Hydrography of Mesopotamia

The earliest written sources of history illustrates the dependence of ancient civilizations on irrigation: Late 4th to 1st millennium BCE cuneiform texts reflect almost every aspect of water systems, especially the topological relation between settlements and water courses. The project aims to combine the information from the huge corpus of texts with remote-sensed reconstruction of ancient river canals and the numerous archaeological and geomorphological fieldwork projects. Such a combination of philological, archaeological, and geographical datasets is unique to date and will be merged into a single network of reconstructed watercourses thanks to the help of expertise in complex data analysis from Digital Humanities. The four participating research groups (digital humanities, philology, archaeology, geography) will jointly develop a method for data mining, data fusion and harmonization, data plausibilization, data analysis, and data presentation.

The research approach reposes on data mining and formal network analysis to link toponyms and hydronyms mentioned in texts with archaeological data on settlements and remote sensing-based hydrographical network reconstructions. The outcome is a multi-temporal network of rivers and canals, covering several key periods of Mesopotamian history from the late 4th to the 1st millennium BCE. Each disciplinary dataset will complement the others and help to fill eventual gaps and inaccuracies. Based on this multi-temporal hydrographic network, it will be possible to analyse changes in hydrography and link them with societal evolutions as derived from existing historical and archaeological knowledge and findings. The multi-temporal hydrographic network will then be used to develop a simplified 3D hydraulic model. The model will allow a closer investigation of specific environmental changes such as the increasing aridity on water circulation through the network and foster thereby further analyses on the impact of these environmental changes on civilizations.
Thus, the project extends the state of the art by elaborating a complete picture of the spatial and temporal evolution of the water infrastructure during the earliest history of our civilization. Only this integrated view on the space-time evolution of the whole alluvial plain allows to test and discuss the still open hypotheses on the role of climatic changes (e.g., drying), coastline evolution, or river avulsions and naturally triggered river relocations on the political-historical development. The explanatory power of the interdisciplinary project team and the combination of multiple types of information sources enables to consider multiple perspectives on the complexity of the evolution of the early societies in this area. 

Finally, the very extensive and complex datasets will be published in form of an interactive and open access database and in form of an interactive atlas. The database will be opened for future collaborations and maintained after the project. We will develop a method for data maintenance, data connection, data evaluation, data analysis, and data presentation. Indeed, for keeping up-to-date with developments in current and future research, we argue for open access, linked, curated, and versioned forms of data publication. This way, we expect the project outcomes to allow new developments in archaeology but also to benefit neighbouring disciplines and transdisciplinary studies in general.

HyMes Website

https://hymes.ch

Team

Principal Investigators 

PD Dr. Rita Gautschy, University of Basel (Research Group Digital Humanities)
Prof. Dr. Andreas Zischg, University of Bern (Research Group Geography)
PD Ingo Schrakamp, FU Berlin (Research Group Philology)
Prof. Dr. Mirko Novák, University of Bern (Research Group Archaeology)

Research Group Digital Humanities

Sebastian Borkowski M.A.

Research Group Archaeology

Dr. Susanne Rutishauser

Funding

Swiss National Science Foundation, 2023–2027