Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the Innoko Flats with widespread thermokarst

Figure 2. Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with...

Full description

Bibliographic Details
Main Authors: M Torre Jorgenson, Shur, Yuri, Qianlai Zhuang, Manies, Kristen, Ewing, Stephanie, Wickland, Kim, O'Donnell, Jonathan, Kanevskiy, Mikhail, Harden, Jennifer, Striegl, Robert
Format: Still Image
Language:unknown
Published: IOP Publishing 2013
Subjects:
Environmental Science
Hess
Yukon
Ice
permafrost
Thermokarst
Online Access:https://dx.doi.org/10.6084/m9.figshare.1011738
https://iop.figshare.com/articles/figure/_Landsat_satellite_images_of_the_four_soil_landscapes_showing_rocky_uplands_along_Taylor_Highway_wit/1011738
id ftdatacite:10.6084/m9.figshare.1011738
record_format openpolar
spelling ftdatacite:10.6084/m9.figshare.1011738 2023-05-15T16:36:45+02:00 Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the Innoko Flats with widespread thermokarst M Torre Jorgenson Shur, Yuri Qianlai Zhuang Manies, Kristen Ewing, Stephanie Wickland, Kim O'Donnell, Jonathan Kanevskiy, Mikhail Harden, Jennifer Striegl, Robert 2013 https://dx.doi.org/10.6084/m9.figshare.1011738 https://iop.figshare.com/articles/figure/_Landsat_satellite_images_of_the_four_soil_landscapes_showing_rocky_uplands_along_Taylor_Highway_wit/1011738 unknown IOP Publishing Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 CC-BY Environmental Science Image Figure graphic ImageObject 2013 ftdatacite https://doi.org/10.6084/m9.figshare.1011738 2021-11-05T12:55:41Z Figure 2. Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the Innoko Flats with widespread thermokarst. Sampling locations shown as white dots. Abstract The diversity of ecosystems across boreal landscapes, successional changes after disturbance and complicated permafrost histories, present enormous challenges for assessing how vegetation, water and soil carbon may respond to climate change in boreal regions. To address this complexity, we used a chronosequence approach to assess changes in vegetation composition, water storage and soil organic carbon (SOC) stocks along successional gradients within four landscapes: (1) rocky uplands on ice-poor hillside colluvium, (2) silty uplands on extremely ice-rich loess, (3) gravelly–sandy lowlands on ice-poor eolian sand and (4) peaty–silty lowlands on thick ice-rich peat deposits over reworked lowland loess. In rocky uplands, after fire permafrost thawed rapidly due to low ice contents, soils became well drained and SOC stocks decreased slightly. In silty uplands, after fire permafrost persisted, soils remained saturated and SOC decreased slightly. In gravelly–sandy lowlands where permafrost persisted in drier forest soils, loss of deeper permafrost around lakes has allowed recent widespread drainage of lakes that has exposed limnic material with high SOC to aerobic decomposition. In peaty–silty lowlands, 2–4 m of thaw settlement led to fragmented drainage patterns in isolated thermokarst bogs and flooding of soils, and surface soils accumulated new bog peat. We were not able to detect SOC changes in deeper soils, however, due to high variability. Complicated soil stratigraphy revealed that permafrost has repeatedly aggraded and degraded in all landscapes during the Holocene, although in silty uplands only the upper permafrost was affected. Overall, permafrost thaw has led to the reorganization of vegetation, water storage and flow paths, and patterns of SOC accumulation. However, changes have occurred over different timescales among landscapes: over decades in rocky uplands and gravelly–sandy lowlands in response to fire and lake drainage, over decades to centuries in peaty–silty lowlands with a legacy of complicated Holocene changes, and over centuries in silty uplands where ice-rich soil and ecological recovery protect permafrost. Still Image Ice permafrost Thermokarst Yukon DataCite Metadata Store (German National Library of Science and Technology) Hess ENVELOPE(-65.133,-65.133,-67.200,-67.200) Yukon
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Environmental Science
spellingShingle Environmental Science
M Torre Jorgenson
Shur, Yuri
Qianlai Zhuang
Manies, Kristen
Ewing, Stephanie
Wickland, Kim
O'Donnell, Jonathan
Kanevskiy, Mikhail
Harden, Jennifer
Striegl, Robert
Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the Innoko Flats with widespread thermokarst
topic_facet Environmental Science
description Figure 2. Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the Innoko Flats with widespread thermokarst. Sampling locations shown as white dots. Abstract The diversity of ecosystems across boreal landscapes, successional changes after disturbance and complicated permafrost histories, present enormous challenges for assessing how vegetation, water and soil carbon may respond to climate change in boreal regions. To address this complexity, we used a chronosequence approach to assess changes in vegetation composition, water storage and soil organic carbon (SOC) stocks along successional gradients within four landscapes: (1) rocky uplands on ice-poor hillside colluvium, (2) silty uplands on extremely ice-rich loess, (3) gravelly–sandy lowlands on ice-poor eolian sand and (4) peaty–silty lowlands on thick ice-rich peat deposits over reworked lowland loess. In rocky uplands, after fire permafrost thawed rapidly due to low ice contents, soils became well drained and SOC stocks decreased slightly. In silty uplands, after fire permafrost persisted, soils remained saturated and SOC decreased slightly. In gravelly–sandy lowlands where permafrost persisted in drier forest soils, loss of deeper permafrost around lakes has allowed recent widespread drainage of lakes that has exposed limnic material with high SOC to aerobic decomposition. In peaty–silty lowlands, 2–4 m of thaw settlement led to fragmented drainage patterns in isolated thermokarst bogs and flooding of soils, and surface soils accumulated new bog peat. We were not able to detect SOC changes in deeper soils, however, due to high variability. Complicated soil stratigraphy revealed that permafrost has repeatedly aggraded and degraded in all landscapes during the Holocene, although in silty uplands only the upper permafrost was affected. Overall, permafrost thaw has led to the reorganization of vegetation, water storage and flow paths, and patterns of SOC accumulation. However, changes have occurred over different timescales among landscapes: over decades in rocky uplands and gravelly–sandy lowlands in response to fire and lake drainage, over decades to centuries in peaty–silty lowlands with a legacy of complicated Holocene changes, and over centuries in silty uplands where ice-rich soil and ecological recovery protect permafrost.
format Still Image
author M Torre Jorgenson
Shur, Yuri
Qianlai Zhuang
Manies, Kristen
Ewing, Stephanie
Wickland, Kim
O'Donnell, Jonathan
Kanevskiy, Mikhail
Harden, Jennifer
Striegl, Robert
author_facet M Torre Jorgenson
Shur, Yuri
Qianlai Zhuang
Manies, Kristen
Ewing, Stephanie
Wickland, Kim
O'Donnell, Jonathan
Kanevskiy, Mikhail
Harden, Jennifer
Striegl, Robert
author_sort M Torre Jorgenson
title Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the Innoko Flats with widespread thermokarst
title_short Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the Innoko Flats with widespread thermokarst
title_full Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the Innoko Flats with widespread thermokarst
title_fullStr Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the Innoko Flats with widespread thermokarst
title_full_unstemmed Landsat satellite images of the four soil landscapes showing: rocky uplands along Taylor Highway with stable surfaces subject to frequent fires; silty uplands near Hess Creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the Yukon Flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the Innoko Flats with widespread thermokarst
title_sort landsat satellite images of the four soil landscapes showing: rocky uplands along taylor highway with stable surfaces subject to frequent fires; silty uplands near hess creek with mostly stable surfaces with occasional deep thermokarst lakes; gravelly–sandy lowlands on the yukon flats with widespread lake drainage associated with thawing permafrost; and peaty–silty lowlands on the innoko flats with widespread thermokarst
publisher IOP Publishing
publishDate 2013
url https://dx.doi.org/10.6084/m9.figshare.1011738
https://iop.figshare.com/articles/figure/_Landsat_satellite_images_of_the_four_soil_landscapes_showing_rocky_uplands_along_Taylor_Highway_wit/1011738
long_lat ENVELOPE(-65.133,-65.133,-67.200,-67.200)
geographic Hess
Yukon
geographic_facet Hess
Yukon
genre Ice
permafrost
Thermokarst
Yukon
genre_facet Ice
permafrost
Thermokarst
Yukon
op_rights Creative Commons Attribution 4.0 International
https://creativecommons.org/licenses/by/4.0/legalcode
cc-by-4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.6084/m9.figshare.1011738
_version_ 1766027079388758016

Similar Items