Abstract
Topographic map evidence is used to interpret Pennypack Creek drainage basin erosion history in and north of the City of Philadelphia, Pennsylvania (USA). Southwest and west-southwest oriented through valleys crossing the south oriented Pennypack Creek drainage basin, barbed Pennypack Creek tributaries, and significant valley direction changes are used to determine that the Pennypack Creek valley eroded headward across massive southwest oriented floods. Initially floodwaters flowed on a low gradient topographic surface at least as high, if not higher, than the highest Pennypack Creek drainage basin elevations today. Shallow low gradient diverging and converging flow channels were eroded into the underlying bedrock surface predominantly along fault lines and other zones of easier to erode materials. Headward erosion of the much deeper Pennypack Creek valley across this anastomosing channel complex captured southwest oriented floodwaters and flow on northeast ends of beheaded channels was reversed so as to move toward the newly eroded and deeper Pennypack Creek valley. These reversed flow channels captured southwest oriented floodwaters still moving north of the actively eroding Pennypack Creek valley head. This captured water then moved in a northeast direction and eroded deep northeast oriented valleys headward from the newly eroded Pennypack Creek valley. These valleys today account for northeast and east oriented Pennypack Creek valley segments and northeast oriented (barbed) tributaries flowing to south oriented Pennypack Creek. The floodwater source cannot be determined from Pennypack Creek drainage basin evidence, but was from the northeast. Melting of a continental ice sheet could produce floods of sufficient volume and duration to overwhelm whatever drainage system previously existed and to erode new drainage basins in a manner similar to how the Pennypack Creek drainage basin was eroded.
Highlights
1.1 Why Study Pennypack Creek Drainage Basin Erosion HistoryPennypack Creek originates in the Piedmont Lowland Section north of Philadelphia, and flows in a south direction for approximately 40 kilometers to enter and cross the Piedmont Upland Section and flow through northeast Philadelphia before joining the southwest oriented Delaware River
Maps used in this study were obtained from the United States Geological Survey (USGS) Historical Map Collection website and from the Pennsylvania Department of Conservation and Natural Resources (DCNR) Interactive Map Resources website, where digital versions of USGS topographic maps can be scrolled in any desired direction
The Pennsylvania DCNR Interactive Map Resources website digital geologic map shows the Dreshler through valley to be located along the boundary between Triassic Stockton Formation to the north and on the south Precambrian age felsic gneiss east of Dreshler and Cambrian age Chickies Formation west of Dreshler
Summary
Pennypack Creek originates in the Piedmont Lowland Section north of Philadelphia, and flows in a south direction for approximately 40 kilometers to enter and cross the Piedmont Upland Section and flow through northeast Philadelphia before joining the southwest oriented Delaware River. West of the Tookany (Tacony) drainage basin and of the northern Pennypack drainage basin is the south oriented Wissahickon Creek drainage basin, which drains to the southeast oriented Schuylkill River. East of the Pennypack drainage basin is the smaller Poquessing Creek drainage basin and north and east of the Poquessing basin is the larger and south oriented Neshaminy Creek drainage basin, both of which drain to the southwest oriented Delaware River. Most southeast Pennsylvania geologic structures have northeast to southwest (or east-northeast to west-southwest) orientations and it is puzzling why these south jgg.ccsenet.org
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