TY - JOUR AU - Espinosa Carvajal, Manuel AU - Contreras Santos, Jose Luis AU - Torres, Jorge Cadena AU - Martínez Atencia, Judith del Carmen AU - Jaramillo Barrios, Camilo Ignacio AU - Hurtado, María del Pilar PY - 2020/05/01 Y2 - 2024/03/28 TI - Methane fluxes in soils with pasture covers in the North of Colombia JF - Agronomía Mesoamericana JA - Agron. Mesoam. VL - 31 IS - 2 SE - Articles DO - 10.15517/am.v31i2.38387 UR - https://revistas.ucr.ac.cr/index.php/agromeso/article/view/38387 SP - 291-309 AB - <p><strong><span class="CharOverride-2">Introduction.</span></strong> <span class="CharOverride-2">Traditional livestock production systems in Colombia are based on the establishment of pastures on large tracts of land, which generate greenhouse gases such as methane.</span><strong><span class="CharOverride-2"> Objective. </span></strong><span class="CharOverride-2">The objective of the present study was to monitor the monthly methane fluxes that occur in meadows with three soil covers and three levels of nitrogen fertilization.</span><strong><span class="CharOverride-2"> Materials and methods. </span></strong><span class="CharOverride-2">Methane fluxes were monitored for a year from November 2014 to November 2015, on a Vertic Endoaquepts soil, placed in the middle valley of the Sinu river, Colombia. A full block design was used at random, arranged in divided plots, with two replications. The main plots constituted of two grasses (</span><span class="CharOverride-2"><span class="CharOverride-7">Brachiaria humidicola</span> CIAT679 and <span class="CharOverride-7">Panicum maximum</span> cv. Tanzania) and one with bare soil, and the subplots by three nitrogen fertilization levels (0, 150, 300 kg N ha<span class="CharOverride-5">-1</span></span><span class="CharOverride-2">). Additionally, soil physicochemical properties were evaluated.</span><strong><span class="CharOverride-2"> Results. </span></strong><span class="CharOverride-2">During most of the year (rainy and dry season) methane oxidation occurred, associated with the loam texture and porosity of the soil in the study area, which allowed the free diffusion of gases in the soil. Correlation analyzes showed a close relationship between methane fluxes, porosity, moisture, soil bulk density, and ambient temperature, suggesting these parameters as the main factors that affect the monthly methane flow.</span><strong><span class="CharOverride-2"> Conclusions. </span></strong><span class="CharOverride-2">Methane fluxes were independent of the type of plant material and nitrogen fertilization evaluated. These flows depended on the time of year (dry and rainy) and exhibited a negative annual balance in the study area, which suggests that these systems have the conditions to behave as methane sinks during most of the year.&nbsp;</span></p> ER -