Long-term landscape impact of petroleum exploration, Melville Island, Canadian High Arctic

Industrial land use such as petroleum exploration and infrastructure development has important and lasting impacts on Arctic landscapes. Detailed, site-level investigations have noted impacts that include vehicle tracks, surface and vegetation alteration, soil compaction, and degradation of ice wedg...

Full description

Bibliographic Details
Published in:Arctic Science
Main Authors: Siobhan S. McCarter, Ashley C.A. Rudy, Scott F. Lamoureux
Format: Article in Journal/Newspaper
Language:English
French
Published: Canadian Science Publishing 2017
Subjects:
land use impact
hydrocarbon exploration
vehicle tracks
terrain impact
vegetation change
thermokarst
candian high arctic
geo
envir
Arctic
Ice
permafrost
Thermokarst
wedge*
Melville Island
Online Access:https://doi.org/10.1139/as-2016-0016
https://doaj.org/article/b1e9a9c446754d0986e63b692b721e5b
Description
Summary:Industrial land use such as petroleum exploration and infrastructure development has important and lasting impacts on Arctic landscapes. Detailed, site-level investigations have noted impacts that include vehicle tracks, surface and vegetation alteration, soil compaction, and degradation of ice wedge features. We investigated the long-term impact of an extended period of hydrocarbon exploration on Melville Island in the Canadian High Arctic using available remotely sensed data supplemented with field observations over a ∼370 km2 area. Aerial photographs from 1959, 1972, and 1977 and recent satellite imagery (2011 and 2013) were used to determine the effects of industrial activity over periods corresponding to pre-activity, mid-activity, and post-activity. We show that vehicle tracks, site disturbance, and vegetative impacts are still evident after 40 years in this area. Permafrost has degraded at sites with concentrated activity (drill sites, airstrips) and changes to vegetation are clearly discernable. The results demonstrate the utility of this approach for assessment of land use impacts on High Arctic landscapes and provide a means to determine locations for more detailed site-specific field studies. These results may contribute to strategies for environmental monitoring in remote areas where access is impractical or resource intensive.

Similar Items