Las micorrizas arbusculares y Rhizobium: una simbiosis dual de interés

“…Martin and Rivera [24], has found a positive effect of legumes on the content of exchangeable cations and available soil P. Richardson and coauthors [25], state that the percentage of AMF colonization in tropical forage legumes varies from 3 to 41 %, which would indicate the ability of these species to maintain AMF populations. In accordance to our results AMF abundance was consistently stimulated by pasture type, which can be explained by Gonzales and coauthors [26]; Spagnoletti and coauthors [23]. The present study facilitated to determine that B2 produced a better effect on AMF and SCP as found by Fabrice and coauthors [27], due possibly to that legume in pasture can to increase root system and soil organic matter SOM, the increase in soil nutrients is an aspect of great interest to measure the effectiveness of the AMF symbiosis in the pasture, since the AMF can improve the absorption capacity of the roots and mobilize the P from the deepest levels of the soil.…”

“…Another effect of AMF on legumes is in the symbiosis tripartite with bacteria of the genus Rhizobium. The symbiosis with the bacteria provides for N fixed biologically (NFB), while the AMF increase the absorption of P, legumes provide bacteria and the contribution of AMF for the bacteria is photosynthates [22,23]., which also explains the better response of B2 compared to B1 on AMF. Martin and Rivera [24], has found a positive effect of legumes on the content of exchangeable cations and available soil P. Richardson and coauthors [25], state that the percentage of AMF colonization in tropical forage legumes varies from 3 to 41 %, which would indicate the ability of these species to maintain AMF populations.…”

Response of Arbuscular Mycorrhizal Fungi and Soil Chemical Properties to Brachiaria decumbens Grass Production Technologies

“…Martin and Rivera [24], has found a positive effect of legumes on the content of exchangeable cations and available soil P. Richardson and coauthors [25], state that the percentage of AMF colonization in tropical forage legumes varies from 3 to 41 %, which would indicate the ability of these species to maintain AMF populations. In accordance to our results AMF abundance was consistently stimulated by pasture type, which can be explained by Gonzales and coauthors [26]; Spagnoletti and coauthors [23]. The present study facilitated to determine that B2 produced a better effect on AMF and SCP as found by Fabrice and coauthors [27], due possibly to that legume in pasture can to increase root system and soil organic matter SOM, the increase in soil nutrients is an aspect of great interest to measure the effectiveness of the AMF symbiosis in the pasture, since the AMF can improve the absorption capacity of the roots and mobilize the P from the deepest levels of the soil.…”

“…Another effect of AMF on legumes is in the symbiosis tripartite with bacteria of the genus Rhizobium. The symbiosis with the bacteria provides for N fixed biologically (NFB), while the AMF increase the absorption of P, legumes provide bacteria and the contribution of AMF for the bacteria is photosynthates [22,23]., which also explains the better response of B2 compared to B1 on AMF. Martin and Rivera [24], has found a positive effect of legumes on the content of exchangeable cations and available soil P. Richardson and coauthors [25], state that the percentage of AMF colonization in tropical forage legumes varies from 3 to 41 %, which would indicate the ability of these species to maintain AMF populations.…”

Response of Arbuscular Mycorrhizal Fungi and Soil Chemical Properties to Brachiaria decumbens Grass Production Technologies

“…En esta asociación se forman nódulos, en donde se realiza la fijación de nitrógeno atmosférico (Calero Hurtado et al, 2019). De este modo, los HMA y Rhizobium proporcionan fósforo y nitrógeno a la planta, respectivamente, siendo la sinergia de estos simbiontes una combinación importante para la agricultura (Spagnoletti et al, 2013). Los suelos con historial de uso agrícola intensivo tienden a beneficiarse de la adición de hongos micorrízicos nativos y abonos verdes (Lehman et al, 2012) que, junto con las bacterias simbióticas fijadoras de nitrógeno, mejoran la fertilidad del suelo (Souza et al, 2019).…”

Efectividad de los hongos micorrízicos arbusculares introducidos y nativos en seis leguminosas coberteras

Improvement of some growth indices of common bean using mycorrhiza and rhizobium under different levels of starter nitrogen fertilizer