Joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests

Tree rings provide an invaluable long‐term record for understanding how climate and other drivers shape tree growth and forest productivity. However, conventional tree‐ring analysis methods were not designed to simultaneously test effects of climate, tree size, and other drivers on individual growth...

Descripción completa

Detalles Bibliográficos
Autores principales: Anderson‐Teixeira, Kristina J., Herrmann, Valentine, Rollinson, Christine R., Gonzalez, Bianca, Gonzalez‐Akre, Erika B., Pederson, Neil, Alexander, M. Ross, Allen, Craig D., Alfaro‐Sánchez, Raquel, Awada, Tala, Baltzer, Jennifer L., Baker, Patrick J., Birch, Joseph D., Bunyavejchewin, Sarayudh, Cherubini, Paolo, Davies, Stuart J., Dow, Cameron, Helcoski, Ryan, Kašpar, Jakub, Lutz, James A., Margolis, Ellis Q., Maxwell, Justin T., McMahon, Sean M., Piponiot, Camille, Russo, Sabrina E., Šamonil, Pavel, Sniderhan, Anastasia E., Tepley, Alan J., Vašíčková, Ivana, Vlam, Mart, Zuidema, Pieter A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2021
Materias:
Primary Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9298236/
https://www.ncbi.nlm.nih.gov/pubmed/34653296
http://dx.doi.org/10.1111/gcb.15934
_version_ 1784750657978236928
author Anderson‐Teixeira, Kristina J.
Herrmann, Valentine
Rollinson, Christine R.
Gonzalez, Bianca
Gonzalez‐Akre, Erika B.
Pederson, Neil
Alexander, M. Ross
Allen, Craig D.
Alfaro‐Sánchez, Raquel
Awada, Tala
Baltzer, Jennifer L.
Baker, Patrick J.
Birch, Joseph D.
Bunyavejchewin, Sarayudh
Cherubini, Paolo
Davies, Stuart J.
Dow, Cameron
Helcoski, Ryan
Kašpar, Jakub
Lutz, James A.
Margolis, Ellis Q.
Maxwell, Justin T.
McMahon, Sean M.
Piponiot, Camille
Russo, Sabrina E.
Šamonil, Pavel
Sniderhan, Anastasia E.
Tepley, Alan J.
Vašíčková, Ivana
Vlam, Mart
Zuidema, Pieter A.
author_facet Anderson‐Teixeira, Kristina J.
Herrmann, Valentine
Rollinson, Christine R.
Gonzalez, Bianca
Gonzalez‐Akre, Erika B.
Pederson, Neil
Alexander, M. Ross
Allen, Craig D.
Alfaro‐Sánchez, Raquel
Awada, Tala
Baltzer, Jennifer L.
Baker, Patrick J.
Birch, Joseph D.
Bunyavejchewin, Sarayudh
Cherubini, Paolo
Davies, Stuart J.
Dow, Cameron
Helcoski, Ryan
Kašpar, Jakub
Lutz, James A.
Margolis, Ellis Q.
Maxwell, Justin T.
McMahon, Sean M.
Piponiot, Camille
Russo, Sabrina E.
Šamonil, Pavel
Sniderhan, Anastasia E.
Tepley, Alan J.
Vašíčková, Ivana
Vlam, Mart
Zuidema, Pieter A.
author_sort Anderson‐Teixeira, Kristina J.
collection PubMed
description Tree rings provide an invaluable long‐term record for understanding how climate and other drivers shape tree growth and forest productivity. However, conventional tree‐ring analysis methods were not designed to simultaneously test effects of climate, tree size, and other drivers on individual growth. This has limited the potential to test ecologically relevant hypotheses on tree growth sensitivity to environmental drivers and their interactions with tree size. Here, we develop and apply a new method to simultaneously model nonlinear effects of primary climate drivers, reconstructed tree diameter at breast height (DBH), and calendar year in generalized least squares models that account for the temporal autocorrelation inherent to each individual tree's growth. We analyze data from 3811 trees representing 40 species at 10 globally distributed sites, showing that precipitation, temperature, DBH, and calendar year have additively, and often interactively, influenced annual growth over the past 120 years. Growth responses were predominantly positive to precipitation (usually over ≥3‐month seasonal windows) and negative to temperature (usually maximum temperature, over ≤3‐month seasonal windows), with concave‐down responses in 63% of relationships. Climate sensitivity commonly varied with DBH (45% of cases tested), with larger trees usually more sensitive. Trends in ring width at small DBH were linked to the light environment under which trees established, but basal area or biomass increments consistently reached maxima at intermediate DBH. Accounting for climate and DBH, growth rate declined over time for 92% of species in secondary or disturbed stands, whereas growth trends were mixed in older forests. These trends were largely attributable to stand dynamics as cohorts and stands age, which remain challenging to disentangle from global change drivers. By providing a parsimonious approach for characterizing multiple interacting drivers of tree growth, our method reveals a more complete picture of the factors influencing growth than has previously been possible.
format Online
Article
Text
id pubmed-9298236
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher John Wiley and Sons Inc.
record_format MEDLINE/PubMed
spelling pubmed-92982362022-07-21 Joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests Anderson‐Teixeira, Kristina J. Herrmann, Valentine Rollinson, Christine R. Gonzalez, Bianca Gonzalez‐Akre, Erika B. Pederson, Neil Alexander, M. Ross Allen, Craig D. Alfaro‐Sánchez, Raquel Awada, Tala Baltzer, Jennifer L. Baker, Patrick J. Birch, Joseph D. Bunyavejchewin, Sarayudh Cherubini, Paolo Davies, Stuart J. Dow, Cameron Helcoski, Ryan Kašpar, Jakub Lutz, James A. Margolis, Ellis Q. Maxwell, Justin T. McMahon, Sean M. Piponiot, Camille Russo, Sabrina E. Šamonil, Pavel Sniderhan, Anastasia E. Tepley, Alan J. Vašíčková, Ivana Vlam, Mart Zuidema, Pieter A. Glob Chang Biol Primary Research Articles Tree rings provide an invaluable long‐term record for understanding how climate and other drivers shape tree growth and forest productivity. However, conventional tree‐ring analysis methods were not designed to simultaneously test effects of climate, tree size, and other drivers on individual growth. This has limited the potential to test ecologically relevant hypotheses on tree growth sensitivity to environmental drivers and their interactions with tree size. Here, we develop and apply a new method to simultaneously model nonlinear effects of primary climate drivers, reconstructed tree diameter at breast height (DBH), and calendar year in generalized least squares models that account for the temporal autocorrelation inherent to each individual tree's growth. We analyze data from 3811 trees representing 40 species at 10 globally distributed sites, showing that precipitation, temperature, DBH, and calendar year have additively, and often interactively, influenced annual growth over the past 120 years. Growth responses were predominantly positive to precipitation (usually over ≥3‐month seasonal windows) and negative to temperature (usually maximum temperature, over ≤3‐month seasonal windows), with concave‐down responses in 63% of relationships. Climate sensitivity commonly varied with DBH (45% of cases tested), with larger trees usually more sensitive. Trends in ring width at small DBH were linked to the light environment under which trees established, but basal area or biomass increments consistently reached maxima at intermediate DBH. Accounting for climate and DBH, growth rate declined over time for 92% of species in secondary or disturbed stands, whereas growth trends were mixed in older forests. These trends were largely attributable to stand dynamics as cohorts and stands age, which remain challenging to disentangle from global change drivers. By providing a parsimonious approach for characterizing multiple interacting drivers of tree growth, our method reveals a more complete picture of the factors influencing growth than has previously been possible. John Wiley and Sons Inc. 2021-10-30 2022-01 /pmc/articles/PMC9298236/ /pubmed/34653296 http://dx.doi.org/10.1111/gcb.15934 Text en © 2021 The Authors. Global Change Biology published by John Wiley & Sons Ltd. This article has been contributed to by US Government employees and their work is in the public domain in the USA. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
spellingShingle Primary Research Articles
Anderson‐Teixeira, Kristina J.
Herrmann, Valentine
Rollinson, Christine R.
Gonzalez, Bianca
Gonzalez‐Akre, Erika B.
Pederson, Neil
Alexander, M. Ross
Allen, Craig D.
Alfaro‐Sánchez, Raquel
Awada, Tala
Baltzer, Jennifer L.
Baker, Patrick J.
Birch, Joseph D.
Bunyavejchewin, Sarayudh
Cherubini, Paolo
Davies, Stuart J.
Dow, Cameron
Helcoski, Ryan
Kašpar, Jakub
Lutz, James A.
Margolis, Ellis Q.
Maxwell, Justin T.
McMahon, Sean M.
Piponiot, Camille
Russo, Sabrina E.
Šamonil, Pavel
Sniderhan, Anastasia E.
Tepley, Alan J.
Vašíčková, Ivana
Vlam, Mart
Zuidema, Pieter A.
Joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests
title Joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests
title_full Joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests
title_fullStr Joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests
title_full_unstemmed Joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests
title_short Joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests
title_sort joint effects of climate, tree size, and year on annual tree growth derived from tree‐ring records of ten globally distributed forests
topic Primary Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9298236/
https://www.ncbi.nlm.nih.gov/pubmed/34653296
http://dx.doi.org/10.1111/gcb.15934
work_keys_str_mv AT andersonteixeirakristinaj jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT herrmannvalentine jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT rollinsonchristiner jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT gonzalezbianca jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT gonzalezakreerikab jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT pedersonneil jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT alexandermross jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT allencraigd jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT alfarosanchezraquel jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT awadatala jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT baltzerjenniferl jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT bakerpatrickj jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT birchjosephd jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT bunyavejchewinsarayudh jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT cherubinipaolo jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT daviesstuartj jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT dowcameron jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT helcoskiryan jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT kasparjakub jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT lutzjamesa jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT margolisellisq jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT maxwelljustint jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT mcmahonseanm jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT piponiotcamille jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT russosabrinae jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT samonilpavel jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT sniderhananastasiae jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT tepleyalanj jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT vasickovaivana jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT vlammart jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests
AT zuidemapietera jointeffectsofclimatetreesizeandyearonannualtreegrowthderivedfromtreeringrecordsoftengloballydistributedforests

Ejemplares similares