Potential areas for silvopastoral systems based on the ecological niche of two forage crops and three species of conifers

Introduction: Ecological niche modeling is a fundamental tool to know the areas suitable for the establishment of silvopastoral systems, based on the environmental requirements of the species.Objectives: To model the ecological niche of the forage species Chloris gayana Kunth and E...

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Autores principales: Sáenz-Ceja, Jesús Eduardo, Sáenz-Reyes, J. Trinidad, Castillo-Quiroz, David, Castillo-Reyes, Francisco, Muñoz-Flores, Hipólito Jesús, Rueda-Sánchez, Agustín
Formato: Online Artículo
Lenguaje:spa
Publicado: Universidad Autónoma Chapingo 2021
Materias:
Chloris gayana
Eragrostis curvula
Pinus devoniana
Pinus montezumae
Pinus lawsonii
La modelación de nicho ecológico permite identificar áreas para establecer sistemas silvopastoriles.
Se modeló el nicho ecológico de Chloris gayana, Eragrostis curvula, Pinus devoniana, P. lawsonii y P. montezumae.
El centro y sur de México tienen alto potencial para establecer sistemas silvopastoriles.
Las zonas agrícolas tienen mayor superficie potencial que las forestales.
Pinus devoniana tuvo la mayor superficie potencial para ser intercalado con C. gayana y E. curvula.
Ecological niche modeling allows identifying areas to establish silvopastoral systems.
The ecological niche of Chloris gayana, Eragrostis curvula, Pinus devoniana, P. lawsonii, and P. montezumae was modeled.
Central and southern Mexico has a high potential for silvopastoral systems.
Agricultural areas have a larger potential area compared to forest areas.
Pinus devoniana had the greatest potential area to be intercropped with C. gayana and E. curvula.
Acceso en línea:https://revistas.chapingo.mx/forestales/article/view/r.rchscfa.2020.07.048
https://dx.doi.org/10.5154/r.rchscfa.2020.07.048
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author Sáenz-Ceja, Jesús Eduardo
Sáenz-Reyes, J. Trinidad
Castillo-Quiroz, David
Castillo-Reyes, Francisco
Muñoz-Flores, Hipólito Jesús
Rueda-Sánchez, Agustín
author_facet Sáenz-Ceja, Jesús Eduardo
Sáenz-Reyes, J. Trinidad
Castillo-Quiroz, David
Castillo-Reyes, Francisco
Muñoz-Flores, Hipólito Jesús
Rueda-Sánchez, Agustín
author_sort Sáenz-Ceja, Jesús Eduardo
collection Revista Chapingo Serie Ciencias Forestales y del Ambiente
description Introduction: Ecological niche modeling is a fundamental tool to know the areas suitable for the establishment of silvopastoral systems, based on the environmental requirements of the species.Objectives: To model the ecological niche of the forage species Chloris gayana Kunth and Eragrostis curvula (Schrad.) Nees, and the conifers Pinus devoniana Lindley, Pinus lawsonii Roezl ex Gordon and Pinus montezumae Lambert and to identify potential areas for silvopastoral systems.Materials and methods: The ecological niche was modeled based on data from georeferenced collection sites in Mexico and 23 environmental variables. Subsequently, areas were identified and the extent, where forage species converge with conifers in both agricultural and forest areas, was estimated.Results and discussion: Potential areas for silvopastoral systems with the five species were found mainly in the Neovolcanic Axis and the Sierra Madre del Sur, with a greater area suitable for agricultural areas compared to forestry areas. The ecological niche models had high predictive capacity with an area under the curve values greater than 0.93. Altitude and annual temperature range were the most important variables. Pinus devoniana had the largest potential area to be intercropped with C. gayana and E. curvula.Conclusions: Mexico has the potential to establish silvopastoral systems with the species understudy in the center and south of the country, which could contribute to decreasing soil degradation, provide forage for livestock and maintain tree cover for agricultural and forest areas.
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spelling oai_chapingo-forestales-_article-3032023-10-24T18:18:27Z Potential areas for silvopastoral systems based on the ecological niche of two forage crops and three species of conifers Áreas potenciales para establecer sistemas silvopastoriles a partir del nicho ecológico de dos cultivos forrajeros y tres especies de coníferas Sáenz-Ceja, Jesús Eduardo Sáenz-Reyes, J. Trinidad Castillo-Quiroz, David Castillo-Reyes, Francisco Muñoz-Flores, Hipólito Jesús Rueda-Sánchez, Agustín Chloris gayana Eragrostis curvula Pinus devoniana Pinus montezumae Pinus lawsonii La modelación de nicho ecológico permite identificar áreas para establecer sistemas silvopastoriles. Se modeló el nicho ecológico de Chloris gayana, Eragrostis curvula, Pinus devoniana, P. lawsonii y P. montezumae. El centro y sur de México tienen alto potencial para establecer sistemas silvopastoriles. Las zonas agrícolas tienen mayor superficie potencial que las forestales. Pinus devoniana tuvo la mayor superficie potencial para ser intercalado con C. gayana y E. curvula. Chloris gayana Eragrostis curvula Pinus devoniana Pinus montezumae Pinus lawsonii Ecological niche modeling allows identifying areas to establish silvopastoral systems. The ecological niche of Chloris gayana, Eragrostis curvula, Pinus devoniana, P. lawsonii, and P. montezumae was modeled. Central and southern Mexico has a high potential for silvopastoral systems. Agricultural areas have a larger potential area compared to forest areas. Pinus devoniana had the greatest potential area to be intercropped with C. gayana and E. curvula. Introduction: Ecological niche modeling is a fundamental tool to know the areas suitable for the establishment of silvopastoral systems, based on the environmental requirements of the species.Objectives: To model the ecological niche of the forage species Chloris gayana Kunth and Eragrostis curvula (Schrad.) Nees, and the conifers Pinus devoniana Lindley, Pinus lawsonii Roezl ex Gordon and Pinus montezumae Lambert and to identify potential areas for silvopastoral systems.Materials and methods: The ecological niche was modeled based on data from georeferenced collection sites in Mexico and 23 environmental variables. Subsequently, areas were identified and the extent, where forage species converge with conifers in both agricultural and forest areas, was estimated.Results and discussion: Potential areas for silvopastoral systems with the five species were found mainly in the Neovolcanic Axis and the Sierra Madre del Sur, with a greater area suitable for agricultural areas compared to forestry areas. The ecological niche models had high predictive capacity with an area under the curve values greater than 0.93. Altitude and annual temperature range were the most important variables. Pinus devoniana had the largest potential area to be intercropped with C. gayana and E. curvula.Conclusions: Mexico has the potential to establish silvopastoral systems with the species understudy in the center and south of the country, which could contribute to decreasing soil degradation, provide forage for livestock and maintain tree cover for agricultural and forest areas. Introducción: El modelado del nicho ecológico constituye una herramienta fundamental para conocer las áreas aptas para el establecimiento de sistemas silvopastoriles, con base en los requerimientos ambientales de las especies.Objetivos: Modelar el nicho ecológico de las especies forrajeras Chloris gayana Kunth y Eragrostis curvula (Schrad.) Nees, y las coníferas Pinus devoniana Lindley, Pinus lawsonii Roezl ex Gordon y Pinus montezumae Lambert e identificar las áreas potenciales para establecer sistemas silvopastoriles.Materiales y métodos: El nicho ecológico se modeló con base en datos de sitios de colecta georreferenciados en México y 23 variables ambientales. Posteriormente se identificaron las áreas y se estimó la superficie donde confluyen las especies forrajeras con las coníferas tanto en zonas agrícolas como en forestales.Resultados y discusión: Las áreas potenciales para establecer sistemas silvopastoriles con las cinco especies se encontraron principalmente en el Eje Neovolcánico y la Sierra Madre del Sur, con mayor superficie apta en zonas agrícolas que forestales. la especie P. devoniana tuvo la mayor superficie potencial para ser intercalada con C. gayana y E. curvula. Los modelos de nicho ecológico tuvieron alta capacidad predictiva con valores de área bajo la curva mayores de 0.93. La altitud y el rango anual de la temperatura fueron las variables de mayor importancia.Conclusiones: En México existe potencial para establecer sistemas silvopastoriles con las especies bajo estudio en el centro y sur del país, lo cual podría contribuir a disminuir la degradación del suelo, proveer forraje para el ganado y mantener la cobertura arbórea en zonas agrícolas y forestales. Universidad Autónoma Chapingo 2021-04-07 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf https://revistas.chapingo.mx/forestales/article/view/r.rchscfa.2020.07.048 10.5154/r.rchscfa.2020.07.048 Revista Chapingo Serie Ciencias Forestales y del Ambiente; Vol. 27 No. 2 (2021): May-August; 289-308 Revista Chapingo Serie Ciencias Forestales y del Ambiente; Vol. 27 Núm. 2 (2021): mayo-agosto; 289-308 2007-4018 2007-3828 spa https://revistas.chapingo.mx/forestales/article/view/r.rchscfa.2020.07.048/r.rchscfa.2020.07.048 Derechos de autor 2023 Revista Chapingo Serie Ciencias Forestales y del Ambiente https://creativecommons.org/licenses/by-nc/4.0
spellingShingle Chloris gayana
Eragrostis curvula
Pinus devoniana
Pinus montezumae
Pinus lawsonii
La modelación de nicho ecológico permite identificar áreas para establecer sistemas silvopastoriles.
Se modeló el nicho ecológico de Chloris gayana, Eragrostis curvula, Pinus devoniana, P. lawsonii y P. montezumae.
El centro y sur de México tienen alto potencial para establecer sistemas silvopastoriles.
Las zonas agrícolas tienen mayor superficie potencial que las forestales.
Pinus devoniana tuvo la mayor superficie potencial para ser intercalado con C. gayana y E. curvula.
Chloris gayana
Eragrostis curvula
Pinus devoniana
Pinus montezumae
Pinus lawsonii
Ecological niche modeling allows identifying areas to establish silvopastoral systems.
The ecological niche of Chloris gayana, Eragrostis curvula, Pinus devoniana, P. lawsonii, and P. montezumae was modeled.
Central and southern Mexico has a high potential for silvopastoral systems.
Agricultural areas have a larger potential area compared to forest areas.
Pinus devoniana had the greatest potential area to be intercropped with C. gayana and E. curvula.
Sáenz-Ceja, Jesús Eduardo
Sáenz-Reyes, J. Trinidad
Castillo-Quiroz, David
Castillo-Reyes, Francisco
Muñoz-Flores, Hipólito Jesús
Rueda-Sánchez, Agustín
Potential areas for silvopastoral systems based on the ecological niche of two forage crops and three species of conifers
title Potential areas for silvopastoral systems based on the ecological niche of two forage crops and three species of conifers
title_alt Áreas potenciales para establecer sistemas silvopastoriles a partir del nicho ecológico de dos cultivos forrajeros y tres especies de coníferas
title_full Potential areas for silvopastoral systems based on the ecological niche of two forage crops and three species of conifers
title_fullStr Potential areas for silvopastoral systems based on the ecological niche of two forage crops and three species of conifers
title_full_unstemmed Potential areas for silvopastoral systems based on the ecological niche of two forage crops and three species of conifers
title_short Potential areas for silvopastoral systems based on the ecological niche of two forage crops and three species of conifers
title_sort potential areas for silvopastoral systems based on the ecological niche of two forage crops and three species of conifers
topic Chloris gayana
Eragrostis curvula
Pinus devoniana
Pinus montezumae
Pinus lawsonii
La modelación de nicho ecológico permite identificar áreas para establecer sistemas silvopastoriles.
Se modeló el nicho ecológico de Chloris gayana, Eragrostis curvula, Pinus devoniana, P. lawsonii y P. montezumae.
El centro y sur de México tienen alto potencial para establecer sistemas silvopastoriles.
Las zonas agrícolas tienen mayor superficie potencial que las forestales.
Pinus devoniana tuvo la mayor superficie potencial para ser intercalado con C. gayana y E. curvula.
Chloris gayana
Eragrostis curvula
Pinus devoniana
Pinus montezumae
Pinus lawsonii
Ecological niche modeling allows identifying areas to establish silvopastoral systems.
The ecological niche of Chloris gayana, Eragrostis curvula, Pinus devoniana, P. lawsonii, and P. montezumae was modeled.
Central and southern Mexico has a high potential for silvopastoral systems.
Agricultural areas have a larger potential area compared to forest areas.
Pinus devoniana had the greatest potential area to be intercropped with C. gayana and E. curvula.
topic_facet Chloris gayana
Eragrostis curvula
Pinus devoniana
Pinus montezumae
Pinus lawsonii
La modelación de nicho ecológico permite identificar áreas para establecer sistemas silvopastoriles.
Se modeló el nicho ecológico de Chloris gayana, Eragrostis curvula, Pinus devoniana, P. lawsonii y P. montezumae.
El centro y sur de México tienen alto potencial para establecer sistemas silvopastoriles.
Las zonas agrícolas tienen mayor superficie potencial que las forestales.
Pinus devoniana tuvo la mayor superficie potencial para ser intercalado con C. gayana y E. curvula.
Chloris gayana
Eragrostis curvula
Pinus devoniana
Pinus montezumae
Pinus lawsonii
Ecological niche modeling allows identifying areas to establish silvopastoral systems.
The ecological niche of Chloris gayana, Eragrostis curvula, Pinus devoniana, P. lawsonii, and P. montezumae was modeled.
Central and southern Mexico has a high potential for silvopastoral systems.
Agricultural areas have a larger potential area compared to forest areas.
Pinus devoniana had the greatest potential area to be intercropped with C. gayana and E. curvula.
url https://revistas.chapingo.mx/forestales/article/view/r.rchscfa.2020.07.048
https://dx.doi.org/10.5154/r.rchscfa.2020.07.048
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