Boulder orientation, shape, and age along a transect of the Hickory Run Boulder Field, Pennsylvania

The boulder field at Hickory Run State Park in Pennsylvania is the largest such feature in the eastern United States and has been designated a National Natural Landmark. It has generated considerable interest among Quaternary scientists, and many college and university earth science field trips visi...

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Bibliographic Details
Main Author: Wedo, Andrea
Format: Thesis
Language:unknown
Published: University of Delaware 2013
Subjects:
Boulders > Pennsylvania > Hickory Run State Park
Ice Sheet
Online Access:http://udspace.udel.edu/handle/19716/12629
id ftunivdelaware:oai:udspace.udel.edu:19716/12629
record_format openpolar
spelling ftunivdelaware:oai:udspace.udel.edu:19716/12629 2023-06-11T04:12:53+02:00 Boulder orientation, shape, and age along a transect of the Hickory Run Boulder Field, Pennsylvania Wedo, Andrea 2013 application/pdf http://udspace.udel.edu/handle/19716/12629 unknown University of Delaware http://udspace.udel.edu/handle/19716/12629 Boulders -- Pennsylvania -- Hickory Run State Park Thesis 2013 ftunivdelaware 2023-05-01T12:56:01Z The boulder field at Hickory Run State Park in Pennsylvania is the largest such feature in the eastern United States and has been designated a National Natural Landmark. It has generated considerable interest among Quaternary scientists, and many college and university earth science field trips visit the boulder field each year. Beginning with H.T.U. Smith’s pioneering study in the early 1950s, most scientists have regarded the field as a relict of different frozen ground and freeze-thaw processes due to the close proximity of the Laurentide Ice Sheet during the late Pleistocene. Although the boulder field is included in many regional studies, relatively little quantitative data regarding its sedimentary properties have been published to date. This thesis describes a quantitative study of boulder orientation, shape, and relative age collected from 14 samples along a central parallel transect extending over the boulder field’s length. The first two rounds of field sampling used traditional field instruments including a Brunton compass, inclinometer, tape measure, and Schmidt hammer to collect data on boulder orientation, plunge, shape, size, and hardness. A third round of field sampling used ground-based Light Detection and Ranging (LIDAR) to obtain detailed topographic data from three 10 m by 10 m plots along the study transect. The LIDAR data were filtered and used to construct elevation, slope, and aspect models for comparison with the aforementioned manually collected field data. The LIDAR data provides a quantifiably more useful dataset than traditional field methods using a Brunton compass, and the resultant Digital Elevation Models (DEMs) are a robust and data-rich approach to evaluating boulder fabric. The results of this thesis suggest a spatial trend in boulder roundness and a-axis length along an east-west trend of the boulder field. Conversely, no spatial trends were identified in the orientation, plunge, sphericity, flatness, and size data. The implications of spatial trends in sedimentary ... Thesis Ice Sheet The University of Delaware Library Institutional Repository
institution Open Polar
collection The University of Delaware Library Institutional Repository
op_collection_id ftunivdelaware
language unknown
topic Boulders -- Pennsylvania -- Hickory Run State Park
spellingShingle Boulders -- Pennsylvania -- Hickory Run State Park
Wedo, Andrea
Boulder orientation, shape, and age along a transect of the Hickory Run Boulder Field, Pennsylvania
topic_facet Boulders -- Pennsylvania -- Hickory Run State Park
description The boulder field at Hickory Run State Park in Pennsylvania is the largest such feature in the eastern United States and has been designated a National Natural Landmark. It has generated considerable interest among Quaternary scientists, and many college and university earth science field trips visit the boulder field each year. Beginning with H.T.U. Smith’s pioneering study in the early 1950s, most scientists have regarded the field as a relict of different frozen ground and freeze-thaw processes due to the close proximity of the Laurentide Ice Sheet during the late Pleistocene. Although the boulder field is included in many regional studies, relatively little quantitative data regarding its sedimentary properties have been published to date. This thesis describes a quantitative study of boulder orientation, shape, and relative age collected from 14 samples along a central parallel transect extending over the boulder field’s length. The first two rounds of field sampling used traditional field instruments including a Brunton compass, inclinometer, tape measure, and Schmidt hammer to collect data on boulder orientation, plunge, shape, size, and hardness. A third round of field sampling used ground-based Light Detection and Ranging (LIDAR) to obtain detailed topographic data from three 10 m by 10 m plots along the study transect. The LIDAR data were filtered and used to construct elevation, slope, and aspect models for comparison with the aforementioned manually collected field data. The LIDAR data provides a quantifiably more useful dataset than traditional field methods using a Brunton compass, and the resultant Digital Elevation Models (DEMs) are a robust and data-rich approach to evaluating boulder fabric. The results of this thesis suggest a spatial trend in boulder roundness and a-axis length along an east-west trend of the boulder field. Conversely, no spatial trends were identified in the orientation, plunge, sphericity, flatness, and size data. The implications of spatial trends in sedimentary ...
format Thesis
author Wedo, Andrea
author_facet Wedo, Andrea
author_sort Wedo, Andrea
title Boulder orientation, shape, and age along a transect of the Hickory Run Boulder Field, Pennsylvania
title_short Boulder orientation, shape, and age along a transect of the Hickory Run Boulder Field, Pennsylvania
title_full Boulder orientation, shape, and age along a transect of the Hickory Run Boulder Field, Pennsylvania
title_fullStr Boulder orientation, shape, and age along a transect of the Hickory Run Boulder Field, Pennsylvania
title_full_unstemmed Boulder orientation, shape, and age along a transect of the Hickory Run Boulder Field, Pennsylvania
title_sort boulder orientation, shape, and age along a transect of the hickory run boulder field, pennsylvania
publisher University of Delaware
publishDate 2013
url http://udspace.udel.edu/handle/19716/12629
genre Ice Sheet
genre_facet Ice Sheet
op_relation http://udspace.udel.edu/handle/19716/12629
_version_ 1768389026628239360

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