Add to ORKGThe geological history of the surficial units of the Trap Pond and the Delaware portion of the Pittsville Quadrangle was the result of deposition of the Beaverdam Formation and its subsequent modification by erosion and deposition related to the sea-level fluctuations during the Pleistocene. The geology reflects this complex history by the cut and fill geometry of the Middle and late Pleistocene deposits into the Beaverdam Formation. The geology is further complicated by periglacial activity that produced dune deposits and Carolina Bays in the map area, which modified the land surface. Surficial geologic mapping was conducted using field maps at a scale of 1:12,000 with 2-foot contours. Stratigraphic boundaries drawn at topographic breaks r...
The Cypress Swamp of Sussex County, Delaware, is underlain by a body of late Pleistocene- to Holocen...
This report accompanies a new map that revises the original bedrock geologic maps of the Delaware Pi...
A subtle break in slope (marked with red arrow) was likely created by late-glacial sea wave action. ...
The geological history of the surficial units of the Millsboro Quadrangle and Delaware portion of th...
The geological history of the surficial units of the Clayton, Smyrna, and the Delaware portion of th...
The geological history of the surficial units of the Seaford East Quadrangle and the Delaware portio...
The geological history of the surficial units of the Frankford and Delaware portion of the Selbyvill...
The complex geologic history of the surficial units of the Harbeson Quadrangle is one of deposition...
The geologic history of the surficial units of the Bethany Beach and Assawoman Bay Quadrangles is th...
The geologic history of the surficial geologic units of the Georgetown Quadrangle is primarily that ...
This geologic map shows: (1) distribution of geologic units found at the land surface; (2) updip lim...
Rising and highstands of sea level during the middle to late Pleistocene deposited swamp to nearshor...
Investigation of the Neogene and Quaternary geology of the Milford and Mispillion River quadrangles ...
Delaware’s oldest rocks are metamorphic crystalline rocks of the central Appalachian Piedmont Physio...
This report includes 4 plates and 4 appendices as separate files.The geology and hydrology of the ar...
The Cypress Swamp of Sussex County, Delaware, is underlain by a body of late Pleistocene- to Holocen...
This report accompanies a new map that revises the original bedrock geologic maps of the Delaware Pi...
A subtle break in slope (marked with red arrow) was likely created by late-glacial sea wave action. ...
The geological history of the surficial units of the Millsboro Quadrangle and Delaware portion of th...
The geological history of the surficial units of the Clayton, Smyrna, and the Delaware portion of th...
The geological history of the surficial units of the Seaford East Quadrangle and the Delaware portio...
The geological history of the surficial units of the Frankford and Delaware portion of the Selbyvill...
The complex geologic history of the surficial units of the Harbeson Quadrangle is one of deposition...
The geologic history of the surficial units of the Bethany Beach and Assawoman Bay Quadrangles is th...
The geologic history of the surficial geologic units of the Georgetown Quadrangle is primarily that ...
This geologic map shows: (1) distribution of geologic units found at the land surface; (2) updip lim...
Rising and highstands of sea level during the middle to late Pleistocene deposited swamp to nearshor...
Investigation of the Neogene and Quaternary geology of the Milford and Mispillion River quadrangles ...
Delaware’s oldest rocks are metamorphic crystalline rocks of the central Appalachian Piedmont Physio...
This report includes 4 plates and 4 appendices as separate files.The geology and hydrology of the ar...
The Cypress Swamp of Sussex County, Delaware, is underlain by a body of late Pleistocene- to Holocen...
This report accompanies a new map that revises the original bedrock geologic maps of the Delaware Pi...
A subtle break in slope (marked with red arrow) was likely created by late-glacial sea wave action. ...