and strong radiation could also limit this.…”

Section: Introductionmentioning

confidence: 99%

Multiscale climate change impacts on plant diversity in the Atacama Desert

Díaz

Latorre

Carrasco‐Puga

et al. 2019

Global Change Biology

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Comprehending ecological dynamics requires not only knowledge of modern communities but also detailed reconstructions of ecosystem history. Ancient DNA (aDNA) metabarcoding allows biodiversity responses to major climatic change to be explored at different spatial and temporal scales. We extracted aDNA preserved in fossil rodent middens to reconstruct late Quaternary vegetation dynamics in the hyperarid Atacama Desert. By comparing our paleo‐informed millennial record with contemporary observations of interannual variations in diversity, we show local plant communities behave differentially at different timescales. In the interannual (years to decades) time frame, only annual herbaceous expand and contract their distributional ranges (emerging from persistent seed banks) in response to precipitation, whereas perennials distribution appears to be extraordinarily resilient. In contrast, at longer timescales (thousands of years) many perennial species were displaced up to 1,000 m downslope during pluvial events. Given ongoing and future natural and anthropogenically induced climate change, our results not only provide baselines for vegetation in the Atacama Desert, but also help to inform how these and other high mountain plant communities may respond to fluctuations of climate in the future.

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“…; Grealy et al . ) paired with analyses of fish size that discriminate between juvenile and adult fish (see discussions in Lambrides and Weisler ; Weisler and Green ). Adoption of analytical guidelines that incorporate reliable data on fish ecology and behaviour would also streamline reconstructions and foster appropriate comparison of results between sites.…”

Section: Resultsmentioning

confidence: 99%

Reconstructing prehistoric fishing zones in Palau, Micronesia using fish remains: A blind test of inter‐analyst correspondence

Giovas

Lambrides

Fitzpatrick

et al. 2016

Archaeology in Oceania

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Archaeologists routinely reconstruct the types of marine environments fished by past human societies in order to understand economic systems, foraging behaviour, maritime technology and seafaring abilities. These reconstructions are based on ecological data provided by archaeofish identifications, but can be problematic where coarse‐grained designations, such as inshore or pelagic, are used, or the influence of fish behaviour and life history traits on movement between habitats is overlooked. In tropical waters, intra‐family diversity complicates habitat reconstruction by precluding lower‐level taxonomic identifications that provide precise habitat information (e.g. surge channels, dropoffs). Consequently, a single generalised habitat may be imposed on fishes that could be caught in multiple environments, thereby eroding the reliability of fishing zone reconstructions. This study employs the archaeofish assemblage from Chelechol ra Orrak (c. 3000–0 BP), Palau to examine the analytical impact of these variables on fishing habitat reconstruction based on a blind assessment of taxon‐derived environmental data by two analysts. We assesses how analysts’ variable decision protocols for the handling of imprecise environmental data impact resulting habitat exploitation profiles. Our results address the issue of spatial resolution in habitat information gleaned from fish assemblages like Orrak's, with important implications for the interpretation of foraging practices and maritime adaptations.

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Tropical ancient DNA from bulk archaeological fish bone reveals the subsistence practices of a historic coastal community in southwest Madagascar

Cited by 43 publications

References 41 publications

Ancient DNA reveals the Arctic origin of Viking Age cod from Haithabu, Germany

Ancient DNA reveals the Arctic origin of Viking Age cod from Haithabu, Germany

Multiscale climate change impacts on plant diversity in the Atacama Desert

Reconstructing prehistoric fishing zones in Palau, Micronesia using fish remains: A blind test of inter‐analyst correspondence

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