Arctic marine environmental protection:oil spill response: impacts and challenges

Abstract Protection of the Arctic marine environment is a subject of increasing concern due to the industrial use of local resources and the opening of maritime shipping routes. Thus, there are emerging risks of marine pollution associated with these development trends. The lack of readily available...

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Bibliographic Details
Main Author: Pavlov, V. (Victor)
Other Authors: Pongrácz, E. (Eva), Liimatainen, H. (Henrikki), Sydnes, A. (Are Kristoffer)
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Oulun yliopisto 2023
Subjects:
Online Access:http://urn.fi/urn:isbn:9789526239231
Description
Summary:Abstract Protection of the Arctic marine environment is a subject of increasing concern due to the industrial use of local resources and the opening of maritime shipping routes. Thus, there are emerging risks of marine pollution associated with these development trends. The lack of readily available response capabilities, long distances from populated areas, harsh climate with long periods of darkness, extreme cold, and frequent storms make spill response and clean-up operations difficult. This doctoral dissertation examined the challenges related to oil spill response (OSR) in the Arctic, specifically focusing on the Barents Sea. The study aimed to address Arctic oil spill response technologies, the impact of Arctic weather on response efforts, and the potential ecological impacts caused by oil spill accidents. There are currently three main oil spill response technologies available for the Arctic marine environment: mechanical recovery with skimmers and booms, chemical dispersion, and the combustion of oil at sea. However, the research revealed that the weather conditions in the Barents Sea present significant challenges for oil spill response efforts, and the ambient conditions restrict application of these technologies. Thus, the commonly used methods are limited to only the summer months. Unfavorable weather conditions during autumn, winter, and spring, such as extremely low temperatures, high winds and wave activity, ice cover, limited daylight, precipitation storms, and low visibility, make it difficult to conduct effective oil spill response operations at sea. To assess the potential ecological impacts of oil spill accidents, this work suggests using spatial overlap analysis. This method involves comparing oil spill trajectory patterns with environmental sensitivity or species distribution data. The severity of impacts has a strong correlation with ecosystem seasonality and the sensitivity of the area. Summer was found to be a highly sensitive season for the Barents marine environment. Therefore, the ...