Incorporating the impacts of climate change in transportation infrastructure decision models.

Historically an important transportation corridor in the Northwest Territories, climate change has shortened the duration of the Mackenzie River’s navigational season. Communities rely increasingly on airlift as the growing volatility affects barging operations, leading to higher overall freight cos...

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Main Authors:	Kim, Amy M., Li, Huanan
Format:	Other/Unknown Material
Language:	English
Published:	2020
Subjects:	Northern Canada Mackenzie River barge shipping Real options model Climate change Transportation investment decision analysis Arctic Canada Mackenzie River Mackenzie Valley Northwest Territories Mackenzie river
Online Access:	https://era.library.ualberta.ca/items/05621dc2-dfa5-47d4-86e7-934d6da89a2d https://doi.org/10.7939/r3-xdb9-at76

id	ftunivalberta:oai:era.library.ualberta.ca:05621dc2-dfa5-47d4-86e7-934d6da89a2d
record_format	openpolar
spelling	ftunivalberta:oai:era.library.ualberta.ca:05621dc2-dfa5-47d4-86e7-934d6da89a2d 2024-06-23T07:50:46+00:00 Incorporating the impacts of climate change in transportation infrastructure decision models. Kim, Amy M. Li, Huanan 2020-04-01 https://era.library.ualberta.ca/items/05621dc2-dfa5-47d4-86e7-934d6da89a2d https://doi.org/10.7939/r3-xdb9-at76 English eng https://era.library.ualberta.ca/items/05621dc2-dfa5-47d4-86e7-934d6da89a2d doi:10.7939/r3-xdb9-at76 http://creativecommons.org/licenses/by-nc/4.0/ Northern Canada Mackenzie River barge shipping Real options model Climate change Transportation investment decision analysis Article (Draft / Submitted) 2020 ftunivalberta https://doi.org/10.7939/r3-xdb9-at76 2024-06-03T03:09:00Z Historically an important transportation corridor in the Northwest Territories, climate change has shortened the duration of the Mackenzie River’s navigational season. Communities rely increasingly on airlift as the growing volatility affects barging operations, leading to higher overall freight costs. Using an options approach, we present a methodological framework that supports flexible infrastructure decision making, accounting for the impacts of climate change uncertainty. We apply this method to the decision of whether to continue barging on the Mackenzie River, or connect the entire corridor by extending the all-weather Mackenzie Valley Highway, explicitly considering uncertainties in river barging conditions. We first model river open season days as a stochastic process; barging is dependent on the number of open season days, which in turn is affected by climate change. Second, we evaluate the expected cost of barging and airlift each season using a modified Black-Scholes model. Finally, we use real options to determine how long construction of the all-weather highway may be deferred. The results indicate that it is advisable to defer construction nearly a decade, in balancing the costs of construction against climate change uncertainty. This paper demonstrates that when we explicitly incorporate the impact of climate change on project valuations, particularly those in northern and Arctic Canada where these impacts are considerable, project valuations can change significantly such that all-weather road construction is supported, even if it is deferred to future years. This method can assist federal and territorial governments in communicating the impacts of climate change on communities, and provide another tool to support multi-layered, complex transportation infrastructure investment decisions that address these rapidly changing environments. Other/Unknown Material Arctic Climate change Mackenzie river Mackenzie Valley Northwest Territories University of Alberta: Era - Education and Research Archive Arctic Canada Mackenzie River Mackenzie Valley ENVELOPE(-126.070,-126.070,52.666,52.666) Northwest Territories
institution	Open Polar
collection	University of Alberta: Era - Education and Research Archive
op_collection_id	ftunivalberta
language	English
topic	Northern Canada Mackenzie River barge shipping Real options model Climate change Transportation investment decision analysis
spellingShingle	Northern Canada Mackenzie River barge shipping Real options model Climate change Transportation investment decision analysis Kim, Amy M. Li, Huanan Incorporating the impacts of climate change in transportation infrastructure decision models.
topic_facet	Northern Canada Mackenzie River barge shipping Real options model Climate change Transportation investment decision analysis
description	Historically an important transportation corridor in the Northwest Territories, climate change has shortened the duration of the Mackenzie River’s navigational season. Communities rely increasingly on airlift as the growing volatility affects barging operations, leading to higher overall freight costs. Using an options approach, we present a methodological framework that supports flexible infrastructure decision making, accounting for the impacts of climate change uncertainty. We apply this method to the decision of whether to continue barging on the Mackenzie River, or connect the entire corridor by extending the all-weather Mackenzie Valley Highway, explicitly considering uncertainties in river barging conditions. We first model river open season days as a stochastic process; barging is dependent on the number of open season days, which in turn is affected by climate change. Second, we evaluate the expected cost of barging and airlift each season using a modified Black-Scholes model. Finally, we use real options to determine how long construction of the all-weather highway may be deferred. The results indicate that it is advisable to defer construction nearly a decade, in balancing the costs of construction against climate change uncertainty. This paper demonstrates that when we explicitly incorporate the impact of climate change on project valuations, particularly those in northern and Arctic Canada where these impacts are considerable, project valuations can change significantly such that all-weather road construction is supported, even if it is deferred to future years. This method can assist federal and territorial governments in communicating the impacts of climate change on communities, and provide another tool to support multi-layered, complex transportation infrastructure investment decisions that address these rapidly changing environments.
format	Other/Unknown Material
author	Kim, Amy M. Li, Huanan
author_facet	Kim, Amy M. Li, Huanan
author_sort	Kim, Amy M.
title	Incorporating the impacts of climate change in transportation infrastructure decision models.
title_short	Incorporating the impacts of climate change in transportation infrastructure decision models.
title_full	Incorporating the impacts of climate change in transportation infrastructure decision models.
title_fullStr	Incorporating the impacts of climate change in transportation infrastructure decision models.
title_full_unstemmed	Incorporating the impacts of climate change in transportation infrastructure decision models.
title_sort	incorporating the impacts of climate change in transportation infrastructure decision models.
publishDate	2020
url	https://era.library.ualberta.ca/items/05621dc2-dfa5-47d4-86e7-934d6da89a2d https://doi.org/10.7939/r3-xdb9-at76
long_lat	ENVELOPE(-126.070,-126.070,52.666,52.666)
geographic	Arctic Canada Mackenzie River Mackenzie Valley Northwest Territories
geographic_facet	Arctic Canada Mackenzie River Mackenzie Valley Northwest Territories
genre	Arctic Climate change Mackenzie river Mackenzie Valley Northwest Territories
genre_facet	Arctic Climate change Mackenzie river Mackenzie Valley Northwest Territories
op_relation	https://era.library.ualberta.ca/items/05621dc2-dfa5-47d4-86e7-934d6da89a2d doi:10.7939/r3-xdb9-at76
op_rights	http://creativecommons.org/licenses/by-nc/4.0/
op_doi	https://doi.org/10.7939/r3-xdb9-at76
_version_	1802641681086939136

Incorporating the impacts of climate change in transportation infrastructure decision models.

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