Cattle methane emission and pasture carbon dioxide balance of a grazed grassland.

McGinn, S.M., Beauchemin, K.A., Coates, T., and McGeough, E.J. (2014). "Cattle methane emission and pasture carbon dioxide balance of a grazed grassland.", Journal of Environmental Quality, 43(3), pp. 820-828. doi : 10.2134/jeq2013.09.0371  Access to full text


Grasslands constitute a major land use globally and are a potential sink of atmospheric carbon dioxide (CO2). They are also an important habitat for wildlife and a source of feed that supports ruminant livestock production. However, the presence of ruminants grazing these grasslands is also a source of methane (CH4) that contributes to buildup of greenhouse gases in the atmosphere. Our study measured enteric CH4 from 40 confined heifers in 1-ha paddocks using a dispersion model and CO2 exchange from an adjacent grassland site using a micrometeorological technique. The study was conducted at a mixed prairie grassland located in southern Alberta, Canada. The mean (standard error) CH4 emission was 189 (± 6) g animal1 d1 over four campaigns (over a 3-yr period). The daily averaged CO2 exchange from the grassland peaked at +2.2 g m2 h1 (sink) in early July and declined to negative values (source) in mid-August. Annually, the grazed grassland was either a net sink for carbon (C) at +40 kg C ha1 or a small source at −7 kg C ha1 depending on a cattle stocking density of 0.1 or 0.2 animals ha1, respectively. However, in basing the exchange on CO2 equivalence (CO2_eq), both stocking densities resulted in the grazed grassland being a source of greenhouse gas of −9 or −338 kg CO2_eq ha1 y1. This study illustrates the need to consider the cattle CH4 emissions and the stocking density when evaluating the environmental sustainability of grazed grasslands.

Date modified: