Bibliographic citations
Espinoza, E., (2018). Efecto bioprotector de micorrizas arbusculares como alternativa agroecológica para controlar nematodos (Meloidogyne spp) en Coffea arabica a diferentes condiciones edafoclimáticos en la región San Martín [Tesis, Universidad Nacional de San Martín. Fondo Editorial]. http://hdl.handle.net/11458/3172
Espinoza, E., Efecto bioprotector de micorrizas arbusculares como alternativa agroecológica para controlar nematodos (Meloidogyne spp) en Coffea arabica a diferentes condiciones edafoclimáticos en la región San Martín [Tesis]. : Universidad Nacional de San Martín. Fondo Editorial; 2018. http://hdl.handle.net/11458/3172
@misc{renati/1055303,
title = "Efecto bioprotector de micorrizas arbusculares como alternativa agroecológica para controlar nematodos (Meloidogyne spp) en Coffea arabica a diferentes condiciones edafoclimáticos en la región San Martín",
author = "Espinoza Risco, Elvis Andrés",
publisher = "Universidad Nacional de San Martín. Fondo Editorial",
year = "2018"
}
The objective of the research was to evaluate the bioprotective effect of arbuscular mycorrhizae as an agroecological alternative to control nematodes (Meloidogyne spp) in coffee at different edaphoclimatic conditions in the provinces of Lamas, Moyobamba and Huallaga, San Martín region. Saplings of the caturra variety were prepared, having a control group and three consortia of arbuscular mycorrhizal fungi. Two types of propagation, sexual and asexual. He settled in final field in March 2018, doing 24 treatments. Morphological and biological evaluations were carried out. A physical-chemical analysis and extraradical mycelium length evaluations were performed on the soil. The percentage of colonization of arbuscular mycorrhizal fungi (AMF), and percentage of infection by Meloidogyne spp, in roots was evaluated. The best control of the infection was obtained with the DO-cat mycorrhiza consortium with 2.33% in the province of Moyobamba, followed by the Huall-pache and MO-cat consortiums with 2.97% in (Lamas) and 3, 21% (Huallaga). The best morphological characteristics were obtained under the edaphoclimatic conditions of Huallaga (A3), followed by Moyobamba (A2) and Lamas (A1). Checking in this way that arbuscular mycorrhizal fungi (AMF) positively influence plant development, increase resistance to pests, such as the case of bioprotection against the nematode (Meloidogyne spp), which is justified as a strategy for mitigating the change climate change and a contribution to the recovery of this species.
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