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Water, energy and carbon dynamics over an intercropped sun-grown coffee and corn system

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dc.contributor.author López, Juan Carlos García
dc.contributor.author Herrera, Ninibeth Gibelli Sarmiento
dc.contributor.author Carabalí, Carolina Ramírez
dc.contributor.author Bohórquez, Juan Pablo Carvajal
dc.contributor.author Bejarano, Natalia Catalina Flechas
dc.contributor.author Chaurra, Daniel Antonio Franco
dc.date.accessioned 2023-10-25T00:51:11Z
dc.date.available 2023-10-25T00:51:11Z
dc.date.issued 2022-12-29
dc.identifier.citation LÓPEZ, Juan Carlos García; HERRERA, Ninibeth Gibelli Sarmiento; CARABALÍ, Carolina Ramírez; BOHÓRQUEZ, Juan Pablo Carvajal; BEJARANO Natalia Catalina Flechas; CHAURRA, Daniel Antonio Franco. Water, energy and carbon dynamics over an intercropped sun-grown coffee and corn system. Coffee Science, Lavras, MG, v. 17, p. e172030, 29 dec. 2022. Disponível em: https://coffeescience.ufla.br/index.php/Coffeescience/article/view/2030. Acesso em: 24 oct. 2023. pt_BR
dc.identifier.issn 1984-3909
dc.identifier.uri https://doi.org/10.25186/.v17i.2030 pt_BR
dc.identifier.uri http://www.sbicafe.ufv.br/handle/123456789/13914
dc.description.abstract The energy dissipation and the evapotranspiration processes, are factors involved in the ecosystem net carbon exchange and are determinants in the ability of a self-regulating system to balance high carbon emissions. To discover these relationships, a corn production system intercropped with coffee was monitored during the first 19 months after the system establishment, to determine the flux of energy, water, gases, and carbon by implementing the eddy covariance technique. From the net carbon exchange ecosystem balance, during the first cycle of corn intercropped with coffee, 63 g C m-2 was fixed. For the next phase of coffee culture, maintaining the corn stalks and coffee branches, 5.4 g C m-2 was emitted. In the second cycle with intercropped corn, the fixation was 291 g of C m-2; and in the last period of the first reproductive stage of the coffee trees, 172 g C m-2 was fixed. Throughout the analysis period, the system behaved as a carbon sink with a potential fixation between 4.7 and 5.6 ton C ha-1. The energy, measured as net radiation, was estimated at 274.53 ± 5.2 W m-2 day-1, and it was dissipated mainly as sensible heat (26.5% - 53.6%), latent heat (45.7% - 71, 9%) and soil heat (0.5% - 1.6%). The crop coefficient (Kc) in the coffee vegetative stage in the monoculture, fluctuated between 0.79 ± 0.05 and 0.99 ± 0.04. For the intercropping system with corn, the Kc was calculated at 0.84 ± 0.05, 1.05 ± 0.06, 1.60 ± 0.09, and 1.22 ± 0.05 for the vegetative, pre-flowering, maximum foliar development and harvest maturity stages of corn, respectively. pt_BR
dc.format pdf pt_BR
dc.language.iso en pt_BR
dc.publisher Universidade Federal de Lavras pt_BR
dc.relation.ispartofseries Coffee Science;v. 17, p. 1-14, 2022;
dc.rights Open access pt_BR
dc.subject Eddy covariance pt_BR
dc.subject Net ecosystem exchange pt_BR
dc.subject Evapotranspiration pt_BR
dc.subject Water fluxes pt_BR
dc.subject Carbon dioxide fluxes pt_BR
dc.subject.classification Cafeicultura::Agroclimatologia e fisiologia pt_BR
dc.title Water, energy and carbon dynamics over an intercropped sun-grown coffee and corn system pt_BR
dc.type Artigo pt_BR

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