Tundra shrub ring widths in microns, North Slope Alaska 1965-2013

Thermokarst disturbance in permafrost landscapes is likely to increase across the tundra biome with climate warming, resulting in changes to topography, vegetation, and biogeochemical cycling. Tundra shrubs grow on permafrost, but shrub - thermokarst relationships are rarely studied in detail. Since...

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Bibliographic Details
Main Author:	Diane Huebner
Format:	Dataset
Language:	unknown
Published:	Arctic Data Center 2022
Subjects:	climate sensitivity microsite retrogressive thaw slump secondary growth shrubs tundra Salix pulchra Salix glauca Betula nana Dwarf birch north slope permafrost Thermokarst Tundra Alaska
Online Access:	https://search.dataone.org/view/urn:uuid:fb3d5989-bb36-4b8e-9a1a-1512041446d3

id	dataone:urn:uuid:fb3d5989-bb36-4b8e-9a1a-1512041446d3
record_format	openpolar
spelling	dataone:urn:uuid:fb3d5989-bb36-4b8e-9a1a-1512041446d3 2024-10-03T18:46:01+00:00 Tundra shrub ring widths in microns, North Slope Alaska 1965-2013 Diane Huebner Lake I-minus 1 Lake NE14 ENVELOPE(-149.55,-149.55,68.55,68.55) BEGINDATE: 2022-01-01T00:00:00Z ENDDATE: 2022-01-01T00:00:00Z 2022-01-01T00:00:00Z https://search.dataone.org/view/urn:uuid:fb3d5989-bb36-4b8e-9a1a-1512041446d3 unknown Arctic Data Center climate sensitivity microsite retrogressive thaw slump secondary growth shrubs tundra Salix pulchra Salix glauca Betula nana Dataset 2022 dataone:urn:node:ARCTIC 2024-10-03T18:18:13Z Thermokarst disturbance in permafrost landscapes is likely to increase across the tundra biome with climate warming, resulting in changes to topography, vegetation, and biogeochemical cycling. Tundra shrubs grow on permafrost, but shrub - thermokarst relationships are rarely studied in detail. Since the 1980’s, Alaska’s North Slope has experienced increased thermokarst activity, including retrogressive thaw slumps (RTS) on hillslopes. Within decades, RTSs near Toolik Lake, Alaska, were colonized by tall (≥ 0.5 meters (m)) deciduous shrubs. We used dendrochronology methods on 66 shrubs (182 stem cross sections) representing dominant deciduous species: willows (Salix pulchra and Salix glauca) and dwarf birch (Betula nana) at two RTS chronosequences on Alaska’s North Slope comprising seven sites, to quantify thermokarst and climate effects (25 years of temperature and precipitation records) on shrub secondary growth (i.e., annual rings) in RTS-disturbed and undisturbed moist acidic tussock (MAT) tundra. Across species, average growth ring widths were 2 x wider for shrubs in RTSs than in MAT, and ring widths decreased with RTS age. A 1 degree Celsius (°C) June temperature increase was associated with 2% wider rings across species and sites, but shrubs showed marginal growth in warmer summers, supporting tundra-wide shrub climate sensitivity studies. A 4.5% average ring width increase per 1 mm of previous year’s September precipitation was seen in shrubs in mid-successional RTSs, suggesting protective effects of early snowfall in RTSs versus open tundra. RTS age category explained 47% and 30% of average ring width variance of willows and dwarf birch, respectively, in linear mixed effects models. Climate variables explained 2% average ring width variance across species. Our results suggest that RTS exert strong successional effects on tundra shrub growth. Climate effects appear to show weaker synoptic patterns across the study area. RTS will likely contribute to tundra greening where RTS activity is increasing. Dataset Betula nana Dwarf birch north slope permafrost Thermokarst Tundra Alaska Arctic Data Center (via DataONE) ENVELOPE(-149.55,-149.55,68.55,68.55)
institution	Open Polar
collection	Arctic Data Center (via DataONE)
op_collection_id	dataone:urn:node:ARCTIC
language	unknown
topic	climate sensitivity microsite retrogressive thaw slump secondary growth shrubs tundra Salix pulchra Salix glauca Betula nana
spellingShingle	climate sensitivity microsite retrogressive thaw slump secondary growth shrubs tundra Salix pulchra Salix glauca Betula nana Diane Huebner Tundra shrub ring widths in microns, North Slope Alaska 1965-2013
topic_facet	climate sensitivity microsite retrogressive thaw slump secondary growth shrubs tundra Salix pulchra Salix glauca Betula nana
description	Thermokarst disturbance in permafrost landscapes is likely to increase across the tundra biome with climate warming, resulting in changes to topography, vegetation, and biogeochemical cycling. Tundra shrubs grow on permafrost, but shrub - thermokarst relationships are rarely studied in detail. Since the 1980’s, Alaska’s North Slope has experienced increased thermokarst activity, including retrogressive thaw slumps (RTS) on hillslopes. Within decades, RTSs near Toolik Lake, Alaska, were colonized by tall (≥ 0.5 meters (m)) deciduous shrubs. We used dendrochronology methods on 66 shrubs (182 stem cross sections) representing dominant deciduous species: willows (Salix pulchra and Salix glauca) and dwarf birch (Betula nana) at two RTS chronosequences on Alaska’s North Slope comprising seven sites, to quantify thermokarst and climate effects (25 years of temperature and precipitation records) on shrub secondary growth (i.e., annual rings) in RTS-disturbed and undisturbed moist acidic tussock (MAT) tundra. Across species, average growth ring widths were 2 x wider for shrubs in RTSs than in MAT, and ring widths decreased with RTS age. A 1 degree Celsius (°C) June temperature increase was associated with 2% wider rings across species and sites, but shrubs showed marginal growth in warmer summers, supporting tundra-wide shrub climate sensitivity studies. A 4.5% average ring width increase per 1 mm of previous year’s September precipitation was seen in shrubs in mid-successional RTSs, suggesting protective effects of early snowfall in RTSs versus open tundra. RTS age category explained 47% and 30% of average ring width variance of willows and dwarf birch, respectively, in linear mixed effects models. Climate variables explained 2% average ring width variance across species. Our results suggest that RTS exert strong successional effects on tundra shrub growth. Climate effects appear to show weaker synoptic patterns across the study area. RTS will likely contribute to tundra greening where RTS activity is increasing.
format	Dataset
author	Diane Huebner
author_facet	Diane Huebner
author_sort	Diane Huebner
title	Tundra shrub ring widths in microns, North Slope Alaska 1965-2013
title_short	Tundra shrub ring widths in microns, North Slope Alaska 1965-2013
title_full	Tundra shrub ring widths in microns, North Slope Alaska 1965-2013
title_fullStr	Tundra shrub ring widths in microns, North Slope Alaska 1965-2013
title_full_unstemmed	Tundra shrub ring widths in microns, North Slope Alaska 1965-2013
title_sort	tundra shrub ring widths in microns, north slope alaska 1965-2013
publisher	Arctic Data Center
publishDate	2022
url	https://search.dataone.org/view/urn:uuid:fb3d5989-bb36-4b8e-9a1a-1512041446d3
op_coverage	Lake I-minus 1 Lake NE14 ENVELOPE(-149.55,-149.55,68.55,68.55) BEGINDATE: 2022-01-01T00:00:00Z ENDDATE: 2022-01-01T00:00:00Z
long_lat	ENVELOPE(-149.55,-149.55,68.55,68.55)
genre	Betula nana Dwarf birch north slope permafrost Thermokarst Tundra Alaska
genre_facet	Betula nana Dwarf birch north slope permafrost Thermokarst Tundra Alaska
_version_	1811923406127366144

Tundra shrub ring widths in microns, North Slope Alaska 1965-2013

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