John M. Steinberg project developed and implemented a protocol of surface survey, coring, auger- ing, remote sensing (conductivity and resistivity), and test trenches to identify and explore archaeological remains with- out any surface sign (Steinberg and Bolender in press). The successful iden- tification of anomalies associated with archaeological sites depends on the pre- served remains having distinguishing characteristics. The main component of turf, and an important attribute that dis- tinguishes the walls from the surrounding soil, is turfs high organic content (Crowther 2002). Therefore, an under- standing of the post-depositional behav- ior of turf might be important for the identification of biases in site identifica- tion using remote sensing. Turf is primarily composed of Sphagnum (the peat mosses). Sphagnum is the only genus in the class Sphagnopsida but it consists of more than 300 species. Sphagnum has two special properties: through selective ion absorption, the pH in the center of a tuft of peat moss is often lower (pH=4.4) than surrounding soil and water (pH=6.0) and, due to a unique and unusual arrangement of two different kinds of cells in the leaves, it is highly absorptive. Therefore, areas inhabited by Sphagnum are extremely acidic. This prevents the dead Sphagnum and other organic material from decaying, creating peat deposits or bogs. Turf comes from the upper layers of partially compressed peat that has been cut and dried. When dry, the turf is light and has a consistency similar to cork, which, along with its good insula- tion properties, make it an excellent building material. Once a turf house is abandoned, the strips and blocks of turf erode and fall in various directions, usually leaving only the bottom of the wall intact, but sur- rounded by a substantial area of turf fall. It is likely that in the coastal and fjord areas of Skagafjörður, turf structures abandoned during the Viking Age would have been buried rapidly, preventing their destruction by the wind and weath- er. Soil deposition studies (Guðbergsson 1975, 1994) indicate that most of the 30 to 90 cm of aeolian soil that has accumu- lated in lowland Skagafjörður over the last 1100 years from eroding highland areas (e.g., Dugmore and Buckland 1991), was deposited during the first 250 years of settlement (ffom 874-1100 AD, see also Thorarinsson 1961). However, good conditions for preser- vation of turf structures do not necessari- ly imply that the identification of the early sites with substantial turf architec- ture is unbiased. Once buried, the small air pockets in turf that make up most of its volume, are compressed, substantially reducing the volume. Turf does contain inorganic matter, most of it deposited in bogs by the wind, (Johannesson 1960), caused by highland erosion (Lág 1955). The lower the inorganic content, the bet- ter the turf for house building (Gestsson 1982). Increased inorganic material in the turf blocks would have made them heavier; reduced their ability to insulate; and may have decreased their resistance to wind and weather. The combination of the reduction in turf volume and the dep- osition of substantial aeolian soils means that well-preserved compressed turf 62

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