To prepare for snow later this week, DelDOT will pretreat New Castle roads today. Pretreatment in Kent and Sussex will begin Thursday morning.
The National Weather Service predicts that 1 to 4 inches of snow will fall on Delaware roads Thursday and Friday. DelDOT is watching the weather closely.
Written on: December 31st, 2013 in Weather Related Notices
Rain and / or snow may affect Delaware roads later this week. Expect news and advice here.
Alternative Mitigation of the Polk Tenant Site (7NC-F-111). This month at Versar we’re blogging about an example 3D cut-away model of an 18th or early 19th-century well found in New Castle County. Part of our task in examining the archaeological record of wells excavated across Delaware is to prepare 3D models that help show what they might have looked like, and how they were built. We’ve found evidence for at least four broad types of well construction: circular brick wells, circular stone wells, square or rectangular wood-frame wells, and barrel-lined wells. Wells had to be lined in order to prevent the sides from caving in. The material chosen says something about the kinds of resources available at the time. Barrels with the tops and bottoms knocked out offered a simple and expedient way to build the needed support.
There was an excellent example of this type of well excavated by Versar for DelDOT at the Jones Site (7NC-J-204) during the State Route 1 project that we chose for our first model. The well was made from 3 barrels stacked on top of each other inside a hole dug some 12 to 15 feet into the ground to just below the water table. Only wood from the bottom-most barrel survived because it was saturated with water. The other barrels were found mostly as stains in the surrounding soil. Nevertheless, it was possible to accurately record the original shape and dimensions.
To make our model, we started with both photographs of the well taken while it was being excavated, and a measured profile drawing of the well prepared by field archaeologists. Our first step was to bring the measured profile drawing into Autodesk Maya, a software package designed for 3D modeling and animation. With the profile drawing as a reference, it was possible in orthographic view (a flat view with no perspective) to build 3D barrel shapes that match the size and shapes of the barrels we found in the field. We were also able to create a cut-away image of the surrounding soil showing the size and shape of the hole made for the barrels when the well was first dug. After the barrels were placed in the hole, the remaining open space was filled in with dirt. This fill dirt would have been a mix of all the soil excavated including dirt from near the top and bottom of the well shaft. This mixing gave the fill a different color and texture from the surrounding earth, which is what allowed us to identify it.
Once the model was built we added textures to the shape based on photographs of the wood we recovered on the site. Lastly we added lights to the scene and prepared this render of what a cut-away of the well might have looked like before the well shaft was filled back in. Over the next couple of months, we will be doing similar models of other types of wells found in Delaware.
Analysis of Burials from the Elkins Site (7NC–G–174)
The analysis of the human skeletal remains recovered from the Colonial era Elkins site in New Castle County by Hunter Research. Inc., is well underway at the University of Montana. Under the supervision of Professor Ashley McKeown, several graduate research assistants have been collecting data from the skeletal remains in order to generate the biological profile of each individual. This includes estimating sex, age, ancestry, and stature, and assessing any pathological conditions present. Another interesting aspect of the analysis involves documenting the patterns of copper-oxide staining on the bone caused by contact with copper-alloy straight pins associated with the use of shrouds as part of the burial process.
As these were unmarked burials, the information gained from the biological profiles, in conjunction with the ancient DNA analysis results, will help us understand who was buried in this small cemetery and any relationships that may have existed among these individuals.
For the past two weeks Hunter Research has been testing a predictive model developed for the identification of physical remains of early roads in the Delaware landscape: in this case one of the late 17th century Cart Roads, probably laid out by Augustine Herrman and certainly in place by 1740. We have termed it the “Reedy Island Cart-Road” because of its eastern terminus along the Delaware shore at Port Penn, opposite Reedy Island. Reedy Island was a safe anchorage and is shown and named on all 18th century maps. In terms of cross-peninsular trade from Herrman’s Bohemia Manor along the Upper Chesapeake, it was probably second in importance only to Appoquinimink (Odessa). This particular route seems to have functioned as a cut-off to shorten the distance between Bohemia Landing to the southwest and Reedy Island to the northeast.
The overall objectives of these investigations are:
a) to test the predicted alignment of the Reedy Island Cart Road Alignment in a specific area where the depositional model predicts that physical features of the road would likely survive;
b) to document these features and compare them with the existing data, and
c) to establish the nature of the road crossing of the East Spring Branch drainage.
These research contributions are part of the overall alternative mitigation program for the Cart Road.
The cart road alignments run across four main types of environmental setting within the Route 301 corridor (see Figure 1):
Zone 1: Essentially level farm fields
Zone 2: Farm fields with slight slopes towards drainages and wetlands
Zone 3: Wetlands, underlain by clay and lying adjacent to drainages
Zone 4: Drainage crossings
The following depositional conditions were predicted for these zones, based largely upon the data from Reedy Island Cart Road 4 and identified wagon tracks leading to a landing at the Rumsey Tenant Site 7NC-F-117:
Where the cart road crossed level farm fields, initial use created deep ruts within the upper sandy loam soils. For over a century after the abandonment of the road (i.e. circa 1780 to 1880) animal-traction plowing would have erased the upper portion of the ruts, blending them into the plowzone, but possibly leaving lower components in place. Subsequent mechanized plowing penetrated deeper in to the soil and increased erosion, especially through deflation on these level uplands. Up to two feet of the upper soil profile appears to have been lost at some locations along the Route 301 corridor, as evidenced by heavily truncated historic features such as cellars and postholes.
As in Zone 1 the period of initial use would have created deep ruts in the upper sandy loam soils and the period following (c.1780 to 1880) would have erased the upper portion of the ruts blending them into the plowzone. What differentiates Zone 2 from Zone 1 is the slight slope towards water courses. In areas of slight slopes towards drainages eroded soils from higher adjacent areas (Zone 1) were accreted during the period of mechanized plowing, partly burying the earlier plowzone and preserving the truncated ruts of the cart roads. On steeper slopes colluvial processes would tend to remove the material and deposit it further downslope.
Closer to the water the underlying clay lies closer to the surface. There is slight evidence that gravels may have been emplaced to form an informal road bed above the clay in this. Most of these clay areas were probably not plowed during the first century after abandonment but mechanized plowing in the 20th century took advantage of these marginal areas and likely erased any traces of the roadbeds
Crossings of the actual drainages would either have been by use of bridges or by means of a ford. Fords could be quite informal, simply making use of a portion of the stream having a solid exposed rocky base. This could be improved with wood corduroy or with gravel. Bridges required capital investment and were not common in the 18th century, being largely confined to major roads or “king’s highways”. The Reedy Island cart road spur is considered very unlikely have had bridges constructed along its alignment, and fords are much more likely at drainage crossings.
If the above model is valid, the best chances of documenting remains of the cart road within the proposed alignment were thought to be found in Zones 2 and 4 with a lower chance in Zone 3 and little or no chance in Zone 1. The best potential area conforming to these criteria within the proposed alignment lies buried beneath the plowzone of agricultural fields on the slight slopes near the edge of the woods. Elements of the cart road are also visible where a probable ford constructed of gravel was observed in the bed of the headwaters of northern branch of Drawyer Creek (East Spring Branch). The ford was observed during the Phase IA walkover by Geo-archaeologist John Stiteler (A&HC 2009).
a. LIDAR Image Analysis
LIDAR (Light Detection And Ranging) is an optical remote sensing that can measure the distance to, or other properties of, targets by illuminating the target with laser light and analyzing the backscattered light. LIDAR technology has applications in archaeology, geomorphology and contour mapping as well as a host of other fields. LIDAR operates on the same principles as radar and sonar.
LIDAR has many applications in the field of archaeology including aiding in the planning of fieldwork, mapping features beneath forest canopy, and providing an overview of broad, continuous features that may be indistinguishable on the ground such as the now buried 17th century cart road. LIDAR can create high-resolution digital elevation models (DEMs) of archaeological sites that can reveal micro-topography that are otherwise hidden by vegetation. LIDAR-derived products can be integrated into a Geographic Information System (GIS) for analysis and interpretation. Its ability to penetrate forest canopy has led to the discovery of features that were not distinguishable through traditional geo-spatial methods and are difficult to reach through field surveys. The intensity of the returned signal can be used to detect features buried under flat vegetated surfaces such as fields, especially when mapping using the infrared spectrum. The presence of these features affects plant growth and thus the amount of infrared light reflected back.
LIDAR imagery has been obtained for the project area and analysis is well underway by Seramur and Associates PC.
b. Testing for Physical Survival of the East Spring Branch Crossing through Non-Intrusive Survey
Testing the predictive model started with mapping of the probable ford location on the East Spring Branch. The probable ford is the only location where the stream can currently be crossed without sinking into the stream bed. It also aligns with the projected line of the section of the cart road identified to the west (Hunter Research, Inc. 2011b, Chapter 3). On the east side of the stream an apparent borrow pit and a probable ramp leading to the ford location were identified in 2011. Two large pieces of granite, which is not native to this area of Delaware, were identified at that time lying against the east bank of the stream.
Mapping required clearing of understory to facilitate use of the total station. The map will present close-interval contour mapping based on a surveyed grid and will show specific features and topographic detail.
c. Geophysical Survey
A combined Ground Penetrating Radar and Gradiometer Survey was undertaken with the objective of identifying the signature of the 18th century cart-road that is believed to have run through the project area. Approximately two and half acres of surface area were covered in the field on the east side of the East Spring Branch.
Ground penetrating radar (GPR) and gradiometer data were collected using a GSSI SIR3000 GPR system equipped with a 400 MHz antenna and a Geometrics G858 Cesium Vapor Gradiometer. A 2-foot grid was used in order to target former historic structures. The purpose of the two 2-foot grids was to identify anomalies possibly associated with features of the cart road and artifacts. Anomalies were marked in the field from the GPR as the surveys were conducted. It was hoped that the GPR and gradiometer surveys would determine the location of soil disturbance related to historic cart road and related features across the property. Based on a preliminary report adjustments to the field excavation strategy were geared towards potential targets.
d. Machine-assisted Excavation of Transects across Predicted Alignment
An archaeologically directed backhoe with a flat-blade bucket was used to remove the plowzone in trenches, placed to cross the potential alignment or alignments of the cart road in areas where the geophysical survey suggests that features from the road may lie. The prime objective was to expose the remains of the parallel ruts if present. Following the stripping, the trenches were shovel scraped and trowelled to identify and define the cultural features. Detailed mapping of each trench was then completed.
In addition to the search for visual identification of cart road features, a soil compaction investigation using a basic soil compaction meter/penetrometer was undertaken. This provided immediate relative compaction data across both the predicted line of the road and adjacent portions of the field. Compaction results will be checked against the known road alignment on the west of the stream, where a single narrow supplementary trench was placed across the road alignment to re-expose the ditches/ruts. Compaction testing was undertaken within, between, and outside the features.
Over the past 20 years, the Delaware Department of Transportation (DelDOT) has used cutting edge methods to look for and to study archaeological sites in Delaware. One method is analysis of a site’s soil chemistry (also known as soil geochemistry analysis). By specifically looking at the concentration and pattern of certain elements from soil samples taken at archaeological sites, such as calcium, phosphorous, magnesium, potassium, zinc, iron, aluminum, manganese, and others, archaeologists can learn about past site use, locations of former fences and buildings, areas of trash disposal and animal pens, and areas like paths that were kept clean of debris. Soil chemistry analysis has been used by archaeologists since the early 20th century, and has gained much popularity as a useful tool since the 1990s. Richard Grubb & Associates (RGA) has been given a special opportunity to look at soil chemistry studied at archaeological sites in Delaware dating between the 18th and 19th century. The data will be summarized in a detailed report to DelDOT. Over the next two years, RGA’s monthly blogs will talk about the soil chemistry at numerous archaeological sites in Delaware, the different analysis methods used, and what can be learned from each element. The next blog will discuss the history of soil chemistry on archaeological sites. Stay tuned!
Dovetail is currently working through the vast Houston-LeCompt (7NC-F-139) artifact assemblage. The lab staff has completed washing the Phase II artifacts and has begun cataloging. In just the first few days of cataloging, we have discovered many new treasures to add to the substantial collection of noteworthy artifacts recovered at this site.
Among the extravagant personal artifacts that already permeate the Houston-LeCompt assemblage, staff has identified a decorative oyster shell inlay, corset hook, cowrie shell, and a Pamplin tobacco pipe bowl. Several other notable artifacts include a toiletry related ironstone vessel that may be a soap dish or toothbrush holder and a brass Victorian-era twist doorbell. A two-tined iron fork and several more decorated bone handles will be added to the collection of eating utensils previously identified in the Phase III collection. Last but not least, a copper clock key impressed with ‘Ansonia Clock Co.’ typically used for late-nineteenth century figurine or grandfather clocks made by the company was identified, speaking to the post-Houston tenant occupation of this site.
As we continue to work through the remainder of the Phase II and III collection, Dovetail will continue to update these posts to share the interesting finds that we come across and, in the process, gain a better understanding of the occupants of the site.
As we noted in one of our earlier blog entries, the Polk Tenant Site (7NC-F-111) was excavated by archaeologists from Richard Grubb and Associates in 2011. As a result of their evaluation study, the Grubb researchers determined the site to be eligible for nomination to the National Register of Historic Places. One of the features found at the site was a brick-lined well. In lieu of traditional data recovery at the site, DelDOT and the Delaware State Historic Preservation Office agreed on an alternative mitigation involving preparation of a technical report of the evaluation investigation and a study synthesizing current data on historical wells across the state.
Versar has completed a draft of the archaeological evaluation report. The archaeologists from Grubb and Associates discovered that the site consisted of two main areas: a plowed field, and a house and well. The first part of the site—the plowed field—contained a widespread scatter of highly fragmented artifacts. The second area contained structural remains located along an abandoned farm road. Evidence for the structure included a large hole in the ground that the archaeologists determined to have been the cellar of a house that once stood on the spot, along with several walls associated with the cellar, and a round, brick-lined well shaft near one corner of the house.
Looking carefully at the artifacts from the two areas, Versar was able to work out some of the historic development of the site. Pieces of ceramic from the field included imported English wares like pearlware, which dates to a period beginning early in the 19th century. Most of the artifacts were quite small, which usually indicates that they were incidental, not directly associated with a house or other structure. In contrast, there were many more artifacts found in the area around the house by the farm road. The artifacts were generally larger than the ones from the field and many were architectural in nature, including things like nails, pieces of sheet metal or wire. This suggested that much of the material was debris left from the demolition of the house and that it had been pushed into the cellar hole and well to fill them in. Historical maps show a structure in this general location beginning in the late 19th century and that it was gone by the 1930s. The datable artifacts found in this part of the site confirmed the map evidence.
The site thus appeared to have been a tenant’s house occupied in the late-19th and early-20th century and associated with the larger C. Polk Estate (CRS N05221), a National Register-eligible property located to the southeast.
Skeletal Analysis of Burials from the Elkins Site (7NC-G-174)
The unmarked burials were excavated to avoid destruction from the US Route 301 highway project, and the discovery and analysis are being conducted in accordance with state law.
The human skeletal remains recovered from five burials associated with the Elkins Site are in the process of being analyzed under the supervision of Professor Ashley McKeown, a bioarchaeologist and forensic anthropologist in the Department of Anthropology at the University of Montana. An exciting component of the project is the ancient DNA analysis being conducted by Visiting Professor Meradeth Snow, an anthropological geneticist also at the University of Montana. This portion of the study is well underway, and so far, a small portion of the mitochondrial DNA molecule (which is found in the maternally-inherited mitochondria of a cell) has been successfully amplified for each of the five individuals. We are optimistic that this information in conjunction with more complete results can be used to identify any maternal relationships between the individuals. The positive results prove that DNA is present in the samples and may be used for additional research—such as pinpointing the possible familial relationships between all of the individuals.