RÉSUMÉ
ABSTRACT A substantial proportion of beef production in Colombia originates in its extensive Eastern Plains. However, in this scenario and in a global context, demand for cattle production increasingly requests that it satisfies social and environmental expectations in addition to being economically efficient. A dataset containing five-year long records of cow-calf production systems collected at Carimagua Research Centre located in the Meta Department was retrospectively interrogated to understand the liveweight (LW)-derived flux matrix dynamics of methane (CH4) emissions. Estimated total CH4 (kg) emissions during the gestation period, were similar between conventional weaned (CW; 37.86 ± 0.506 kg) and early weaned (EW; 37.47 ± 0.476 kg) cows. However, averaged over two lactations, total CH4 emissions were larger (p < 0.0001) in CW cows (38.67 ± 0.456 kg) than in their EW (14.40 ± 0.435 kg) counterparts. Total gas emissions from birth to comparable commercial yearlings age were higher (p < 0.0001) for CW (43.11 ± 0.498 kg) calves than for EW (40.27 ± 0.472 kg) calves. It was concluded that mid and long-term pastoral datasets and new concerns are well suited to understand different contexts and adaptations to the contemporary weather conditions. Nevertheless, conventional farming systems will be less environmentally vulnerable if EW management practices involve the strategic and temporal use of improved pastures. The roles of veterinary medicine and animal sciences are briefly discussed in the context of unprecedented climate variability to provide a guide to the uncertain future.
RESUMEN Una proporción substancial de la producción de carne de res en Colombia se origina en sus Llanos Orientales. Sin embargo, allí, así como en un contexto global, dicha producción ganadera debe ser económicamente eficiente y satisfacer expectativas sociales y ambientales. Considerando algunos de esos intereses, se analizaron cinco años de eventos productivos y de manejo del destete implementados en el Centro de Investigaciones Carimagua, localizado en el departamento del Meta, para interpretar en vacas de carne y sus crías las dinámicas de peso vivo asociadas con emisiones derivadas de metano (CH4). Emisiones totales de CH4 (kg) durante la gestación fueron similares entre las vacas destetadas convencionalmente (CW; 37.86 ± 0.506 kg) y aquellas destetadas tempranamente (EW; 37.47 ± 0.476 kg). Sin embargo, el promedio de dos lactancias demostró mayores (p < 0.0001) emisiones en vacas CW (38.67 ± 0.456 kg) que en vacas EW (14.40 ± 0.435 kg). Emisiones acumuladas entre el nacimiento y el levante fueron mayores (p < 0.0001) en terneros CW (43.11 ± 0.498 kg) que en terneros EW (40.27 ± 0.472 kg). Se concluyó que nuevos cuestionamientos y datos de pastoreo de mediano y largo plazo son apropiados para entender contextos innovadores y adaptaciones a las condiciones climáticas actuales. Sin embargo, el manejo convencional en las fincas será menos vulnerable al medio ambiente si prácticas de destete temprano son introducidas considerando el uso estratégico y temporal de pastos mejorados. Los roles de la medicina veterinaria y las ciencias animales se discuten brevemente en el contexto de la variabilidad climática existente.
RÉSUMÉ
RESUMO As camadas de cobertura de aterros sanitários são construídas para impedir a saída de gases para a atmosfera e a entrada de líquidos no interior do aterro, minimizando os impactos no meio ambiente. Este trabalho avaliou, por meio de ensaios de colunas de solos em laboratório, o desempenho de duas camadas de cobertura, compreendendo o comportamento dos solos em função das emissões de metano (CH4) e da infiltração de água em seu interior. Foram utilizadas duas configurações de camada de solos: Coluna 1, camada convencional com solo com espessura 0,60 m e grau de compactação de 80%; e Coluna 2, camada oxidativa, com espessura de 0,30 m de solo com grau de compactação de 80%, sobreposta por uma camada de 0,30 m de solo misturado com produto compostado na proporção de 1:1 em volume com grau de compactação de 76%. Após a confecção das colunas (dimensões úteis de 0,60 m de altura e 0,15 m de diâmetro), foi injetado CH4 em sua parte inferior com concentração de 100% na vazão de 0,5 L/h (8,3 mL/min ou 486 g/m2.dia) para se avaliar a redução das emissões. Posteriormente, foi simulada chuva de 40 mm - sendo 30 mm em 1 dia e 10 mm 3 dias após a primeira simulação - e avaliada a infiltração da água e as emissões de CH4 nas colunas. Os resultados obtidos indicam que as duas configurações de camadas de cobertura apresentaram resultados satisfatórios, diminuindo o volume de líquidos para o interior do aterro e minimizando as emissões de CH4 para a atmosfera. Observou-se que a Coluna 2 (0,30 m de solo + 0,30 m de solo + produto compostado) se mostrou mais eficiente tanto na redução de emissões como na capacidade de retenção de água em relação à Coluna 1 (0,60 m de solo), sugerindo que camadas oxidativas podem se tornar uma alternativa tecnológica para regiões onde exista escassez de solos argilosos.
ABSTRACT Landfill cover layers are built to prevent the release of gases into the atmosphere and the inflow of liquids into the landfill, minimizing impacts on the environment. This study evaluated, through the testing of soil columns in the laboratory, the performance of two cover layers, comprehending the behavior of the soils as a function of methane emissions and liquid flows in its interior. Two configurations were used in the soil layer: Column 1, conventional layer with compacted soil of 0.60 m thickness and 80% degree of compaction; and Column 2, oxidative layer with 0.30 m thickness of soil and 80% degree of compaction, stuck by a layer of 0.30 m of mixed soil with composted product in the volume ratio of 1:1 with 76% degree of compaction. After the confection of the columns (0.60 m in height and 0.15 m in diameter), methane gas was injected into the inferior part of the columns with a concentration of 100% at a flow rate of 0.5 L/h (8.3 mL/min or 486 g/m2.day) to evaluate the emission reduction. Subsequently, a rain of 40 mm was simulated - being 30 mm in one day and 10 mm three days after the first simulation -, and both the methane emissions and the infiltration of water in the columns were evaluated. The obtained results indicate that the two column configurations of landfill cover layers presented satisfactory results, reducing the volume of liquids into the landfill and minimizing the methane emissions into the atmosphere. It is observed that Column 2 (0.30 m of soil + 0.30 m of soil + composted product) was more efficient in the reduction of emissions, as well as in the retention capacity of water in relation to Column 1 (0.60 m of soil), suggesting that oxidative layers can become a technological alternative for regions where there is scarcity of clay soils.