Spatio-temporal assessment of beech growth in relation to climate extremes in Slovenia – An integrated approach using remote sensing and tree-ring data

Spatio-temporal assessment of beech growth in relation to climate extremes in Slovenia – An integrated approach using remote sensing and tree-ring data

Climate change is predicted to affect tree growth due to increased frequency and intensity of extreme events such as ice storms, droughts and heatwaves. Yet, there is still a lot of uncertainty on how trees respond to an increase in frequency of extreme events. Use of both ground-based wood increment (i.e. ring width) and remotely sensed data (i.e. vegetation indices) can be used to scale-up ground measurements, where there is a link between the two, but this has only been demonstrated in a few studies. We used tree-ring data together with crown features derived from the Moderate Resolution Imaging Spectroradiometer (MODIS) to assess the effect of extreme climate events on the growth of beech (Fagus sylvatica L.) in Slovenia. We found evidence that years with climate extremes during the growing season (drought, high temperatures) had a lower ring width index (RWI) but we could not find such evidence for the remotely sensed EVI (Enhanced Vegetation Index). However, when assessing specific events where leaf burning or wilting has been reported (e.g. August 2011) we did see large EVI anomalies. This implies that the impact of drought or heatwave events cannot be captured by EVI anomalies until physical damage on the canopy is caused. This also means that upscaling the effect of climate extremes on RWI by using EVI anomalies is not straightforward. An exception is the 2014 ice storm that caused a large decline in both RWI and EVI. Extreme climatic parameters explained just a small part of the variation in both RWI and EVI by, which could indicate an effect of other climate variables (e.g. late frost) or biotic stressors such as insect outbreaks. Furthermore, we found that RWI was lower in the year after a climate extreme occurred in the late summer. Most likely due to the gradual increase in temperature and more frequent drought we found negative trends in RWI and EVI. EVI maps could indicate where beech is sensitive to climate changes and could be used for planning mitigation interventions. Logical next steps should focus on a tree-based understanding of the short -and long-term effects of climate extremes on tree growth and survival, taking into account differential carbon allocation to the crown (EVI) and to wood-based variables. This research highlights the value of an integrated approach for upscaling tree-based knowledge to the forest level.

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Main Authors: Decuyper, Mathieu, Chávez, Roberto O., Čufar, Katarina, Estay, Sergio A., Clevers, Jan G.P.W., Prislan, Peter, Gričar, Jožica, Črepinšek, Zalika, Merela, Maks, De Luis, Martin, Notivoli, Roberto Serrano, Del Castillo, Edurne Martinez, Rozendaal, Danaë M.A., Bongers, Frans, Herold, Martin, Sass-Klaassen, Ute
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Drought, Fagus, Heatwave, Ice storm, Tree-ring width, Vegetation indices,
Online Access:https://research.wur.nl/en/publications/spatio-temporal-assessment-of-beech-growth-in-relation-to-climate
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spelling dig-wur-nl-wurpubs-5616122024-12-04 Decuyper, Mathieu Chávez, Roberto O. Čufar, Katarina Estay, Sergio A. Clevers, Jan G.P.W. Prislan, Peter Gričar, Jožica Črepinšek, Zalika Merela, Maks De Luis, Martin Notivoli, Roberto Serrano Del Castillo, Edurne Martinez Rozendaal, Danaë M.A. Bongers, Frans Herold, Martin Sass-Klaassen, Ute Article/Letter to editor Agricultural and Forest Meteorology 287 (2020) ISSN: 0168-1923 Spatio-temporal assessment of beech growth in relation to climate extremes in Slovenia – An integrated approach using remote sensing and tree-ring data 2020 Climate change is predicted to affect tree growth due to increased frequency and intensity of extreme events such as ice storms, droughts and heatwaves. Yet, there is still a lot of uncertainty on how trees respond to an increase in frequency of extreme events. Use of both ground-based wood increment (i.e. ring width) and remotely sensed data (i.e. vegetation indices) can be used to scale-up ground measurements, where there is a link between the two, but this has only been demonstrated in a few studies. We used tree-ring data together with crown features derived from the Moderate Resolution Imaging Spectroradiometer (MODIS) to assess the effect of extreme climate events on the growth of beech (Fagus sylvatica L.) in Slovenia. We found evidence that years with climate extremes during the growing season (drought, high temperatures) had a lower ring width index (RWI) but we could not find such evidence for the remotely sensed EVI (Enhanced Vegetation Index). However, when assessing specific events where leaf burning or wilting has been reported (e.g. August 2011) we did see large EVI anomalies. This implies that the impact of drought or heatwave events cannot be captured by EVI anomalies until physical damage on the canopy is caused. This also means that upscaling the effect of climate extremes on RWI by using EVI anomalies is not straightforward. An exception is the 2014 ice storm that caused a large decline in both RWI and EVI. Extreme climatic parameters explained just a small part of the variation in both RWI and EVI by, which could indicate an effect of other climate variables (e.g. late frost) or biotic stressors such as insect outbreaks. Furthermore, we found that RWI was lower in the year after a climate extreme occurred in the late summer. Most likely due to the gradual increase in temperature and more frequent drought we found negative trends in RWI and EVI. EVI maps could indicate where beech is sensitive to climate changes and could be used for planning mitigation interventions. Logical next steps should focus on a tree-based understanding of the short -and long-term effects of climate extremes on tree growth and survival, taking into account differential carbon allocation to the crown (EVI) and to wood-based variables. This research highlights the value of an integrated approach for upscaling tree-based knowledge to the forest level. en application/pdf https://research.wur.nl/en/publications/spatio-temporal-assessment-of-beech-growth-in-relation-to-climate 10.1016/j.agrformet.2020.107925 https://edepot.wur.nl/515660 Drought Fagus Heatwave Ice storm Tree-ring width Vegetation indices https://creativecommons.org/licenses/by-nc-nd/4.0/ https://creativecommons.org/licenses/by-nc-nd/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Drought
Fagus
Heatwave
Ice storm
Tree-ring width
Vegetation indices
Drought
Fagus
Heatwave
Ice storm
Tree-ring width
Vegetation indices
spellingShingle Drought
Fagus
Heatwave
Ice storm
Tree-ring width
Vegetation indices
Drought
Fagus
Heatwave
Ice storm
Tree-ring width
Vegetation indices
Decuyper, Mathieu
Chávez, Roberto O.
Čufar, Katarina
Estay, Sergio A.
Clevers, Jan G.P.W.
Prislan, Peter
Gričar, Jožica
Črepinšek, Zalika
Merela, Maks
De Luis, Martin
Notivoli, Roberto Serrano
Del Castillo, Edurne Martinez
Rozendaal, Danaë M.A.
Bongers, Frans
Herold, Martin
Sass-Klaassen, Ute
Spatio-temporal assessment of beech growth in relation to climate extremes in Slovenia – An integrated approach using remote sensing and tree-ring data
description Climate change is predicted to affect tree growth due to increased frequency and intensity of extreme events such as ice storms, droughts and heatwaves. Yet, there is still a lot of uncertainty on how trees respond to an increase in frequency of extreme events. Use of both ground-based wood increment (i.e. ring width) and remotely sensed data (i.e. vegetation indices) can be used to scale-up ground measurements, where there is a link between the two, but this has only been demonstrated in a few studies. We used tree-ring data together with crown features derived from the Moderate Resolution Imaging Spectroradiometer (MODIS) to assess the effect of extreme climate events on the growth of beech (Fagus sylvatica L.) in Slovenia. We found evidence that years with climate extremes during the growing season (drought, high temperatures) had a lower ring width index (RWI) but we could not find such evidence for the remotely sensed EVI (Enhanced Vegetation Index). However, when assessing specific events where leaf burning or wilting has been reported (e.g. August 2011) we did see large EVI anomalies. This implies that the impact of drought or heatwave events cannot be captured by EVI anomalies until physical damage on the canopy is caused. This also means that upscaling the effect of climate extremes on RWI by using EVI anomalies is not straightforward. An exception is the 2014 ice storm that caused a large decline in both RWI and EVI. Extreme climatic parameters explained just a small part of the variation in both RWI and EVI by, which could indicate an effect of other climate variables (e.g. late frost) or biotic stressors such as insect outbreaks. Furthermore, we found that RWI was lower in the year after a climate extreme occurred in the late summer. Most likely due to the gradual increase in temperature and more frequent drought we found negative trends in RWI and EVI. EVI maps could indicate where beech is sensitive to climate changes and could be used for planning mitigation interventions. Logical next steps should focus on a tree-based understanding of the short -and long-term effects of climate extremes on tree growth and survival, taking into account differential carbon allocation to the crown (EVI) and to wood-based variables. This research highlights the value of an integrated approach for upscaling tree-based knowledge to the forest level.
format Article/Letter to editor
topic_facet Drought
Fagus
Heatwave
Ice storm
Tree-ring width
Vegetation indices
author Decuyper, Mathieu
Chávez, Roberto O.
Čufar, Katarina
Estay, Sergio A.
Clevers, Jan G.P.W.
Prislan, Peter
Gričar, Jožica
Črepinšek, Zalika
Merela, Maks
De Luis, Martin
Notivoli, Roberto Serrano
Del Castillo, Edurne Martinez
Rozendaal, Danaë M.A.
Bongers, Frans
Herold, Martin
Sass-Klaassen, Ute
author_facet Decuyper, Mathieu
Chávez, Roberto O.
Čufar, Katarina
Estay, Sergio A.
Clevers, Jan G.P.W.
Prislan, Peter
Gričar, Jožica
Črepinšek, Zalika
Merela, Maks
De Luis, Martin
Notivoli, Roberto Serrano
Del Castillo, Edurne Martinez
Rozendaal, Danaë M.A.
Bongers, Frans
Herold, Martin
Sass-Klaassen, Ute
author_sort Decuyper, Mathieu
title Spatio-temporal assessment of beech growth in relation to climate extremes in Slovenia – An integrated approach using remote sensing and tree-ring data
title_short Spatio-temporal assessment of beech growth in relation to climate extremes in Slovenia – An integrated approach using remote sensing and tree-ring data
title_full Spatio-temporal assessment of beech growth in relation to climate extremes in Slovenia – An integrated approach using remote sensing and tree-ring data
title_fullStr Spatio-temporal assessment of beech growth in relation to climate extremes in Slovenia – An integrated approach using remote sensing and tree-ring data
title_full_unstemmed Spatio-temporal assessment of beech growth in relation to climate extremes in Slovenia – An integrated approach using remote sensing and tree-ring data
title_sort spatio-temporal assessment of beech growth in relation to climate extremes in slovenia – an integrated approach using remote sensing and tree-ring data
url https://research.wur.nl/en/publications/spatio-temporal-assessment-of-beech-growth-in-relation-to-climate
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