PA23A-4022:
Unconventional Tools for an Unconventional Resource: Community and Landscape Planning for Shale in the Marcellus Region

Tuesday, 16 December 2014
Timothy Murtha Jr1, Brian Orland2, Lacey Goldberg1 and Richard Hammond1, (1)Pennsylvania State University Main Campus, Department of Landscape Architecture, University Park, PA, United States, (2)Pennsylvania State University Main Campus, University Park, PA, United States
Abstract:
Deep shale natural gas deposits made accessible by new technologies are quickly becoming a considerable share of North America’s energy portfolio. Unlike traditional deposits and extraction footprints, shale gas offers dispersed and complex landscape and community challenges. These challenges are both cultural and environmental.

This paper describes the development and application of creative geospatial tools as a means to engage communities along the northern tier counties of Pennsylvania, experiencing Marcellus shale drilling in design and planning. Uniquely combining physical landscape models with predictive models of exploration activities, including drilling, pipeline construction and road reconstruction, the tools quantify the potential impacts of drilling activities for communities and landscapes in the commonwealth of Pennsylvania.

Dividing the state into 9836 watershed sub-basins, we first describe the current state of Marcellus related activities through 2014. We then describe and report the results of three scaled predictive models designed to investigate probable sub-basins where future activities will be focused. Finally, the core of the paper reports on the second level of tools we have now developed to engage communities in planning for unconventional gas extraction in Pennsylvania. Using a geodesign approach we are working with communities to transfer information for comprehensive landscape planning and informed decision making. These tools not only quantify physical landscape impacts, but also quantify potential visual, aesthetic and cultural resource implications.