Summary
CroProLITE aims to evaluate the Islamic Green Revolution (IGR) thesis–involving crop introduction from eastern and central Asia to the Mediterranean by Early Islamic empires–through a microregional comparative study of 1st millennium CE agropastoral change. It applies archaeobotanical and biomolecular methods to numerous well-preserved plant macrofossils and herbivore dung pellets from rubbish dumps at nine Roman-Early Islamic trading sites in the Aravah valley on the southern border of modern Israel-Jordan and the adjacent Negev Highlands. Some sites are associated with Early Islamic agrotechnological introduction of qanat irrigation, indicating likely Early Islamic crop introduction there. Capitalizing on similarity of archaeological context alongside dissimilarity of historic-economic context, the comparative method will be applied to these regions and periods. To identify seasonal agropastoral rhythms, an extensive and innovative multi-proxy methodological study will analyse contents of ancient dung pellets from the sites. New datasets generated from plant remains and coprolites will allow synthesis of agropastoral developments at seasonal to millennial scales and framing of findings in terms of ancient economic history and Mediterranean deep history. Lessons on agricultural continuity and change from the Negev-Aravah in the face of first millennium CE global climate change, plague and cultural conflict hold promise for improved understanding of historical effects of environmental stressors. In unearthing such lessons, CroProLITE will contribute to long-term environmental risk assessment and reflection on our own society’s future, offering a model for environmental humanities research.
Host supervisor and leading palaeoproteomics scholar Matthew Collins will guide biomolecular archaeology training through coprolite analysis, alongside multiple mentors for ancient economic history and Mediterranean history-archaeology, including career mentor Cyprian Broodbank.
Host supervisor and leading palaeoproteomics scholar Matthew Collins will guide biomolecular archaeology training through coprolite analysis, alongside multiple mentors for ancient economic history and Mediterranean history-archaeology, including career mentor Cyprian Broodbank.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101025677 |
| Start date: | 01-09-2022 |
| End date: | 31-08-2024 |
| Total budget - Public funding: | 224 933,76 Euro - 224 933,00 Euro |
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Original description
CroProLITE aims to evaluate the Islamic Green Revolution (IGR) thesis–involving crop introduction from eastern and central Asia to the Mediterranean by Early Islamic empires–through a microregional comparative study of 1st millennium CE agropastoral change. It applies archaeobotanical and biomolecular methods to numerous well-preserved plant macrofossils and herbivore dung pellets from rubbish dumps at nine Roman-Early Islamic trading sites in the Aravah valley on the southern border of modern Israel-Jordan and the adjacent Negev Highlands. Some sites are associated with Early Islamic agrotechnological introduction of qanat irrigation, indicating likely Early Islamic crop introduction there. Capitalizing on similarity of archaeological context alongside dissimilarity of historic-economic context, the comparative method will be applied to these regions and periods. To identify seasonal agropastoral rhythms, an extensive and innovative multi-proxy methodological study will analyse contents of ancient dung pellets from the sites. New datasets generated from plant remains and coprolites will allow synthesis of agropastoral developments at seasonal to millennial scales and framing of findings in terms of ancient economic history and Mediterranean deep history. Lessons on agricultural continuity and change from the Negev-Aravah in the face of first millennium CE global climate change, plague and cultural conflict hold promise for improved understanding of historical effects of environmental stressors. In unearthing such lessons, CroProLITE will contribute to long-term environmental risk assessment and reflection on our own society’s future, offering a model for environmental humanities research.Host supervisor and leading palaeoproteomics scholar Matthew Collins will guide biomolecular archaeology training through coprolite analysis, alongside multiple mentors for ancient economic history and Mediterranean history-archaeology, including career mentor Cyprian Broodbank.
Status
SIGNEDCall topic
MSCA-IF-2020Update Date
28-04-2024
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