Considering neighborhood effects improves individual dbh growth models for natural mixed-species forests in Mexico

Key message More accurate diameter at breast height (dbh)-growth models are needed for developing management tools for mixed-species forests in Mexico. Individual distance-dependent dbh growth models that quantify local neighborhood effects have been developed for four species groups in such forests...

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Published inAnnals of forest science. Vol. 75; no. 3; pp. 1 - 11
Main Authors Quiñonez-Barraza, Gerónimo, Zhao, Dehai, De Los Santos Posadas, Héctor M., Corral-Rivas, José J.
Format Journal Article
LanguageEnglish
Published Paris Springer Paris 01.09.2018
Springer Nature B.V
Springer Nature (since 2011)/EDP Science (until 2010)
Subjects
Age
Biomedical and Life Sciences
Competition
Coniferous trees
Conifers
Environment
Forest management
Forestry
Forestry Management
Forests
Growth models
Interspecific
intraspecific competition
Life Sciences
Management tools
Mexico
Mixed forests
Neighborhoods
Pine trees
Pinus
Quercus
Research Paper
selection methods
Species
Species classification
tree and stand measurements
Tree Biology
Trees
Wood Science & Technology
Mexico
Crown-overlapping
Distance-dependent indices
Competition effect
Neighbor tree
Subject tree
Online AccessGet full text
ISSN1286-4560
1297-966X
DOI10.1007/s13595-018-0762-2

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Abstract Key message More accurate diameter at breast height (dbh)-growth models are needed for developing management tools for mixed-species forests in Mexico. Individual distance-dependent dbh growth models that quantify local neighborhood effects have been developed for four species groups in such forests. The performance of the models is improved by distinguishing between inter- and intraspecific group competitions. Context The management of mixed-species forests in the northwest of Durango, Mexico, is mainly based on the selection method. Understanding the interspecific and intraspecific competition is critical to developing management tools for such mixed-species forests. Aims An individual-based distance-dependent modeling approach was used to model the growth of dbh and to evaluate neighborhood effects for four species groups in Mexican mixed-species stands. Methods Twenty-two species were classified into four groups: Pinus (seven species), other conifers (three species), other broadleaves (four species), and Quercus (eight species). Four methods were used to select neighboring trees and 12 competition indices (CIs) were calculated. Comparisons of the neighboring trees selection methods and CIs and tests of assumptions about neighborhood effects were conducted. Results Intra-species-group competition significantly reduced diameter growth for all species groups, except for the Quercus group. The Pinus , other conifers, and Quercus groups had significant and negative neighborhood effects on the other broadleaves species group, and not vice versa. The Quercus group also had negative neighborhood effect on the Pinus and other conifers species groups, and not vice versa. The Pinus and other conifers species groups had negative neighborhood effects on each other. All fitted age-independent dbh growth models showed a good of fit to the data (adjusted coefficient of determination larger than 0.977). Conclusion The growth models can be used to predict dbh growth for species groups and competition in mixed-species stand from Durango, Mexico.
AbstractList AbstractKey messageMore accurate diameter at breast height (dbh)-growth models are needed for developing management tools for mixed-species forests in Mexico. Individual distance-dependent dbh growth models that quantify local neighborhood effects have been developed for four species groups in such forests. The performance of the models is improved by distinguishing between inter- and intraspecific group competitions.ContextThe management of mixed-species forests in the northwest of Durango, Mexico, is mainly based on the selection method. Understanding the interspecific and intraspecific competition is critical to developing management tools for such mixed-species forests.AimsAn individual-based distance-dependent modeling approach was used to model the growth of dbh and to evaluate neighborhood effects for four species groups in Mexican mixed-species stands.MethodsTwenty-two species were classified into four groups: Pinus (seven species), other conifers (three species), other broadleaves (four species), and Quercus (eight species). Four methods were used to select neighboring trees and 12 competition indices (CIs) were calculated. Comparisons of the neighboring trees selection methods and CIs and tests of assumptions about neighborhood effects were conducted.ResultsIntra-species-group competition significantly reduced diameter growth for all species groups, except for the Quercus group. The Pinus, other conifers, and Quercus groups had significant and negative neighborhood effects on the other broadleaves species group, and not vice versa. The Quercus group also had negative neighborhood effect on the Pinus and other conifers species groups, and not vice versa. The Pinus and other conifers species groups had negative neighborhood effects on each other. All fitted age-independent dbh growth models showed a good of fit to the data (adjusted coefficient of determination larger than 0.977).ConclusionThe growth models can be used to predict dbh growth for species groups and competition in mixed-species stand from Durango, Mexico.
Key messageMore accurate diameter at breast height (dbh)-growth models are needed for developing management tools for mixed-species forests in Mexico. Individual distance-dependent dbh growth models that quantify local neighborhood effects have been developed for four species groups in such forests. The performance of the models is improved by distinguishing between inter- and intraspecific group competitions.ContextThe management of mixed-species forests in the northwest of Durango, Mexico, is mainly based on the selection method. Understanding the interspecific and intraspecific competition is critical to developing management tools for such mixed-species forests.AimsAn individual-based distance-dependent modeling approach was used to model the growth of dbh and to evaluate neighborhood effects for four species groups in Mexican mixed-species stands.MethodsTwenty-two species were classified into four groups: Pinus (seven species), other conifers (three species), other broadleaves (four species), and Quercus (eight species). Four methods were used to select neighboring trees and 12 competition indices (CIs) were calculated. Comparisons of the neighboring trees selection methods and CIs and tests of assumptions about neighborhood effects were conducted.ResultsIntra-species-group competition significantly reduced diameter growth for all species groups, except for the Quercus group. The Pinus, other conifers, and Quercus groups had significant and negative neighborhood effects on the other broadleaves species group, and not vice versa. The Quercus group also had negative neighborhood effect on the Pinus and other conifers species groups, and not vice versa. The Pinus and other conifers species groups had negative neighborhood effects on each other. All fitted age-independent dbh growth models showed a good of fit to the data (adjusted coefficient of determination larger than 0.977).ConclusionThe growth models can be used to predict dbh growth for species groups and competition in mixed-species stand from Durango, Mexico.
KEY MESSAGE: More accurate diameter at breast height (dbh)-growth models are needed for developing management tools for mixed-species forests in Mexico. Individual distance-dependent dbh growth models that quantify local neighborhood effects have been developed for four species groups in such forests. The performance of the models is improved by distinguishing between inter- and intraspecific group competitions. CONTEXT: The management of mixed-species forests in the northwest of Durango, Mexico, is mainly based on the selection method. Understanding the interspecific and intraspecific competition is critical to developing management tools for such mixed-species forests. AIMS: An individual-based distance-dependent modeling approach was used to model the growth of dbh and to evaluate neighborhood effects for four species groups in Mexican mixed-species stands. METHODS: Twenty-two species were classified into four groups: Pinus (seven species), other conifers (three species), other broadleaves (four species), and Quercus (eight species). Four methods were used to select neighboring trees and 12 competition indices (CIs) were calculated. Comparisons of the neighboring trees selection methods and CIs and tests of assumptions about neighborhood effects were conducted. RESULTS: Intra-species-group competition significantly reduced diameter growth for all species groups, except for the Quercus group. The Pinus, other conifers, and Quercus groups had significant and negative neighborhood effects on the other broadleaves species group, and not vice versa. The Quercus group also had negative neighborhood effect on the Pinus and other conifers species groups, and not vice versa. The Pinus and other conifers species groups had negative neighborhood effects on each other. All fitted age-independent dbh growth models showed a good of fit to the data (adjusted coefficient of determination larger than 0.977). CONCLUSION: The growth models can be used to predict dbh growth for species groups and competition in mixed-species stand from Durango, Mexico.
Key message More accurate diameter at breast height (dbh)-growth models are needed for developing management tools for mixed-species forests in Mexico. Individual distance-dependent dbh growth models that quantify local neighborhood effects have been developed for four species groups in such forests. The performance of the models is improved by distinguishing between inter- and intraspecific group competitions. Context The management of mixed-species forests in the northwest of Durango, Mexico, is mainly based on the selection method. Understanding the interspecific and intraspecific competition is critical to developing management tools for such mixed-species forests. Aims An individual-based distance-dependent modeling approach was used to model the growth of dbh and to evaluate neighborhood effects for four species groups in Mexican mixed-species stands. Methods Twenty-two species were classified into four groups: Pinus (seven species), other conifers (three species), other broadleaves (four species), and Quercus (eight species). Four methods were used to select neighboring trees and 12 competition indices (CIs) were calculated. Comparisons of the neighboring trees selection methods and CIs and tests of assumptions about neighborhood effects were conducted. Results Intra-species-group competition significantly reduced diameter growth for all species groups, except for the Quercus group. The Pinus , other conifers, and Quercus groups had significant and negative neighborhood effects on the other broadleaves species group, and not vice versa. The Quercus group also had negative neighborhood effect on the Pinus and other conifers species groups, and not vice versa. The Pinus and other conifers species groups had negative neighborhood effects on each other. All fitted age-independent dbh growth models showed a good of fit to the data (adjusted coefficient of determination larger than 0.977). Conclusion The growth models can be used to predict dbh growth for species groups and competition in mixed-species stand from Durango, Mexico.
ArticleNumber 78
Author Corral-Rivas, José J.
De Los Santos Posadas, Héctor M.
Zhao, Dehai
Quiñonez-Barraza, Gerónimo
Author_xml – sequence: 1
  givenname: Gerónimo
  orcidid: 0000-0002-5966-3664
  surname: Quiñonez-Barraza
  fullname: Quiñonez-Barraza, Gerónimo
  email: quinonez.geronimo@inifap.gob.mx
  organization: Campo Experimental Valle del Guadiana, Instituto Nacional de Investigaciones Forestales Agrícolas y Pecuarias (INIFAP)
– sequence: 2
  givenname: Dehai
  surname: Zhao
  fullname: Zhao, Dehai
  organization: Warnell School of Forestry and Natural Resources, University of Georgia
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  givenname: Héctor M.
  surname: De Los Santos Posadas
  fullname: De Los Santos Posadas, Héctor M.
  organization: Postgrado en Ciencias Forestales, Colegio de Postgraduados
– sequence: 4
  givenname: José J.
  surname: Corral-Rivas
  fullname: Corral-Rivas, José J.
  organization: Facultad de Ciencias Forestales, Universidad Juárez del Estado de Durango
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Keywords Crown-overlapping
Distance-dependent indices
Competition effect
Neighbor tree
Subject tree
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Snippet Key message More accurate diameter at breast height (dbh)-growth models are needed for developing management tools for mixed-species forests in Mexico....
Key messageMore accurate diameter at breast height (dbh)-growth models are needed for developing management tools for mixed-species forests in Mexico....
KEY MESSAGE: More accurate diameter at breast height (dbh)-growth models are needed for developing management tools for mixed-species forests in Mexico....
AbstractKey messageMore accurate diameter at breast height (dbh)-growth models are needed for developing management tools for mixed-species forests in Mexico....
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SubjectTerms Age
Biomedical and Life Sciences
Competition
Coniferous trees
Conifers
Environment
Forest management
Forestry
Forestry Management
Forests
Growth models
Interspecific
intraspecific competition
Life Sciences
Management tools
Mexico
Mixed forests
Neighborhoods
Pine trees
Pinus
Quercus
Research Paper
selection methods
Species
Species classification
tree and stand measurements
Tree Biology
Trees
Wood Science & Technology
Title Considering neighborhood effects improves individual dbh growth models for natural mixed-species forests in Mexico
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