Summary
The prehistoric development and spread of grape cultivation and winemaking have impacted the world to a remarkable extent, shaping core social traditions, religious and secular rituals, and the world economy. Despite the cultural significance of viniculture, there are major gaps in our understanding of its development, including:
A) when and where white berries were first propagated,
B) when varieties became established into local traditions, and
C) how viniculture changed during cultural upheavals.
In DREGS, I will explore these questions by analysing ancient seeds excavated from archaeological sites across Eurasia and North Africa dating 1000 BCE to the Middle Ages. Under the guidance of experts at the University of York, I will be trained in 2- and 3-dimensional documentation of seeds and then recover the ancient DNA (aDNA) they contain. Preliminary results demonstrate berry colour and variety can be inferred using aDNA, so I anticipate findings on the above questions will lead to publications in top journals and generate great public interest on social media.
During the programme I will also be trained in residue analysis of artefacts. I hypothesize amphorae resin preserves aDNA in archaeological sites that do not yield grape seeds. To test this idea, I will characterize lipids from resinous deposits of dozens of amphorae as well as the DNA within the resin. To properly identify DNA sequences within these complex metagenomic palimpsests, a bioinformatician at the University of Warwick will guide my analyses. Although I have just begun a lectureship, the two years of research enabled by DREGS will allow me to acquire new skills that will ultimately be transferred to students and my collaborators. Furthermore, my novel direct testing of wine artefacts will allow me to explore the history of wine across the European Research Area, raising my profile in the field and helping consolidate myself as group leader of world-class palaeogenomics laboratory.
A) when and where white berries were first propagated,
B) when varieties became established into local traditions, and
C) how viniculture changed during cultural upheavals.
In DREGS, I will explore these questions by analysing ancient seeds excavated from archaeological sites across Eurasia and North Africa dating 1000 BCE to the Middle Ages. Under the guidance of experts at the University of York, I will be trained in 2- and 3-dimensional documentation of seeds and then recover the ancient DNA (aDNA) they contain. Preliminary results demonstrate berry colour and variety can be inferred using aDNA, so I anticipate findings on the above questions will lead to publications in top journals and generate great public interest on social media.
During the programme I will also be trained in residue analysis of artefacts. I hypothesize amphorae resin preserves aDNA in archaeological sites that do not yield grape seeds. To test this idea, I will characterize lipids from resinous deposits of dozens of amphorae as well as the DNA within the resin. To properly identify DNA sequences within these complex metagenomic palimpsests, a bioinformatician at the University of Warwick will guide my analyses. Although I have just begun a lectureship, the two years of research enabled by DREGS will allow me to acquire new skills that will ultimately be transferred to students and my collaborators. Furthermore, my novel direct testing of wine artefacts will allow me to explore the history of wine across the European Research Area, raising my profile in the field and helping consolidate myself as group leader of world-class palaeogenomics laboratory.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/842577 |
| Start date: | 01-09-2019 |
| End date: | 31-08-2021 |
| Total budget - Public funding: | 212 933,76 Euro - 212 933,00 Euro |
Cordis data
Original description
The prehistoric development and spread of grape cultivation and winemaking have impacted the world to a remarkable extent, shaping core social traditions, religious and secular rituals, and the world economy. Despite the cultural significance of viniculture, there are major gaps in our understanding of its development, including:A) when and where white berries were first propagated,
B) when varieties became established into local traditions, and
C) how viniculture changed during cultural upheavals.
In DREGS, I will explore these questions by analysing ancient seeds excavated from archaeological sites across Eurasia and North Africa dating 1000 BCE to the Middle Ages. Under the guidance of experts at the University of York, I will be trained in 2- and 3-dimensional documentation of seeds and then recover the ancient DNA (aDNA) they contain. Preliminary results demonstrate berry colour and variety can be inferred using aDNA, so I anticipate findings on the above questions will lead to publications in top journals and generate great public interest on social media.
During the programme I will also be trained in residue analysis of artefacts. I hypothesize amphorae resin preserves aDNA in archaeological sites that do not yield grape seeds. To test this idea, I will characterize lipids from resinous deposits of dozens of amphorae as well as the DNA within the resin. To properly identify DNA sequences within these complex metagenomic palimpsests, a bioinformatician at the University of Warwick will guide my analyses. Although I have just begun a lectureship, the two years of research enabled by DREGS will allow me to acquire new skills that will ultimately be transferred to students and my collaborators. Furthermore, my novel direct testing of wine artefacts will allow me to explore the history of wine across the European Research Area, raising my profile in the field and helping consolidate myself as group leader of world-class palaeogenomics laboratory.
Status
CLOSEDCall topic
MSCA-IF-2018Update Date
28-04-2024
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EU-Programme-Call
Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.3. EXCELLENT SCIENCE - Marie Skłodowska-Curie Actions (MSCA)
H2020-EU.1.3.2. Nurturing excellence by means of cross-border and cross-sector mobility
H2020-MSCA-IF-2018
MSCA-IF-2018
