FastFind »   Lastname: doi:10.1029/ Year: Advanced Search  

Geophysical Monograph Series

 

Keywords

  • dry lands
  • geoarchaeology
  • climate change
  • Holocene Optimum
  • extreme events
  • aridification

Index Terms

  • 0429 Biogeosciences: Climate dynamics
  • 1622 Global Change: Earth system modeling
  • 1605 Global Change: Abrupt/rapid climate change
  • 1620 Global Change: Climate dynamics

Article

GEOPHYSICAL MONOGRAPH SERIES, VOL. 198, PP. 163-168, 2012

Heavy Rainfalls in a Desert(ed) City: A Climate-Archaeological Case Study From Sudan

Jonas Berking

Institute of Physical Geography, Freie Universität Berlin, Berlin, Germany


Janina Körper

Institute for Meteorology, Freie Universität Berlin, Berlin, Germany


Sebastian Wagner

Helmholtz Zentrum Geesthacht, Geesthacht, Germany


Ulrich Cubasch

Institute for Meteorology, Freie Universität Berlin, Berlin, Germany


Brigitta Schütt

Institute of Physical Geography, Freie Universität Berlin, Berlin, Germany


The rise and fall of ancient cultures in drylands is mainly controlled by the availability of water. Where no perennial water sources are available, (ancient) cultures in drylands often depend on the availability of water by effective rainfall as a source for water-harvesting measures. These settlements are susceptible to climatic changes. The reconstruction of such climate-human interactions is constrained, as paleoclimatic proxy archives provide climatic information at most with annual or seasonal resolutions, which is often not a sufficient resolution to relate them to the reactions or adaptations of societies to climatic shifts. For the city of Naga (16°N 33°E) in the dry hinterland of the middle Nile River, we present precipitation data for the last 6500 years employing two different downscaling approaches. In time slice experiments, we simulated selected episodes using a spatially high-resolved atmosphere general circulation model. Furthermore, combining observed precipitation data and a simulation of a coupled ocean-atmosphere general circulation model, we attained statistically downscaled precipitation data for the last 6500 years. Our results indicate that the mean precipitation and the frequency of runoff-generating rainfall events decreased from 6000 until 2000 years B.P. Since then, no significant changes occurred. Thus, the foundation of Naga about 2500 years B.P. coincided with a time when rainfall was still more reliable and less variable. Alterations in orbital parameters (according to Milankovic theory) may have been a major reason for the abandonment of the city.

Citation: Berking, J., J. Körper, S. Wagner, U. Cubasch, and B. Schütt (2012), Heavy rainfalls in a desert(ed) city: A climate-archaeological case study from Sudan, in Climates, Landscapes, and Civilizations, Geophys. Monogr. Ser., vol. 198, edited by L. Giosan et al., 163–168, AGU, Washington, D. C., doi:10.1029/2012GM001208.

references

Please wait one moment ...

Cited By

Please wait one moment ...