A decade of remotely sensed observations highlight complex processes linked to coastal permafrost bluff erosion in the Arctic

Eroding permafrost coasts are likely indicators and integrators of changes in the Arctic System as they are susceptible to the combined effects of declining sea ice extent, increases in open water duration, more frequent and impactful storms, sea-level rise, and warming permafrost. However, few obse...

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Main Authors: Jones, Benjamin M., Farquharson, Louise M., Baughman, Carson A., Buzard, Richard M., Arp, Christopher D., Grosse, Guido, Bull, Diana L., Günther, Frank, Nitze, Ingmar, Urban, Frank, Kasper, Jeremy L., Frederick, Jennifer M., Thomas, Matthew, Jones, Craig, Mota, Alejandro, Dallimore, Scott, Tweedie, Craig, Maio, Christopher, Mann, Daniel H., Richmond, Bruce
Format: Article in Journal/Newspaper
Language:English
Published: Institute of Physics (IOP) 2018
Subjects:
Physics
Arctic
Beaufort Sea
Ice
permafrost
Sea ice
Alaska
Online Access:https://dx.doi.org/10.5446/39373
https://av.tib.eu/media/39373
id ftdatacite:10.5446/39373
record_format openpolar
spelling ftdatacite:10.5446/39373 2023-05-15T14:50:07+02:00 A decade of remotely sensed observations highlight complex processes linked to coastal permafrost bluff erosion in the Arctic Jones, Benjamin M. Farquharson, Louise M. Baughman, Carson A. Buzard, Richard M. Arp, Christopher D. Grosse, Guido Bull, Diana L. Günther, Frank Nitze, Ingmar Urban, Frank Kasper, Jeremy L. Frederick, Jennifer M. Thomas, Matthew Jones, Craig Mota, Alejandro Dallimore, Scott Tweedie, Craig Maio, Christopher Mann, Daniel H. Richmond, Bruce 2018 https://dx.doi.org/10.5446/39373 https://av.tib.eu/media/39373 en eng Institute of Physics (IOP) Physics Audiovisual Video Abstract article MediaObject 2018 ftdatacite https://doi.org/10.5446/39373 2021-11-05T12:55:41Z Eroding permafrost coasts are likely indicators and integrators of changes in the Arctic System as they are susceptible to the combined effects of declining sea ice extent, increases in open water duration, more frequent and impactful storms, sea-level rise, and warming permafrost. However, few observation sites in the Arctic have yet to link decadal-scale erosion rates with changing environmental conditions due to temporal data gaps. This study increases the temporal fidelity of coastal permafrost bluff observations using near-annual high spatial resolution (<1 m) satellite imagery acquired between 2008–2017 for a 9 km segment of coastline at Drew Point, Beaufort Sea coast, Alaska. Our results show that mean annual erosion for the 2007–2016 decade was 17.2 m yr−1, which is 2.5 times faster than historic rates, indicating that bluff erosion at this site is likely responding to changes in the Arctic System. In spite of a sustained increase in decadal-scale mean annual erosion rates, mean open water season erosion varied from 6.7 m yr−1 in 2010 to more than 22.0 m yr−1 in 2007, 2012, and 2016. This variability provided a range of coastal responses through which we explored the different roles of potential environmental drivers. The lack of significant correlations between mean open water season erosion and the environmental variables compiled in this study indicates that we may not be adequately capturing the environmental forcing factors, that the system is conditioned by long-term transient effects or extreme weather events rather than annual variability, or that other not yet considered factors may be responsible for the increased erosion occurring at Drew Point. Our results highlight an increase in erosion at Drew Point in the 21st century as well as the complexities associated with unraveling the factors responsible for changing coastal permafrost bluffs in the Arctic. Article in Journal/Newspaper Arctic Beaufort Sea Ice permafrost Sea ice Alaska DataCite Metadata Store (German National Library of Science and Technology) Arctic
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic Physics
spellingShingle Physics
Jones, Benjamin M.
Farquharson, Louise M.
Baughman, Carson A.
Buzard, Richard M.
Arp, Christopher D.
Grosse, Guido
Bull, Diana L.
Günther, Frank
Nitze, Ingmar
Urban, Frank
Kasper, Jeremy L.
Frederick, Jennifer M.
Thomas, Matthew
Jones, Craig
Mota, Alejandro
Dallimore, Scott
Tweedie, Craig
Maio, Christopher
Mann, Daniel H.
Richmond, Bruce
A decade of remotely sensed observations highlight complex processes linked to coastal permafrost bluff erosion in the Arctic
topic_facet Physics
description Eroding permafrost coasts are likely indicators and integrators of changes in the Arctic System as they are susceptible to the combined effects of declining sea ice extent, increases in open water duration, more frequent and impactful storms, sea-level rise, and warming permafrost. However, few observation sites in the Arctic have yet to link decadal-scale erosion rates with changing environmental conditions due to temporal data gaps. This study increases the temporal fidelity of coastal permafrost bluff observations using near-annual high spatial resolution (<1 m) satellite imagery acquired between 2008–2017 for a 9 km segment of coastline at Drew Point, Beaufort Sea coast, Alaska. Our results show that mean annual erosion for the 2007–2016 decade was 17.2 m yr−1, which is 2.5 times faster than historic rates, indicating that bluff erosion at this site is likely responding to changes in the Arctic System. In spite of a sustained increase in decadal-scale mean annual erosion rates, mean open water season erosion varied from 6.7 m yr−1 in 2010 to more than 22.0 m yr−1 in 2007, 2012, and 2016. This variability provided a range of coastal responses through which we explored the different roles of potential environmental drivers. The lack of significant correlations between mean open water season erosion and the environmental variables compiled in this study indicates that we may not be adequately capturing the environmental forcing factors, that the system is conditioned by long-term transient effects or extreme weather events rather than annual variability, or that other not yet considered factors may be responsible for the increased erosion occurring at Drew Point. Our results highlight an increase in erosion at Drew Point in the 21st century as well as the complexities associated with unraveling the factors responsible for changing coastal permafrost bluffs in the Arctic.
format Article in Journal/Newspaper
author Jones, Benjamin M.
Farquharson, Louise M.
Baughman, Carson A.
Buzard, Richard M.
Arp, Christopher D.
Grosse, Guido
Bull, Diana L.
Günther, Frank
Nitze, Ingmar
Urban, Frank
Kasper, Jeremy L.
Frederick, Jennifer M.
Thomas, Matthew
Jones, Craig
Mota, Alejandro
Dallimore, Scott
Tweedie, Craig
Maio, Christopher
Mann, Daniel H.
Richmond, Bruce
author_facet Jones, Benjamin M.
Farquharson, Louise M.
Baughman, Carson A.
Buzard, Richard M.
Arp, Christopher D.
Grosse, Guido
Bull, Diana L.
Günther, Frank
Nitze, Ingmar
Urban, Frank
Kasper, Jeremy L.
Frederick, Jennifer M.
Thomas, Matthew
Jones, Craig
Mota, Alejandro
Dallimore, Scott
Tweedie, Craig
Maio, Christopher
Mann, Daniel H.
Richmond, Bruce
author_sort Jones, Benjamin M.
title A decade of remotely sensed observations highlight complex processes linked to coastal permafrost bluff erosion in the Arctic
title_short A decade of remotely sensed observations highlight complex processes linked to coastal permafrost bluff erosion in the Arctic
title_full A decade of remotely sensed observations highlight complex processes linked to coastal permafrost bluff erosion in the Arctic
title_fullStr A decade of remotely sensed observations highlight complex processes linked to coastal permafrost bluff erosion in the Arctic
title_full_unstemmed A decade of remotely sensed observations highlight complex processes linked to coastal permafrost bluff erosion in the Arctic
title_sort decade of remotely sensed observations highlight complex processes linked to coastal permafrost bluff erosion in the arctic
publisher Institute of Physics (IOP)
publishDate 2018
url https://dx.doi.org/10.5446/39373
https://av.tib.eu/media/39373
geographic Arctic
geographic_facet Arctic
genre Arctic
Beaufort Sea
Ice
permafrost
Sea ice
Alaska
genre_facet Arctic
Beaufort Sea
Ice
permafrost
Sea ice
Alaska
op_doi https://doi.org/10.5446/39373
_version_ 1766321183527010304

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