Forest management effects on the Ectomycorrhizal macromycete community in tropical montane forests in Mexico

Forest management effects on the Ectomycorrhizal macromycete community in tropical montane forests in Mexico

While forest management impacts the ectomycorrhizal fungi (EMF) community, most of the evidence regarding such effects has been obtained from temperate forests of the Northern Hemisphere and little is known of their prevalence in highly diverse tropical habitats. This study analyzes the responses of the EMF community in managed tropical montane forests in the southern Mexican state of Chiapas. EMF community composition and diversity were evaluated over a 2-year period along a gradient of structural and microclimatic conditions of the forest associated with the stages of a cycle of silvicultural practices (R = release cutting, T = thinning, and F = final regeneration cutting), as well as in a mid-successional unmanaged forest (UF) as a reference system. The silvicultural practices involve varying intensities of tree harvesting (≈ 20% in T to ≈ 80% in F). It is hypothesized that: (1) diversity and composition of EMF communities are influenced by changes in forest conditions, principally as a result of canopy cover alteration due to forest management, and (2) late forest successional conditions are associated to more diverse EMF communities, while more intensive silvicultural practices reduce their diversity. A total of 75 EMF species were recorded. Diversity analysis using Hill numbers showed a close relationship between diversity and forest conditions: total species richness, 0D = 5.7 ± 0.6 in F up to 11.7 ± 1.3 in UF; richness of abundant species, 1D = 4.1 ± 0.4 in F up to 7.5 ± 0.4 in UF; richness of very abundant species 2D = 3.3 ± 0.3 in R up to 5.5 ± 0.3 in UF. Canopy cover (9.8 ± 4% in F and 80.6 ± 5% in UF) was the main factor affecting EMF diversity, mainly due to its influence on herbaceous cover, tree species richness (path analysis, R2 = 0.32; p < 0.05), and microclimatic variables. Turnover of the most abundant EMF species from the most intensive management practice towards the later successional forest conditions was observed. Late successional conditions allow for maintenance of more diverse EMF communities, while more intensive practices reduce their diversity (p < 0.05, in both cases). Rare fungal species appear to be more vulnerable to highly intensive management, and account for most of the EMF diversity in UF. The results indicate the importance of preserving relatively undisturbed species-rich forest stands near intensively managed stands in order to maintain biological integrity of the EMF community and ecosystem functioning in tropical montane forests.

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Main Authors: Pérez López, Ricardo Irving Doctor 21729, González Espinosa, Mario 1950- Doctor 5462, Ramírez Marcial, Neptalí 1963- Doctor 5449, Pérez Moreno, Jesús autor, Toledo Aceves, Terin autor
Format: Texto biblioteca
Language:eng
Subjects:Hongos ectomicorrizógenos, Ordenación forestal, Actividades antropogénicas, Sistemas silviculturales, Bosque de niebla, Artfrosur,
Online Access:https://doi.org/10.1016/j.foreco.2021.119670
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id KOHA-OAI-ECOSUR:61463
record_format koha
institution ECOSUR
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-ecosur
tag biblioteca
region America del Norte
libraryname Sistema de Información Bibliotecario de ECOSUR (SIBE)
language eng
topic Hongos ectomicorrizógenos
Ordenación forestal
Actividades antropogénicas
Sistemas silviculturales
Bosque de niebla
Artfrosur
Hongos ectomicorrizógenos
Ordenación forestal
Actividades antropogénicas
Sistemas silviculturales
Bosque de niebla
Artfrosur
spellingShingle Hongos ectomicorrizógenos
Ordenación forestal
Actividades antropogénicas
Sistemas silviculturales
Bosque de niebla
Artfrosur
Hongos ectomicorrizógenos
Ordenación forestal
Actividades antropogénicas
Sistemas silviculturales
Bosque de niebla
Artfrosur
Pérez López, Ricardo Irving Doctor 21729
González Espinosa, Mario 1950- Doctor 5462
Ramírez Marcial, Neptalí 1963- Doctor 5449
Pérez Moreno, Jesús autor
Toledo Aceves, Terin autor
Forest management effects on the Ectomycorrhizal macromycete community in tropical montane forests in Mexico
description While forest management impacts the ectomycorrhizal fungi (EMF) community, most of the evidence regarding such effects has been obtained from temperate forests of the Northern Hemisphere and little is known of their prevalence in highly diverse tropical habitats. This study analyzes the responses of the EMF community in managed tropical montane forests in the southern Mexican state of Chiapas. EMF community composition and diversity were evaluated over a 2-year period along a gradient of structural and microclimatic conditions of the forest associated with the stages of a cycle of silvicultural practices (R = release cutting, T = thinning, and F = final regeneration cutting), as well as in a mid-successional unmanaged forest (UF) as a reference system. The silvicultural practices involve varying intensities of tree harvesting (≈ 20% in T to ≈ 80% in F). It is hypothesized that: (1) diversity and composition of EMF communities are influenced by changes in forest conditions, principally as a result of canopy cover alteration due to forest management, and (2) late forest successional conditions are associated to more diverse EMF communities, while more intensive silvicultural practices reduce their diversity. A total of 75 EMF species were recorded. Diversity analysis using Hill numbers showed a close relationship between diversity and forest conditions: total species richness, 0D = 5.7 ± 0.6 in F up to 11.7 ± 1.3 in UF; richness of abundant species, 1D = 4.1 ± 0.4 in F up to 7.5 ± 0.4 in UF; richness of very abundant species 2D = 3.3 ± 0.3 in R up to 5.5 ± 0.3 in UF. Canopy cover (9.8 ± 4% in F and 80.6 ± 5% in UF) was the main factor affecting EMF diversity, mainly due to its influence on herbaceous cover, tree species richness (path analysis, R2 = 0.32; p < 0.05), and microclimatic variables. Turnover of the most abundant EMF species from the most intensive management practice towards the later successional forest conditions was observed. Late successional conditions allow for maintenance of more diverse EMF communities, while more intensive practices reduce their diversity (p < 0.05, in both cases). Rare fungal species appear to be more vulnerable to highly intensive management, and account for most of the EMF diversity in UF. The results indicate the importance of preserving relatively undisturbed species-rich forest stands near intensively managed stands in order to maintain biological integrity of the EMF community and ecosystem functioning in tropical montane forests.
format Texto
topic_facet Hongos ectomicorrizógenos
Ordenación forestal
Actividades antropogénicas
Sistemas silviculturales
Bosque de niebla
Artfrosur
author Pérez López, Ricardo Irving Doctor 21729
González Espinosa, Mario 1950- Doctor 5462
Ramírez Marcial, Neptalí 1963- Doctor 5449
Pérez Moreno, Jesús autor
Toledo Aceves, Terin autor
author_facet Pérez López, Ricardo Irving Doctor 21729
González Espinosa, Mario 1950- Doctor 5462
Ramírez Marcial, Neptalí 1963- Doctor 5449
Pérez Moreno, Jesús autor
Toledo Aceves, Terin autor
author_sort Pérez López, Ricardo Irving Doctor 21729
title Forest management effects on the Ectomycorrhizal macromycete community in tropical montane forests in Mexico
title_short Forest management effects on the Ectomycorrhizal macromycete community in tropical montane forests in Mexico
title_full Forest management effects on the Ectomycorrhizal macromycete community in tropical montane forests in Mexico
title_fullStr Forest management effects on the Ectomycorrhizal macromycete community in tropical montane forests in Mexico
title_full_unstemmed Forest management effects on the Ectomycorrhizal macromycete community in tropical montane forests in Mexico
title_sort forest management effects on the ectomycorrhizal macromycete community in tropical montane forests in mexico
url https://doi.org/10.1016/j.foreco.2021.119670
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spelling KOHA-OAI-ECOSUR:614632024-03-12T12:49:13ZForest management effects on the Ectomycorrhizal macromycete community in tropical montane forests in Mexico Pérez López, Ricardo Irving Doctor 21729 González Espinosa, Mario 1950- Doctor 5462 Ramírez Marcial, Neptalí 1963- Doctor 5449 Pérez Moreno, Jesús autor Toledo Aceves, Terin autor textengWhile forest management impacts the ectomycorrhizal fungi (EMF) community, most of the evidence regarding such effects has been obtained from temperate forests of the Northern Hemisphere and little is known of their prevalence in highly diverse tropical habitats. This study analyzes the responses of the EMF community in managed tropical montane forests in the southern Mexican state of Chiapas. EMF community composition and diversity were evaluated over a 2-year period along a gradient of structural and microclimatic conditions of the forest associated with the stages of a cycle of silvicultural practices (R = release cutting, T = thinning, and F = final regeneration cutting), as well as in a mid-successional unmanaged forest (UF) as a reference system. The silvicultural practices involve varying intensities of tree harvesting (≈ 20% in T to ≈ 80% in F). It is hypothesized that: (1) diversity and composition of EMF communities are influenced by changes in forest conditions, principally as a result of canopy cover alteration due to forest management, and (2) late forest successional conditions are associated to more diverse EMF communities, while more intensive silvicultural practices reduce their diversity. A total of 75 EMF species were recorded. Diversity analysis using Hill numbers showed a close relationship between diversity and forest conditions: total species richness, 0D = 5.7 ± 0.6 in F up to 11.7 ± 1.3 in UF; richness of abundant species, 1D = 4.1 ± 0.4 in F up to 7.5 ± 0.4 in UF; richness of very abundant species 2D = 3.3 ± 0.3 in R up to 5.5 ± 0.3 in UF. Canopy cover (9.8 ± 4% in F and 80.6 ± 5% in UF) was the main factor affecting EMF diversity, mainly due to its influence on herbaceous cover, tree species richness (path analysis, R2 = 0.32; p < 0.05), and microclimatic variables. Turnover of the most abundant EMF species from the most intensive management practice towards the later successional forest conditions was observed. Late successional conditions allow for maintenance of more diverse EMF communities, while more intensive practices reduce their diversity (p < 0.05, in both cases). Rare fungal species appear to be more vulnerable to highly intensive management, and account for most of the EMF diversity in UF. The results indicate the importance of preserving relatively undisturbed species-rich forest stands near intensively managed stands in order to maintain biological integrity of the EMF community and ecosystem functioning in tropical montane forests.While forest management impacts the ectomycorrhizal fungi (EMF) community, most of the evidence regarding such effects has been obtained from temperate forests of the Northern Hemisphere and little is known of their prevalence in highly diverse tropical habitats. This study analyzes the responses of the EMF community in managed tropical montane forests in the southern Mexican state of Chiapas. EMF community composition and diversity were evaluated over a 2-year period along a gradient of structural and microclimatic conditions of the forest associated with the stages of a cycle of silvicultural practices (R = release cutting, T = thinning, and F = final regeneration cutting), as well as in a mid-successional unmanaged forest (UF) as a reference system. The silvicultural practices involve varying intensities of tree harvesting (≈ 20% in T to ≈ 80% in F). It is hypothesized that: (1) diversity and composition of EMF communities are influenced by changes in forest conditions, principally as a result of canopy cover alteration due to forest management, and (2) late forest successional conditions are associated to more diverse EMF communities, while more intensive silvicultural practices reduce their diversity. A total of 75 EMF species were recorded. Diversity analysis using Hill numbers showed a close relationship between diversity and forest conditions: total species richness, 0D = 5.7 ± 0.6 in F up to 11.7 ± 1.3 in UF; richness of abundant species, 1D = 4.1 ± 0.4 in F up to 7.5 ± 0.4 in UF; richness of very abundant species 2D = 3.3 ± 0.3 in R up to 5.5 ± 0.3 in UF. Canopy cover (9.8 ± 4% in F and 80.6 ± 5% in UF) was the main factor affecting EMF diversity, mainly due to its influence on herbaceous cover, tree species richness (path analysis, R2 = 0.32; p < 0.05), and microclimatic variables. Turnover of the most abundant EMF species from the most intensive management practice towards the later successional forest conditions was observed. Late successional conditions allow for maintenance of more diverse EMF communities, while more intensive practices reduce their diversity (p < 0.05, in both cases). Rare fungal species appear to be more vulnerable to highly intensive management, and account for most of the EMF diversity in UF. The results indicate the importance of preserving relatively undisturbed species-rich forest stands near intensively managed stands in order to maintain biological integrity of the EMF community and ecosystem functioning in tropical montane forests.Hongos ectomicorrizógenosOrdenación forestalActividades antropogénicasSistemas silviculturalesBosque de nieblaArtfrosurForest Ecology and Managementhttps://doi.org/10.1016/j.foreco.2021.119670Disponible para usuarios de ECOSUR con su clave de acceso

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