Survival, growth and vulnerability to drought in fire refuges implications for the persistence of a fire ‑ sensitive conifer in northern Patagonia

Survival, growth and vulnerability to drought in fire refuges implications for the persistence of a fire ‑ sensitive conifer in northern Patagonia

Fire severity and extent are expected to increase in many regions worldwide due to climate change. Therefore, it is crucial to assess the relative importance of deterministic vs. stochastic factors producing remnant vegetation to understand their function in the persistence of fire-sensitive plants. Vegetation remnants (areas within the landscape that have not burned for a considerable amount of time) may occur stochastically or in more predictable locations (fire refuges) where physical conditions decrease fire severity. Our aim was to determine if remnant forests of the fire-sensitive conifer Austrocedrus chilensis are associated with biophysical attributes that allow persistence in a fire-prone Patagonian landscape. We conducted a multiscale approach, determining attributes of forest remnants and their surroundings (matrices) through remote sensing and field-based biophysical and functional characteristics, and quantifying how tree survival probability relates to microsite conditions. Trees within remnants displayed abundant fire scars, were twofold older and had threefold larger growth rates than matrix trees. Remnants were associated with high rocky cover and elevated topographical positions. Tree survival increased in hilltops, eastern aspects, and with sparse vegetation. Trees within remnants experienced severe reductions in growth during droughts. Our results suggest that A. chilensis remnants are mainly the result of refuges, where environmental conditions increase fire survival, but also increase susceptibility to drought. A trade-off between fire survival and drought vulnerability may imply that under increasing drought and fire severity, locations that in the past have served as refuges may reduce their ability to allow the persistence of fire-sensitive taxa.

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Main Authors: Landesmann, Jennifer Brenda, Gowda, Juan H., Garibaldi, Lucas Alejandro, Kitzberger, Thomas
Format: Texto biblioteca
Language:eng
Subjects:BASAL AREA INCREMENT, FOREST REMNANT, CLIMATE CHANGE, BIOPHYSICAL ATTRIBUTES, AUSTROCEDRUS CHILENSIS, ,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46316
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id KOHA-OAI-AGRO:46316
record_format koha
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language eng
topic BASAL AREA INCREMENT
FOREST REMNANT
CLIMATE CHANGE
BIOPHYSICAL ATTRIBUTES
AUSTROCEDRUS CHILENSIS

BASAL AREA INCREMENT
FOREST REMNANT
CLIMATE CHANGE
BIOPHYSICAL ATTRIBUTES
AUSTROCEDRUS CHILENSIS
spellingShingle BASAL AREA INCREMENT
FOREST REMNANT
CLIMATE CHANGE
BIOPHYSICAL ATTRIBUTES
AUSTROCEDRUS CHILENSIS

BASAL AREA INCREMENT
FOREST REMNANT
CLIMATE CHANGE
BIOPHYSICAL ATTRIBUTES
AUSTROCEDRUS CHILENSIS
Landesmann, Jennifer Brenda
Gowda, Juan H.
Garibaldi, Lucas Alejandro
Kitzberger, Thomas
Survival, growth and vulnerability to drought in fire refuges implications for the persistence of a fire ‑ sensitive conifer in northern Patagonia
description Fire severity and extent are expected to increase in many regions worldwide due to climate change. Therefore, it is crucial to assess the relative importance of deterministic vs. stochastic factors producing remnant vegetation to understand their function in the persistence of fire-sensitive plants. Vegetation remnants (areas within the landscape that have not burned for a considerable amount of time) may occur stochastically or in more predictable locations (fire refuges) where physical conditions decrease fire severity. Our aim was to determine if remnant forests of the fire-sensitive conifer Austrocedrus chilensis are associated with biophysical attributes that allow persistence in a fire-prone Patagonian landscape. We conducted a multiscale approach, determining attributes of forest remnants and their surroundings (matrices) through remote sensing and field-based biophysical and functional characteristics, and quantifying how tree survival probability relates to microsite conditions. Trees within remnants displayed abundant fire scars, were twofold older and had threefold larger growth rates than matrix trees. Remnants were associated with high rocky cover and elevated topographical positions. Tree survival increased in hilltops, eastern aspects, and with sparse vegetation. Trees within remnants experienced severe reductions in growth during droughts. Our results suggest that A. chilensis remnants are mainly the result of refuges, where environmental conditions increase fire survival, but also increase susceptibility to drought. A trade-off between fire survival and drought vulnerability may imply that under increasing drought and fire severity, locations that in the past have served as refuges may reduce their ability to allow the persistence of fire-sensitive taxa.
format Texto
topic_facet
BASAL AREA INCREMENT
FOREST REMNANT
CLIMATE CHANGE
BIOPHYSICAL ATTRIBUTES
AUSTROCEDRUS CHILENSIS
author Landesmann, Jennifer Brenda
Gowda, Juan H.
Garibaldi, Lucas Alejandro
Kitzberger, Thomas
author_facet Landesmann, Jennifer Brenda
Gowda, Juan H.
Garibaldi, Lucas Alejandro
Kitzberger, Thomas
author_sort Landesmann, Jennifer Brenda
title Survival, growth and vulnerability to drought in fire refuges implications for the persistence of a fire ‑ sensitive conifer in northern Patagonia
title_short Survival, growth and vulnerability to drought in fire refuges implications for the persistence of a fire ‑ sensitive conifer in northern Patagonia
title_full Survival, growth and vulnerability to drought in fire refuges implications for the persistence of a fire ‑ sensitive conifer in northern Patagonia
title_fullStr Survival, growth and vulnerability to drought in fire refuges implications for the persistence of a fire ‑ sensitive conifer in northern Patagonia
title_full_unstemmed Survival, growth and vulnerability to drought in fire refuges implications for the persistence of a fire ‑ sensitive conifer in northern Patagonia
title_sort survival, growth and vulnerability to drought in fire refuges implications for the persistence of a fire ‑ sensitive conifer in northern patagonia
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46316
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
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AT garibaldilucasalejandro survivalgrowthandvulnerabilitytodroughtinfirerefugesimplicationsforthepersistenceofafiresensitiveconiferinnorthernpatagonia
AT kitzbergerthomas survivalgrowthandvulnerabilitytodroughtinfirerefugesimplicationsforthepersistenceofafiresensitiveconiferinnorthernpatagonia
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spelling KOHA-OAI-AGRO:463162022-05-03T13:33:27Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46316http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=AAGSurvival, growth and vulnerability to drought in fire refuges implications for the persistence of a fire ‑ sensitive conifer in northern PatagoniaLandesmann, Jennifer BrendaGowda, Juan H.Garibaldi, Lucas AlejandroKitzberger, Thomastextengapplication/pdfFire severity and extent are expected to increase in many regions worldwide due to climate change. Therefore, it is crucial to assess the relative importance of deterministic vs. stochastic factors producing remnant vegetation to understand their function in the persistence of fire-sensitive plants. Vegetation remnants (areas within the landscape that have not burned for a considerable amount of time) may occur stochastically or in more predictable locations (fire refuges) where physical conditions decrease fire severity. Our aim was to determine if remnant forests of the fire-sensitive conifer Austrocedrus chilensis are associated with biophysical attributes that allow persistence in a fire-prone Patagonian landscape. We conducted a multiscale approach, determining attributes of forest remnants and their surroundings (matrices) through remote sensing and field-based biophysical and functional characteristics, and quantifying how tree survival probability relates to microsite conditions. Trees within remnants displayed abundant fire scars, were twofold older and had threefold larger growth rates than matrix trees. Remnants were associated with high rocky cover and elevated topographical positions. Tree survival increased in hilltops, eastern aspects, and with sparse vegetation. Trees within remnants experienced severe reductions in growth during droughts. Our results suggest that A. chilensis remnants are mainly the result of refuges, where environmental conditions increase fire survival, but also increase susceptibility to drought. A trade-off between fire survival and drought vulnerability may imply that under increasing drought and fire severity, locations that in the past have served as refuges may reduce their ability to allow the persistence of fire-sensitive taxa.Fire severity and extent are expected to increase in many regions worldwide due to climate change. Therefore, it is crucial to assess the relative importance of deterministic vs. stochastic factors producing remnant vegetation to understand their function in the persistence of fire-sensitive plants. Vegetation remnants (areas within the landscape that have not burned for a considerable amount of time) may occur stochastically or in more predictable locations (fire refuges) where physical conditions decrease fire severity. Our aim was to determine if remnant forests of the fire-sensitive conifer Austrocedrus chilensis are associated with biophysical attributes that allow persistence in a fire-prone Patagonian landscape. We conducted a multiscale approach, determining attributes of forest remnants and their surroundings (matrices) through remote sensing and field-based biophysical and functional characteristics, and quantifying how tree survival probability relates to microsite conditions. Trees within remnants displayed abundant fire scars, were twofold older and had threefold larger growth rates than matrix trees. Remnants were associated with high rocky cover and elevated topographical positions. Tree survival increased in hilltops, eastern aspects, and with sparse vegetation. Trees within remnants experienced severe reductions in growth during droughts. Our results suggest that A. chilensis remnants are mainly the result of refuges, where environmental conditions increase fire survival, but also increase susceptibility to drought. A trade-off between fire survival and drought vulnerability may imply that under increasing drought and fire severity, locations that in the past have served as refuges may reduce their ability to allow the persistence of fire-sensitive taxa.BASAL AREA INCREMENTFOREST REMNANTCLIMATE CHANGEBIOPHYSICAL ATTRIBUTESAUSTROCEDRUS CHILENSISOecologia

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