Total and proportion of total C combusted as a function of total pre-fire C pool and conifer density.
Black lines represent modelled relationships and shading represents 95% confidence regions. A linear mixed effects model was used to model total C combusted and a generalized linear mixed effect model with a Gamma error distribution and log link function was used to model proportion of total C combu...
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ftsmithonian:oai:figshare.com:article/16899233 2023-05-15T13:09:43+02:00 Total and proportion of total C combusted as a function of total pre-fire C pool and conifer density. 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.g004 unknown https://figshare.com/articles/figure/Total_and_proportion_of_total_C_combusted_as_a_function_of_total_pre-fire_C_pool_and_conifer_density_/16899233 doi:10.1371/journal.pone.0258558.g004 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 Image Figure 2021 ftsmithonian https://doi.org/10.1371/journal.pone.0258558.g004 2021-12-19T23:06:32Z Black lines represent modelled relationships and shading represents 95% confidence regions. A linear mixed effects model was used to model total C combusted and a generalized linear mixed effect model with a Gamma error distribution and log link function was used to model proportion of total C combusted. Both included a random effect of grid (2 levels). See Table 2 for model results. Still Image alaska range north slope Alaska Unknown |
institution |
Open Polar |
collection |
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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) Total and proportion of total C combusted as a function of total pre-fire C pool and conifer density. |
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 |
Black lines represent modelled relationships and shading represents 95% confidence regions. A linear mixed effects model was used to model total C combusted and a generalized linear mixed effect model with a Gamma error distribution and log link function was used to model proportion of total C combusted. Both included a random effect of grid (2 levels). See Table 2 for model results. |
format |
Still Image |
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 |
Total and proportion of total C combusted as a function of total pre-fire C pool and conifer density. |
title_short |
Total and proportion of total C combusted as a function of total pre-fire C pool and conifer density. |
title_full |
Total and proportion of total C combusted as a function of total pre-fire C pool and conifer density. |
title_fullStr |
Total and proportion of total C combusted as a function of total pre-fire C pool and conifer density. |
title_full_unstemmed |
Total and proportion of total C combusted as a function of total pre-fire C pool and conifer density. |
title_sort |
total and proportion of total c combusted as a function of total pre-fire c pool and conifer density. |
publishDate |
2021 |
url |
https://doi.org/10.1371/journal.pone.0258558.g004 |
genre |
alaska range north slope Alaska |
genre_facet |
alaska range north slope Alaska |
op_relation |
https://figshare.com/articles/figure/Total_and_proportion_of_total_C_combusted_as_a_function_of_total_pre-fire_C_pool_and_conifer_density_/16899233 doi:10.1371/journal.pone.0258558.g004 |
op_rights |
CC BY 4.0 |
op_rightsnorm |
CC-BY |
op_doi |
https://doi.org/10.1371/journal.pone.0258558.g004 |
_version_ |
1766195687001686016 |