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Plant species richness in agroforestry systems correlates to soil fertility in the humid tropic of Mexico

Alcudia Aguilar, Alejandro [autor] | Villanueva López, Gilberto [autor] | Alayón Gamboa, José Armando [autor] | Nahed Toral, José [autor] | Aryal, Deb Raj [autor] | Casanova Lugo, Fernando [autor] | Ayala Montejo, Diana [autora] | Martínez Zurimendi, Pablo [autor] | Jiménez Ferrer, Guillermo [autor] | de la Cruz López, César Augusto [autor] | Medrano Pérez, O. R [autor].
Tipo de material: Artículo en línea Artículo en línea Tipo de contenido: texto Tipo de medio: computadora Tipo de portador: recurso en líneaTema(s): Sistemas agroforestales | Comunidades de plantas | Propiedades fisicoquímicas del suelo | Fertilidad del suelo | Materia orgánicaTema(s) en inglés: Agroforestry systems | Plant communities | Chemicophysical properties soil | Soil fertility | Organic matterDescriptor(es) geográficos: Tabasco (México) Nota de acceso: Disponible para usuarios de ECOSUR con su clave de acceso En: Agroforestry Systems. Volumen 98, número 4 (February 2024), páginas 891–909. --ISSN: 1572-9680Número de sistema: 64547Resumen:
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Given the importance of agroforestry systems (AFS) in mitigating the impact of agriculture on the ecosystems and environment, it is critical to understand the efect of plant species richness in diverse tropical AFS on their soil properties. The objective of this study was to evaluate the role of different AFS in the conservation of plant species richness, and their efect on soil physical and chemical properties. We compared plant species richness and soil properties among six AFS by sampling 63 plots in the humid tropics. Sampled AFS include: (1) home garden (HG), (2) shade trees in plantation (ShTP), (3) live fences (LF), (4) scattered trees in paddocks (ScTP), (5) grazing under plantation (GP), and (6) slash and burn agriculture (SBA). The vegetation community in each plot was recorded by scientifc name and species richness was calculated. Soil samples were collected from 0 to 10 and 10 to 20 cm depth and analyzed for pH, organic matter (OM), nitrogen (N), phosphorus (P), electrical conductivity (EC), cation exchange capacity (CEC), and texture. The highest plant species richness was found in HG (125), ShTP (121), and ScTP (89), followed by GP (56), LF (35), and SBA (4). This richness of plant species infuenced the soil N (r=0.514, P=0.028), P (r=0.480, P=0.514), and OM contents (r=0.439, P=0.067), as well as CEC (r=0.402, P=0.097), EC (r=0.153, P=0.543), and pH (r=0.363, P=0.115). The highest values of pH (6.6) and P (8.14 mg kg−¹) were observed in the species richest AFS, and the highest OM (10.8%), N (0.49%), and EC (0.26 µs/cm) were found in the SBA system that has been converted recently from forests. In the SBA, the high values of pH, OM, N, EC, and CEC were result of cutting and burning of plant biomass during the landclearing process. It is concluded that AFS harbor a great diversity of plant species and can improve soil fertility, which is essential for developing sustainable agroecosystems. Further research is required to understand the efect of variation in AFS age on the overall soil health indicators.

Recurso en línea: https://doi.org/10.1007/s10457-024-00961-4
Lista(s) en las que aparece este ítem: ASA-Campeche
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Disponible para usuarios de ECOSUR con su clave de acceso

Given the importance of agroforestry systems (AFS) in mitigating the impact of agriculture on the ecosystems and environment, it is critical to understand the efect of plant species richness in diverse tropical AFS on their soil properties. The objective of this study was to evaluate the role of different AFS in the conservation of plant species richness, and their efect on soil physical and chemical properties. We compared plant species richness and soil properties among six AFS by sampling 63 plots in the humid tropics. Sampled AFS include: (1) home garden (HG), (2) shade trees in plantation (ShTP), (3) live fences (LF), (4) scattered trees in paddocks (ScTP), (5) grazing under plantation (GP), and (6) slash and burn agriculture (SBA). The vegetation community in each plot was recorded by scientifc name and species richness was calculated. Soil samples were collected from 0 to 10 and 10 to 20 cm depth and analyzed for pH, organic matter (OM), nitrogen (N), phosphorus (P), electrical conductivity (EC), cation exchange capacity (CEC), and texture. The highest plant species richness was found in HG (125), ShTP (121), and ScTP (89), followed by GP (56), LF (35), and SBA (4). This richness of plant species infuenced the soil N (r=0.514, P=0.028), P (r=0.480, P=0.514), and OM contents (r=0.439, P=0.067), as well as CEC (r=0.402, P=0.097), EC (r=0.153, P=0.543), and pH (r=0.363, P=0.115). The highest values of pH (6.6) and P (8.14 mg kg−¹) were observed in the species richest AFS, and the highest OM (10.8%), N (0.49%), and EC (0.26 µs/cm) were found in the SBA system that has been converted recently from forests. In the SBA, the high values of pH, OM, N, EC, and CEC were result of cutting and burning of plant biomass during the landclearing process. It is concluded that AFS harbor a great diversity of plant species and can improve soil fertility, which is essential for developing sustainable agroecosystems. Further research is required to understand the efect of variation in AFS age on the overall soil health indicators. eng

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