<p>During the late Quaternary, Iraqi Kurdistan was the scenario of several fundamental human-related<br>events including the dispersion of Homo in Asia and Europe, the origin of agriculture, the beginning<br>of urbanization, and the formation of the first state entities. We present the initial results of a<br>geoarchaeological investigation in this area, which aims to reconstruct a detailed framework of the<br>relationship between climatic changes, landscape responses, human adaptation, and settlement<br>distribution during the Late Quaternary. Paleoenvironmental and paleoclimatic data were collected<br>from two key areas: the territory of the Navkur and Faideh plains, in northern Kurdistan, and a portion<br>of the Erbil plain, in southern Kurdistan. In the two regions, the Land of Niniveh and MAIPE<br>archaeological missions are operating. Remote sensing, GIS analyses, and geomorphological survey<br>are the tools used for the geomorphological reconstruction of ancient hydrology (fluvial pattern) and<br>the evolution of distinct landforms. Geochemical and geochronological analyses on speleothems from<br>the Zagros piedmont caves of same region provide information on Holocene climatic variability in<br>the area. Whereas environmental settings and human land use are investigated on the basis of<br>sedimentological, palynological, micropaleontological, and geochemical analyses of a fluvio-<br>lacustrine sequences preliminary dated between 40 and 9 ka BP. The lacustrine sequence is composed<br>by clayey and silt-sandy sediments alternating calcareous and organic matter-rich layers.<br>Environmental and geomorphological data have been compared with archaeological information<br>(mostly the chronological distribution of the archaeological sites) to interpret exploitation of natural<br>resources, the settlement dynamics and shift in land use.&#160;</p>
Tells are multi-layered, archaeological mounds representing anthropogenic landforms common in arid regions. In such contexts, the preservation of the archaeological record is mined by ongoing climate changes, shift in land use, and intense human overgrazing. Such natural and human-driven factors tune the response of archaeological soils and sediments to erosion. Geomorphology offers a plethora of tools for mapping natural and anthropogenic landforms and evaluating their response to unremitting weathering, erosional and depositional processes. Here, we present a geomorphological investigation on two anthropogenic mounds in the Kurdistan Region of Iraq, with a special focus on the ongoing erosional processes mining their slope stability and threatening the preservation of the local archaeological landscape. Applying the revised universal soil loss equation model for soil loess derived from UAV imagery and implemented with geoarchaeological investigation, we assess the erosion rate along anthropogenic mounds and estimate the risk of losing archaeological deposits. We argue that a large-scale application of our approach in arid and semi-arid regions may improve our ability to (i) estimate the rate of soil and/or archaeological sediments loss, (ii) propose mitigation strategies to prevent the dismantling of the archaeological record, and (iii) schedule archaeological operations in areas of moderate to extreme erosion risk.
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