Bibliographic citations
Hurtado, P., (2019). Reserva de biomasa y captura del carbono de un sistema agroforestal de Coffea arabica L. y Eucalyptus saligna, Naranjillo, 2018 [Tesis, Universidad Nacional de San Martín. Fondo Editorial]. http://hdl.handle.net/11458/3765
Hurtado, P., Reserva de biomasa y captura del carbono de un sistema agroforestal de Coffea arabica L. y Eucalyptus saligna, Naranjillo, 2018 [Tesis]. : Universidad Nacional de San Martín. Fondo Editorial; 2019. http://hdl.handle.net/11458/3765
@misc{renati/1058981,
title = "Reserva de biomasa y captura del carbono de un sistema agroforestal de Coffea arabica L. y Eucalyptus saligna, Naranjillo, 2018",
author = "Hurtado Hernández, Paul Jhonatan",
publisher = "Universidad Nacional de San Martín. Fondo Editorial",
year = "2019"
}
The research study was carried out in an agroforestry system constituted by the species Coffea arabica L. and Eucalyptus saligna of 4 years old in the town of Naranjillo, province of Rioja, region of San Martín. The main objective was to determine the biomass and carbon capture of the system, for this purpose three plots of 100 square meters each were established within the agroforestry system to determine the existing biomass. Samples collection for bush and herbaceous biomass was done in quadrants of 1 square meter, two for each defined plot; whereas for leaf litter biomass quadrants of 0.25 square meters were used, two for each plot, and for the soil samples, one for each plot of 100 square meters was collected whose sampling depth was from 0 to 30 cm. The results show that the component that presented the largest biomass and carbon stock reserve, estimated with alometric models, was the aerial one with 424.94 t/ha and 191.22 t/ha respectively. The shrub and herbaceous component registered a value of 2.36 t/ha for biomass reserve and 1.06 t/ha for carbon storage. Leaf litter presented a biomass of 1.24 t/ha and the stored carbon is 0.56 t/ha. The soil component presented the second highest value of captured carbon among the evaluated components with 86.99 tC/ha. We concluded that, on average, the agroforestry system stores 428.55 t/ha of biomass and stores 279.83 tC/ha of carbon.
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