The Laboratory Excavation of a Soil Block from Sylvester Manor

This article describes a method of retrieving a large intact soil block from the midden area of the Sylvester Manor site. The soil was micro-stratigraphically excavated within a laboratory setting and analyzed using new approaches to the direct observation of micro-artifact distributions and trace residues on soil surfaces. Low technology analytical methods were selected from fields unrelated to archaeology but readily accessible to workers in a standard archaeological processing laboratory. Preliminary findings are presented in the hope that new low-cost field and laboratory methods can be developed. For example particle mapping of micro-artifacts by direct observation of soil profiles is explored as a possible method of determining the relative dates of bioturbated deposits. A method of visualizing degraded proteins on soil surfaces by ultraviolet fluorescence tagging is presented as a way of collecting soft tissue residues. Lastly, the use of density beads with an aqueous heavy liquid is shown as a promising method for the collection of heavy minerals from soil samples

Byzantium Beneath the Black Sea

This poster reports on the August 2007 Black Sea Expedition of the Institute for Archaeological Oceanography at the University of Rhode Island (IAO) and the Institute for Exploration (IFE), in collaboration with the Department of the Underwater Heritage of Ukraine. This year’s work marks a new phase in a multi-year (2000–2012) archaeological and oceanographic survey of the Black Sea. 2007 fieldwork focuses on two Byzantine shipwrecks. The 10th century C.E. shipwreck Chersonesos A (discovered in 2006) lies at 140 m depth in the suboxic zone off the Crimean peninsula. The ship carried a cargo of one-handled jars of a widely distributed but sparsely documented local type. The sixth century C.E. shipwreck Sinop D (discovered in 2000) lies at 325 m depth off Sinop, Turkey, in the anoxic zone, and also carried a locally-made amphora type. Sinop D is the best-preserved ancient ship yet discovered in the deep sea, and non-intrusive examination of the hull yields unique information about ancient ship construction and local patterns of technological exchange. Our initial studies focus on environmental characterization and the deepwater implementation of long-term site monitoring, decay rate testing, and sediment analyses, to develop management plans for each shipwreck. Cross-site comparisons address deepwater preservation under differing levels of oxygen depletion. We conclude with an assessment of our ability to record, excavate, monitor, and conserve deepwater sites as underwater museums using remote operated vehicle (ROV) deployed technology

The Archaeology of Hassanamesit Woods: The Sarah Burnee/Sarah Boston Farmstead

Between 2003 and 2013 the Fiske Center for Archaeological Research at the University of Massachusetts Boston conducted an intensive investigation of the Sarah Burnee/Sarah Boston Farmstead on Keith Hill in Grafton, Massachusetts. The project employed a collaborative method that involved working closely with the Town of Grafton, through the Hassanmesit Woods Management Committee, and the Nipmuc Nation, the state recognized government of the Nipmuc people. Yearly excavation and research plans were decided through consultation with both the Nipmuc Tribal Council, their designated representative, Dr. D. Rae Gould, and the Hassanamesit Woods Management Committee. Dr. Gould also played a continuous and active role in reviewing and collaborating on research activities including scholarly presentations at national and international academic meetings and public presentations at the community level. Large scale excavation between 2006 and 2013 focused on the Sarah Burnee/Sarah Boston farmstead that was occupied intensively between 1750 and 1840. Sarah Burnee and Sarah Boston were two of four Nipmuc women to own and possibly reside on the 206 acre parcel that today comprises Hassanamesit Woods. The other two, Sarah Robins and Sarah Muckamaug, were Sarah Burnee’s grandmother and mother respectively. Excavation, archaeogeophysical survey, soil chemistry, and micromorphological and macrobotanical analysis were combined with the analysis of material culture and faunal material to generate a detailed picture of Nipmuc life during the 18th and 19th centuries. Excavation also found evidence of earlier indigenous occupations spanning some 6,000 years. The most intensive period of occupation covered the period 1750 to 1840, but with a significant spike the period 1790 to 1830. This appears to coincide with the coming of age of Sarah Boston who continues to live in the household with her mother Sarah Burnee Philips. Based on a combination of the documentary, architectural and archaeological data, it seems that an addition was made the structure between 1799 and 1802. A rich material assemblage of more than 120,000 artifacts was recovered from the site that provides detailed information on cultural practices including foodways, exchange networks, agricultural activities and other work-related activities such as basket making. A wealth of foodways related artifacts as well as faunal and floral remains provide ample evidence of daily meals and feasting. The latter conclusion is particularly important because of the implications is has for demonstrating that the Hassanamisco Nipmuc were regularly engaged in political activities. We believe the findings of the project provide empirical evidence that counters arguments made by the Bureau of Indian Affairs that the Hassanamisco Nipmuc did not persist as a politically and culturally continuous community

Archaeological oceanography and environmental characterization of shipwrecks in the Black Sea

The August 2007 expedition to the Black Sea continued a multiyear project designed to locate and study ancient shipwrecks in deep water. The expedition revisited and investigated two shipwrecks, Sinop D (at 325 m depth off Sinop, Turkey) and Chersonesos A (at 135 m depth off Sevastopol, Ukraine). These wreck sites are good case studies for our research because they are located in different parts of the Black Sea, in anoxic and suboxic waters, respectively. Preliminary data reported here are from seawater samples taken from around the wrecks and a year-long collection of temperature, salinity, and pressure data. Trace-element data from the seawater samples are consistent with reported processes and values for the Black Sea. The oceanographic sensor data confi rm the stagnant nature of the anoxic water layer that has allowed for the high level of preservation of the Sinop D wreck site. We also discuss the design and placement of two sets of experiments left in situ to characterize the decay rates of common materials found on ancient shipwrecks, including wood and metal. By providing ways to understand the chemical and physical processes that characterize different parts of the Black Sea water column, these wrecks are important sites for (1) determining the preservation potentials of cultural materials in deep water, and (2) informing the design of methodologies necessary to conserve them. © 2011 Geological Society of America