Thaw depth across an experimental burn severity gradient in far northeastern Siberia

Global change models predict an increase in fire activity in boreal forests as climate continues to warm and dry. Because fire consumes the soil organic layer (SOL), the layer of undecomposed mosses and roots atop the permafrost, we hypothesized that increased fire severity will increase permafrost...

Full description

Bibliographic Details
Main Authors:	Heather D. Alexander, Michelle C. Mack
Format:	Dataset
Language:	unknown
Published:	Arctic Data Center 2013
Subjects:	EARTH SCIENCE > BIOSPHERE > TERRESTRIAL ECOSYSTEMS > FORESTS EARTH SCIENCE > LAND SURFACE > SOILS > PERMAFROST EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS > FIRE ECOLOGY > FIRE DYNAMICS EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS > ECOSYSTEM FUNCTIONS > BIOGEOCHEMICAL CYCLES MANNED FIELD STATION POINT LESS THAN 1 METER WEEKLY TO MONTHLY permafrost Siberia
Online Access:	https://search.dataone.org/view/urn:uuid:9e106196-0001-49be-8f40-92fcd7eaf0da

id	dataone:urn:uuid:9e106196-0001-49be-8f40-92fcd7eaf0da
record_format	openpolar
spelling	dataone:urn:uuid:9e106196-0001-49be-8f40-92fcd7eaf0da 2024-10-03T18:46:23+00:00 Thaw depth across an experimental burn severity gradient in far northeastern Siberia Heather D. Alexander Michelle C. Mack ENVELOPE(161.406,161.407,68.743,68.742) BEGINDATE: 2012-06-01T00:00:00Z ENDDATE: 2013-10-13T00:00:00Z 2013-12-17T08:56:09Z https://search.dataone.org/view/urn:uuid:9e106196-0001-49be-8f40-92fcd7eaf0da unknown Arctic Data Center EARTH SCIENCE > BIOSPHERE > TERRESTRIAL ECOSYSTEMS > FORESTS EARTH SCIENCE > LAND SURFACE > SOILS > PERMAFROST EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS > FIRE ECOLOGY > FIRE DYNAMICS EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS > ECOSYSTEM FUNCTIONS > BIOGEOCHEMICAL CYCLES MANNED FIELD STATION POINT LESS THAN 1 METER WEEKLY TO MONTHLY Dataset 2013 dataone:urn:node:ARCTIC 2024-10-03T18:06:36Z Global change models predict an increase in fire activity in boreal forests as climate continues to warm and dry. Because fire consumes the soil organic layer (SOL), the layer of undecomposed mosses and roots atop the permafrost, we hypothesized that increased fire severity will increase permafrost thaw by reducing the depth, and therefore insulating capacity, of the SOL. To test this hypothesis, we conducted plot-level (2-m2) experimental burns in July 2012 in a low-density, mature larch stand located near the Northeast Science Station in Cherskii, Siberia. Dried fuels comprised of naturally occurring vegetation were added to plots to achieve four burn treatments based on residual SOL depths: control, low severity (> 8 cm), moderate severity (5-8 cm), and high severity (2-5 cm). Pre-fire and for two growing seasons post-fire (2012 and 2013), we measured thaw depth to determine severity effects on active layer depth and permafrost thaw. Thaw depth was measured at five locations (until late summer 2013, and at four locations afterwards) within each burn plot by inserting a hand-held metal probe until resistance was felt. Measurements were acquired weekly while at the field station and bi-monthly during the remainder of the growing season. Dataset permafrost Siberia Arctic Data Center (via DataONE) ENVELOPE(161.406,161.407,68.743,68.742)
institution	Open Polar
collection	Arctic Data Center (via DataONE)
op_collection_id	dataone:urn:node:ARCTIC
language	unknown
topic	EARTH SCIENCE > BIOSPHERE > TERRESTRIAL ECOSYSTEMS > FORESTS EARTH SCIENCE > LAND SURFACE > SOILS > PERMAFROST EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS > FIRE ECOLOGY > FIRE DYNAMICS EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS > ECOSYSTEM FUNCTIONS > BIOGEOCHEMICAL CYCLES MANNED FIELD STATION POINT LESS THAN 1 METER WEEKLY TO MONTHLY
spellingShingle	EARTH SCIENCE > BIOSPHERE > TERRESTRIAL ECOSYSTEMS > FORESTS EARTH SCIENCE > LAND SURFACE > SOILS > PERMAFROST EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS > FIRE ECOLOGY > FIRE DYNAMICS EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS > ECOSYSTEM FUNCTIONS > BIOGEOCHEMICAL CYCLES MANNED FIELD STATION POINT LESS THAN 1 METER WEEKLY TO MONTHLY Heather D. Alexander Michelle C. Mack Thaw depth across an experimental burn severity gradient in far northeastern Siberia
topic_facet	EARTH SCIENCE > BIOSPHERE > TERRESTRIAL ECOSYSTEMS > FORESTS EARTH SCIENCE > LAND SURFACE > SOILS > PERMAFROST EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS > FIRE ECOLOGY > FIRE DYNAMICS EARTH SCIENCE > BIOSPHERE > ECOLOGICAL DYNAMICS > ECOSYSTEM FUNCTIONS > BIOGEOCHEMICAL CYCLES MANNED FIELD STATION POINT LESS THAN 1 METER WEEKLY TO MONTHLY
description	Global change models predict an increase in fire activity in boreal forests as climate continues to warm and dry. Because fire consumes the soil organic layer (SOL), the layer of undecomposed mosses and roots atop the permafrost, we hypothesized that increased fire severity will increase permafrost thaw by reducing the depth, and therefore insulating capacity, of the SOL. To test this hypothesis, we conducted plot-level (2-m2) experimental burns in July 2012 in a low-density, mature larch stand located near the Northeast Science Station in Cherskii, Siberia. Dried fuels comprised of naturally occurring vegetation were added to plots to achieve four burn treatments based on residual SOL depths: control, low severity (> 8 cm), moderate severity (5-8 cm), and high severity (2-5 cm). Pre-fire and for two growing seasons post-fire (2012 and 2013), we measured thaw depth to determine severity effects on active layer depth and permafrost thaw. Thaw depth was measured at five locations (until late summer 2013, and at four locations afterwards) within each burn plot by inserting a hand-held metal probe until resistance was felt. Measurements were acquired weekly while at the field station and bi-monthly during the remainder of the growing season.
format	Dataset
author	Heather D. Alexander Michelle C. Mack
author_facet	Heather D. Alexander Michelle C. Mack
author_sort	Heather D. Alexander
title	Thaw depth across an experimental burn severity gradient in far northeastern Siberia
title_short	Thaw depth across an experimental burn severity gradient in far northeastern Siberia
title_full	Thaw depth across an experimental burn severity gradient in far northeastern Siberia
title_fullStr	Thaw depth across an experimental burn severity gradient in far northeastern Siberia
title_full_unstemmed	Thaw depth across an experimental burn severity gradient in far northeastern Siberia
title_sort	thaw depth across an experimental burn severity gradient in far northeastern siberia
publisher	Arctic Data Center
publishDate	2013
url	https://search.dataone.org/view/urn:uuid:9e106196-0001-49be-8f40-92fcd7eaf0da
op_coverage	ENVELOPE(161.406,161.407,68.743,68.742) BEGINDATE: 2012-06-01T00:00:00Z ENDDATE: 2013-10-13T00:00:00Z
long_lat	ENVELOPE(161.406,161.407,68.743,68.742)
genre	permafrost Siberia
genre_facet	permafrost Siberia
_version_	1811927943768702976

Thaw depth across an experimental burn severity gradient in far northeastern Siberia

Similar Items