The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function.

The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function.

Bibliographic Details
Main Authors: Xanthe J. Walker (3715783), Brain K. Howard (11619743), Mélanie Jean (3715789), Jill F. Johnstone (8027336), Carl Roland (6504848), Brendan M. Rogers (9184067), Edward A. G. Schuur (2663494), Kylen K. Solvik (11619746), Michelle C. Mack (8949893)
Format: Dataset
Language:unknown
Published: 2021
Subjects:
Cell Biology
Molecular Biology
Evolutionary Biology
Ecology
Sociology
Developmental Biology
Plant Biology
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
understory vegetation composition
occur without increases
drier landscape positions
denali national park
active layer thickness
6 ± 4
18 ± 1
density spruce stands
seed rain observations
extensive 2013 wildfire
fire tree regeneration
conifer tree recruitment
seeding experiment indicate
div >< p
13 kg c
fire conifer density
assessed wildfire severity
induced forest infilling
increased alt post
increased density
seeding experiment
conifer trees
recruitment potential
alt )
wildfire throughout
wildfire severity
wildfire frequency
seed availability
organic soil
north slope
make predictions
increasing throughout
higher post
global carbon
future flammability
ecosystem structure
central alaska
c emissions
burn depth
also located
almost 95
alaska range
5 cm
Alaska
Online Access:https://doi.org/10.1371/journal.pone.0258558.t002
id ftsmithonian:oai:figshare.com:article/16899257
record_format openpolar
spelling ftsmithonian:oai:figshare.com:article/16899257 2023-05-15T13:09:41+02:00 The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function. Xanthe J. Walker (3715783) Brain K. Howard (11619743) Mélanie Jean (3715789) Jill F. Johnstone (8027336) Carl Roland (6504848) Brendan M. Rogers (9184067) Edward A. G. Schuur (2663494) Kylen K. Solvik (11619746) Michelle C. Mack (8949893) 2021-10-28T17:44:11Z https://doi.org/10.1371/journal.pone.0258558.t002 unknown https://figshare.com/articles/dataset/The_effects_of_environmental_variables_landscape_characteristics_wildfire_severity_and_pre-fire_tree_density_on_post-fire_changes_in_ecosystem_structure_and_function_/16899257 doi:10.1371/journal.pone.0258558.t002 CC BY 4.0 CC-BY Cell Biology Molecular Biology Evolutionary Biology Ecology Sociology Developmental Biology Plant Biology Environmental Sciences not elsewhere classified Biological Sciences not elsewhere classified understory vegetation composition occur without increases drier landscape positions denali national park active layer thickness 6 ± 4 18 ± 1 density spruce stands seed rain observations extensive 2013 wildfire fire tree regeneration conifer tree recruitment seeding experiment indicate div >< p 13 kg c fire conifer density assessed wildfire severity induced forest infilling increased alt post increased density seeding experiment conifer trees recruitment potential alt ) wildfire throughout wildfire severity wildfire frequency seed availability organic soil north slope make predictions increasing throughout higher post global carbon future flammability ecosystem structure central alaska c emissions burn depth also located almost 95 alaska range 5 cm Dataset 2021 ftsmithonian https://doi.org/10.1371/journal.pone.0258558.t002 2021-12-19T23:06:31Z The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function. Dataset alaska range north slope Alaska Unknown
institution Open Polar
collection Unknown
op_collection_id ftsmithonian
language unknown
topic Cell Biology
Molecular Biology
Evolutionary Biology
Ecology
Sociology
Developmental Biology
Plant Biology
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
understory vegetation composition
occur without increases
drier landscape positions
denali national park
active layer thickness
6 ± 4
18 ± 1
density spruce stands
seed rain observations
extensive 2013 wildfire
fire tree regeneration
conifer tree recruitment
seeding experiment indicate
div >< p
13 kg c
fire conifer density
assessed wildfire severity
induced forest infilling
increased alt post
increased density
seeding experiment
conifer trees
recruitment potential
alt )
wildfire throughout
wildfire severity
wildfire frequency
seed availability
organic soil
north slope
make predictions
increasing throughout
higher post
global carbon
future flammability
ecosystem structure
central alaska
c emissions
burn depth
also located
almost 95
alaska range
5 cm
spellingShingle Cell Biology
Molecular Biology
Evolutionary Biology
Ecology
Sociology
Developmental Biology
Plant Biology
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
understory vegetation composition
occur without increases
drier landscape positions
denali national park
active layer thickness
6 ± 4
18 ± 1
density spruce stands
seed rain observations
extensive 2013 wildfire
fire tree regeneration
conifer tree recruitment
seeding experiment indicate
div >< p
13 kg c
fire conifer density
assessed wildfire severity
induced forest infilling
increased alt post
increased density
seeding experiment
conifer trees
recruitment potential
alt )
wildfire throughout
wildfire severity
wildfire frequency
seed availability
organic soil
north slope
make predictions
increasing throughout
higher post
global carbon
future flammability
ecosystem structure
central alaska
c emissions
burn depth
also located
almost 95
alaska range
5 cm
Xanthe J. Walker (3715783)
Brain K. Howard (11619743)
Mélanie Jean (3715789)
Jill F. Johnstone (8027336)
Carl Roland (6504848)
Brendan M. Rogers (9184067)
Edward A. G. Schuur (2663494)
Kylen K. Solvik (11619746)
Michelle C. Mack (8949893)
The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function.
topic_facet Cell Biology
Molecular Biology
Evolutionary Biology
Ecology
Sociology
Developmental Biology
Plant Biology
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
understory vegetation composition
occur without increases
drier landscape positions
denali national park
active layer thickness
6 ± 4
18 ± 1
density spruce stands
seed rain observations
extensive 2013 wildfire
fire tree regeneration
conifer tree recruitment
seeding experiment indicate
div >< p
13 kg c
fire conifer density
assessed wildfire severity
induced forest infilling
increased alt post
increased density
seeding experiment
conifer trees
recruitment potential
alt )
wildfire throughout
wildfire severity
wildfire frequency
seed availability
organic soil
north slope
make predictions
increasing throughout
higher post
global carbon
future flammability
ecosystem structure
central alaska
c emissions
burn depth
also located
almost 95
alaska range
5 cm
description The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function.
format Dataset
author Xanthe J. Walker (3715783)
Brain K. Howard (11619743)
Mélanie Jean (3715789)
Jill F. Johnstone (8027336)
Carl Roland (6504848)
Brendan M. Rogers (9184067)
Edward A. G. Schuur (2663494)
Kylen K. Solvik (11619746)
Michelle C. Mack (8949893)
author_facet Xanthe J. Walker (3715783)
Brain K. Howard (11619743)
Mélanie Jean (3715789)
Jill F. Johnstone (8027336)
Carl Roland (6504848)
Brendan M. Rogers (9184067)
Edward A. G. Schuur (2663494)
Kylen K. Solvik (11619746)
Michelle C. Mack (8949893)
author_sort Xanthe J. Walker (3715783)
title The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function.
title_short The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function.
title_full The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function.
title_fullStr The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function.
title_full_unstemmed The effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function.
title_sort effects of environmental variables, landscape characteristics, wildfire severity, and pre-fire tree density on post-fire changes in ecosystem structure and function.
publishDate 2021
url https://doi.org/10.1371/journal.pone.0258558.t002
genre alaska range
north slope
Alaska
genre_facet alaska range
north slope
Alaska
op_relation https://figshare.com/articles/dataset/The_effects_of_environmental_variables_landscape_characteristics_wildfire_severity_and_pre-fire_tree_density_on_post-fire_changes_in_ecosystem_structure_and_function_/16899257
doi:10.1371/journal.pone.0258558.t002
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.1371/journal.pone.0258558.t002
_version_ 1766193553911840768

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