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Does forest management affect the magnitude and direction of the afforestation effect on soil methane fluxes? A meta-analysis
Gatica, Gabriel; Fernandez, María Elena; Juliarena, Maria Paula; Gyenge, Javier (Elsevier, 2022-03)Evidence suggests that tree plantations change soil methane (CH4) fluxes (magnitude and/or direction of the fluxes) compared to herbaceous land (i.e. afforestation effect) due to the effect of trees increasing methanotroph ... -
Environmental and anthropogenic drivers of soil methane fluxes in forests: Global patterns and among‐biomes differences
Gatica, Gabriel; Fernandez, María Elena; Juliarena, Maria Paula; Gyenge, Javier (Wiley & Sons, 2020-09)Forest soils are the most important terrestrial sink of atmospheric methane (CH4). Climatic, soil and anthropogenic drivers affect CH4 fluxes, but it is poorly known the relative weight of each driver and whether all drivers ... -
Impact of land use change on soil methane fluxes and diffusivity in Pampean plains, Argentina
De Bernardi, María; Priano, María Eugenia; Fernandez, María Elena; Gyenge, Javier; Juliarena, Maria Paula (Elsevier, 2022-05)Upland soils are the main methane (CH4) biological sink, and may be affected by land-use change. Changes in land uses and soil management affect soil properties that control diffusion of gases, which in combination with ... -
Methane and nitrous oxide emissions from dung patches deposited by grazing cattle supplemented with maize grain
Lombardi, Banira; Alvarado, Patricia Inés; Ricci, Patricia; Guzmán, Sergio Alejandro; Gonda, Horacio Leandro; Juliarena, Maria Paula (Elsevier, 2021-07-13)Feeding management represents an opportunity to improve cattle performance in grazing-based production systems and to mitigate emissions of greenhouse gases (GHG) from livestock production. However, it is unclear how diet ... -
Natural grassland conversion to agriculture or pine plantations: Effects on soil methane uptake
De Bernardi, María; Priano, María Eugenia; Fernandez, María Elena; Gyenge, Javier; Juliarena, Maria Paula (Wiley, 2024-01-30)Upland soils are the only known biological sink for methane (CH4) by methanotrophic bacteria consumption. This process is mainly limited by the diffusion processes related to the soil's physical characteristics, which can ... -
Variables ambientales y de origen humano que determinan el consumo de metano en los suelos de los bosques
Gatica, Gabriel; Gyenge, Javier; Fernandez, María Elena; Juliarena, Maria Paula (REDFOR.ar - ArgentinaForestal - CONICET, 2021)Los bosques son ecosistemas reconocidos por su capacidad de proveer múltiples servicios ambientales a la sociedad, entre los que se encuentra la mitigación y/o regulación de las emisiones de gases de efecto invernadero ...