The Silent Grave: A geophysical investigation of the Brush Arbor Cemetery in Starkville, Mississippi

Rayburn, Kathryn Cassidy Jean

12 May 2023

The Brush Arbor Cemetery is an early-to-late 19th century Black cemetery that was also the meeting place of one of the first Black church congregations in Starkville, Mississippi. The cemetery has suffered greatly from structural violence and degradation. Utilizing Ground Penetrating Radar (GPR), this research has revealed important information about the Brush Arbor Cemetery. The results of the GPR survey suggest there are 54 potential unmarked burials in addition to 35 marked burials. The Viewshed analysis suggests that the likely meeting place of the church congregation is in complete view of the white Odd Fellows Cemetery directly across the street. The Nearest Neighbor Index shows that the remaining headstones are randomly distributed throughout the property, but that the vandalism of these headstones are dispersed indicating that vandals target undamaged headstones on the property. Although this research recognizes the structural violence that has taken place at the Brush Arbor Cemetery it also highlights the ongoing vandalism that continues to transpire on this landscape.

Black Cemeteries

Cemetery

Ground Penetrating Radar

Unmarked Burials

African History

Archaeological Anthropology

Detection And Evaluation Of Exisiting Pavement System With Brick Base

Desai, Karishma

01 January 2004

At the turn of the century, the City of Orlando initiated the "Neighborhood Horizon Program." This program involved local citizens to help improve their community resources by engaging in a process of planning where the problems associated with the communities were identified. Many residents favored to bring back the brick roads that were overlaid with asphalt concrete to provided better transportation in the mid 1900s. With majority of the neighborhood streets already bricked, removing asphalt ensured safety, served as a technique for slowing traffic, and added to the historical integrity. Since there were no official documentations available that stated the definite existence of bricks beneath the asphalt surface course, it would have been rather impossible to core hundreds of locations to ensure the whereabouts of these anomalies. Thus, without time delays and excessive coring costs, a nondestructive instrumentation of Ground Penetrating Radar (GPR) was employed in the detection of bricks. This geophysical survey system distinguishes materials based on their different electrical properties that depend upon temperature, density, moisture content and impurities by providing a continuous profile of the subsurface conditions. The Ground Penetrating Radar operates on the principle of the electromagnetic wave (EMW) theory. The main objectives of this study was to investigate the existing pavement by using Ground Penetrating Radar (GPR) in detecting the brick base and to analyze the performance of pavement system for fatigue and rutting. The results of this study will assist the City of Orlando in removing asphalt layer, rebuilding of brick roads, and facilitate in better zoning and planning of the city. The construction of controlled test area provided with a good sense of brick detection, which helped in precise locations bricks for sections of Summerlin Avenue, Church Street and Cherokee Drive. The project demonstrated a good sense of detecting the subsurface anomalies, such as bricks. The validation of the profile readings was near to a 100%.

GPR

SIR-20

Ground Penetrating Radar

Pavement

Brick Base

Downtown Orlando

Orlando

Civil Engineering

Engineering

Monitoring Shallow Controlled Graves Containing Small Cadavers Using Ground Penetrating Radar

Fletcher, Joanna Mae

01 January 2011

Ground-penetrating radar (GPR) can be a useful geophysical instrument in the search and detection of clandestine graves in a forensic context. Controlled research in the field of forensic archaeology has demonstrated the applicability of this technology and is vital for improving GPR search methods. The objectives of this research was to evaluate the applicability of GPR, using 250 MHz and 500 MHz antennae, to locate shallow graves containing small pig cadavers in various burial scenarios over a 12 month period. Data was collected on a controlled grid containing six graves at 0.5 m in depth: five graves containing pig carcasses and one control grave. The five graves containing the pig carcasses were devised to test a number of common forensic burial scenarios. The reflection profile data was processed using the computer program REFLEXW. The results demonstrate that the additional grave items did not always increase the detection of the grave for this monitoring period. Further, the low demarcation of the grave containing disturbed backfill illustrated that the hyperbolic reflection features were the result of the pig carcasses and not the disturbed soil. In terms of antenna performance, the 250 MHz data initially provided a higher resolution within the first few months. However, over time the higher detail provided by the 500 MHz data consistently resulted in easily discernable reflections.

Burial -- Florida

Forensic anthropology

Forensic archaeology

Ground penetrating radar

Anthropology

Archaeological Anthropology

Detecting Buried Metallic Weapons In A Controlled Setting Using A Conductivity Meter And A Ground-penetrating Radar

Dionne, Charles

01 January 2009

Searching for buried metallic evidence at crime scenes or at potential disposal sites can be a daunting task for forensic personnel. In particular, it is common to search for a small firearm that was discarded or buried by the perpetrator. When performing forensic searches, it is recommended to first use non-invasive methods such as geophysical instruments to minimize damage to evidence and to the crime scene. Geophysical tools are used to pinpoint small areas of interest across a scene that will be invasively tested later. Prior to this project, there was no published research that tested the utility of the conductivity meter to search for metallic weapons such as firearms and blunt or sharp edged weapons. A sample comprised of 32 metallic weapons was buried in a controlled setting to test the applicability of a conductivity meter for forensic searches. Weapons were tested at multiple depths; once data collection was performed for one depth, the weapons were reburied 5cm deeper until they were no longer detected. Results obtained with conductivity meter were compared to results obtained by the ground-penetrating radar using different depths and transect intervals. The effects of several variables on detection such as weapon size, metallic composition, burial depth, and transect interval were analyzed in order to explore the limitations of each instrument. Results obtained from this controlled research can provide guidelines to help law enforcement in real-world searches.

Forensic archaeology

conductivity meter

ground-penetrating radar

geophysical methods

Anthropology

Archaeological Anthropology

Compact Microstrip Antenna Design for Microwave Imaging

Adnan, S., Abd-Alhameed, Raed, Hraga, Hmeda I., Elfergani, Issa T., Child, Mark B.

08 November 2010

Yes / An ultra-wideband microstrip antenna design is considered with respect to applications in breast cancer detection. The underlying design concept is based on ground penetrating radar (GPR). Simulated and measured prototype performance show excellent performance in the input impedance and radiation pattern over the target range from 4 GHz to 8 GHz. The 4 GHz to 8GHz frequency band for microwave imaging perform better in comparison with other microwave frequencies. The antenna also shows a reasonable uniform radiation performance in the broadside direction which contributes to the reduction of clutter levels, thus aiding the reconstruction quality of the final image.

Ultra-wideband microstrip antenna

Ground penetrating radar

Breast cancer detection

Microwave imaging

Tumour detection

TIMING OF THE EMPLACEMENT OF ANCIENT COASTAL DEPOSITS OF GEORGIA AIDED BY GROUND PENETRATING RADAR AND DETERMINED BY OPTICALLY STIMULATED LUMINESCENCE AND ELECTRON SPIN RESONANCE OPTICAL DATING

Hendricks, Robert R.

January 2016

ESR, OSL and TT-OSL dating methods were applied to samples collected from six of the Ancient Coastal Deposits (ACDs) along the southern Georgia Coastline. Samples were collected from the Princess Anne (the youngest and most seaward ACD), Pamlico, Talbot, Penholoway, Wicomico, and Okefenokee ACDs with the goal of determining the age of formation of these features. Ground Penetrating Radar (GPR) was used to determine the subsurface morphology and target lithologies for age determination. OSL and TT-OSL dating was attempted on samples collected from the youngest two ACDs, the Pamlico and Princess Anne, at McMaster Universities AGE Lab. ESR samples collected from all of the ACDs studied were measured at Florida State University as well as Osaka University. ESR analysis measured the Al signal, the Ti-Li signal, measured using two different methods, as well as the Ti-H signal. A number of low additive dose points were added to the ESR dose plan to attempt to create a better dose response curve for the low saturating Ti-H signal in attempt to better utilize the signal. While the geochronological methodology did not prove useful for determining the age of all of the ACDs it did result in depositional age estimates for the Cypresshead Formation at 433-2978 ka and Satilla Formations at 243-417 ka using the Ti-Li ESR signal as a maximum age estimate. The GPR, ESR, and core data all point to the conclusion that the ACDs of the Georgia Coast are geomorphic modifications and not the result of a unique depositional process. Based on the discrepancy between the depositional age of the Cypresshead and Satilla Formations as determined by ESR in this study and the ages of the ACDs published by others from Georgia (Markewich et.al., 2013) or other areas of the Atlantic Coast (Wehmiller, 2004; Willis, 2006) it can be concluded that paleo sea-levels modified the Cypresshead and Satilla Formations in to the morphology seen today at some point after their initial deposition. / Dissertation / Doctor of Philosophy (PhD) / ESR, OSL and TT-OSL dating methods were applied to samples collected from six of the Ancient Coastal Deposits (ACDs) along the southern Georgia Coastline with the goal of determining the age of formation of these features. Ground Penetrating Radar (GPR) was used to determine the subsurface morphology and target lithologies for age determination. A number of low additive dose points were added to the ESR dose plan to attempt to create a better dose response curve for the low-dose saturation of the Ti-H signal in attempt to better utilize the signal. While the geochronological methodology did not prove useful for determining the age of all of the ACDs, it did result in depositional age estimates for the Cypresshead Formation at 433-2978 ka and Satilla Formations at 243-417 ka. The GPR, ESR, and core data all point to the conclusion that the ACDs of the Georgia Coast are geomorphic features without unique depositional events.

GEORGIA

ANCIENT COASTAL DEPOSITS

GROUND PENETRATING RADAR

OPTICALLY STIMULATED LUMINESCENCE

ELECTRON SPIN RESONANCE OPTICAL DATING

Geomorphic and Chronologic Assessment of Glacial Lake Agassiz Strandlines in Polk County, NW Minnesota

Casaus, Maureen Patricia Redmond

15 June 2023

No description available.

Geomorphology

Geology

Glacioisostatic Adjustment

Ground Penetrating Radar

ArcGIS

Coastal Geomorphology

Lake Level

Assessment of Ground-Penetrating Radar and Comparison with Resistivity for Detecting Subsurface Cavities within Karst Topography in North-Central Ohio

McGraw, Timothy Joseph

14 August 2010

No description available.

Geology

Geophysics

GPR

Ground-Penetrating Radar

Resistivity

Karst

Solution Features

North-Central Ohio

A Comparitive Analysis of Glacial Landforms: Skeidararsandur Iceland and Northwestern Pennsylvania

Arnold, Billie J.

15 January 2014

No description available.

Geology

Physical Geography

Ground-penetrating radar

GPR

tunnel valleys

meltwater

glacial landforms

A geophysical investigation to locate missing graves utilizing ground penetrating radar, electromagnetic, and magnetic methods.

Shank, Jared Wyatt

January 2013

No description available.

Geophysical

Geophysics

Electromagnetics