Dark earth

Dark earth in archaeology is an archaeological horizon, as much as 1 metre (3 ft) thick, indicating settlement over long periods of time. The material is high in organic matter, including charcoal, which gives it its characteristic dark colour; it may also contain fragments of pottery, tile, animal bone and other artefacts. It is interpreted as soil enriched with the sooty remains of thatched roofs from houses without chimneys, with other waste materials. In some areas it appears to give the soil added fertility.

London's dark earth was originally called 'black earth' by archaeologists. It was renamed 'dark earth' because of confusion with the chernozem (black earth soils in Russia), whose dark colour is traditionally (not universally)[1][2][3][4] thought to come from humus, rather than soot.

Charred material as agricultural improver

In the Hebrides, it was customary to remove the thatch from the "black houses" every spring, and spread it on the fields as fertilizer, improved by the soot which it retained. On Achill Island, special smoke huts were built in the fields, stone structures with sod roofs. From October to May smoky fires burned inside them, and in spring the sods were spread on the fields.[5] In the Amazon basin, there are very extensive areas of dark soil, known as terra preta, enriched by small particles of soot, and these areas are much more fertile than the natural soil.

Major areas

Roman Britain

In England, dark earth covers many areas that were built up in the Roman period, especially Londinium. In some cases, it may represent open spaces on the edge of urban centres, but can also be found in more rural settings in and around foci of settlement. In the example of London, deposits underlying the ancient city's dark earth are often dated to between the 2nd to 5th century, the middle and later Roman period. Overlying deposits are frequently dated to the 9th century when Saxon London was repopulated and began to expand. The dark earth shows little evidence of any depositional structure or 'horizons', although tip lines are sometimes recorded.

Archaeologists have debated what London's dark earth layer may indicate about human use of the city. It has been taken as evidence of refuse disposal or gardening during the Roman period on the site of previous buildings. In this case it might be evidence of a decline of Londinium's population, or of its partial displacement outside the city walls. However, late Roman cemeteries around London do not show a population decline compared with earlier London.

Alternatively, dark earth might have formed only after abandonment at the end of the Roman period. In this interpretation, dark earth would consist of urban deposits of smoke-impregnated thatch, decayed weeds, timber, and earth floors, reworked and homogenized by worm action,[6] or by agricultural (ploughing), which mixed building materials from the abandoned Roman cities with material deposited later.


In Sweden, dark earth covering 40 hectares (100 acres) has been found in Uppåkra, in Scania, southern Sweden, where a city-like settlement existed from about the year 1 until 1000 C.E. when the settlement shifted to modern day Lund. Dark earth over 7 hectares (17 acres) has been found in the Viking city of Björkö (today called Birka), in central Sweden, close to modern Stockholm. Dark earth has also been found in Köpingsvik, on the island of Öland close to the southern Sweden east coast.

West Africa

Dark earths occur around ruins in the Upper Guinean forests of Ghana, Guinea, Liberia and Sierra Leone.[7][8] For a period of at least 700 years, West African farmers have enriched the rain forest soils around their towns with compost derived from kitchen, animal, agricultural, and fire waste to produce a signature dark earth. Dark earth is part of the local nomenclature, economically important, and is used judiciously by local communities.[8] The Loma and Mende peoples currently improve soil in this fashion. They well understand how this connects them to the durable legacy of fertile dark earth that encircles the ruined sites in the region.[7] Locals associate the age of their own towns with the depth of their black soil.[8]

See also


  1. Lehmann, J.; Kleber, M. (2015-12-03), "The contentious nature of soil organic matter", Nature, 528 (7580): 60–8, Bibcode:2015Natur.528...60L, doi:10.1038/nature16069, PMID 26595271
  2. Eckmeier, Eileen; Gerlach, Renate; Gehrt, Ernst; Schmidt, Michael W.I. (2007), "Pedogenesis of Chernozems in Central Europe — A review" (PDF), Geoderma, 139 (3–4): 288–299, Bibcode:2007Geode.139..288E, doi:10.1016/j.geoderma.2007.01.009, archived from the original (PDF) on 2016-03-08, retrieved 2016-02-28
  3. Schmidt, M.W.I.; Skjemstad, J.O.; Jäger, C. (2002), "Carbon isotope geochemistry and nanomorphology of soil black carbon: Black chernozemic soils in central Europe originate from ancient biomass burning", Global Biogeochemical Cycles, 16 (4): 70–1–70–8, Bibcode:2002GBioC..16.1123S, doi:10.1029/2002GB001939, These data challenge the common paradigm that chernozems are zonal soils with climate, parent material and bioturbation dominating soil formation, and introduce fire as a novel, important factor in the formation of these soils
  4. Eckmeier, E. (2007), Detecting prehistoric fire-based farming using biogeochemical markers, University of Zurich, Faculty of Science., doi:10.5167/uzh-3752, It is now an open question as to whether Neolithic settlers did indeed prefer to grow crops where Chernozems occurred or if Neolithic burning formed the chernozemic soils.
  5. The book of masonry stoves. David Lyle. Brick House Publishing Co, Inc. Andover, Massachusetts, 1984. ISBN 0-931790-57-3 (paperback edition) p.23
  6. "Charles Darwin and his brilliant book on Earth worms chapter-3". www.webmesh.co.uk.
  7. Frausin, Victoria; Fraser, James Angus; Morrison, Woulay Narmah; Thomas, K. Lahai; Winnebah, R. A.; Fairhead, James; Leach, Melissa (October 2014). "God Made the Soil, but We Made It Fertile: Gender, Knowledge, and Practice in the Formation and Use of African Dark Earths in Liberia and Sierra Leone" (PDF). Human Ecology. 42 (5): 695–710. doi:10.1007/s10745-014-9686-0. ISSN 0300-7839.
  8. Solomon, Dawit; Lehmann, Johannes; Fraser, James A; Leach, Melissa; Amanor, Kojo; Frausin, Victoria; Kristiansen, Søren; Millimouno, Dominique; Fairhead, James (2016). "Indigenous African soil enrichment as climate-smart sustainable agriculture alternative" (PDF). Front Ecol Environ. 14 (2): 71–76. doi:10.1002/fee.1226. Lay summary.
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