Global greenhouse gas emissions from
the agricultural sector totaled 4.69 billion tons of carbon dioxide (CO2) equivalent
in 2010 (the most recent year for which data are available), an increase of 13
percent over 1990 emissions. By comparison, global CO2 emissions from transport
totaled 6.76 billion tons that year, and emissions from electricity and heat
production reached 12.48 billion tons, according to Worldwatch Institute’s
Vital Signs Online service.
Growth in agricultural production
between 1990 and 2010 outpaced growth in emissions by a factor of 1.6,
demonstrating increased energy efficiency in the agriculture sector.
The three most common gases emitted in
agriculture are nitrous oxide, CO2, and methane. Methane is generally produced
when organic materials—such as crops, livestock feed, or manure—decompose
anaerobically (without oxygen). Methane accounts for around 50 percent of total
agricultural emissions. Enteric fermentation—the digestion of organic materials
by livestock—is the largest source of methane emissions and of agricultural
emissions overall.
Nitrous oxide is a by-product generated
by the microbial breakdown of nitrogen in soils and manures. Nitrous oxide
production is particularly high in cases where the nitrogen available in soils
exceeds that required by plants to grow, which often occurs when nitrogen-rich
synthetic fertilizers are applied. Nitrous oxide is responsible for around 36
percent of agricultural greenhouse gas emissions.
Finally, carbon dioxide is released
from soils when organic matter decomposes aerobically (with oxygen). The
largest source of CO2 emissions within agriculture is the drainage and
cultivation of "organic soils"—soils in wetlands, peatlands, bogs, or
fens with high organic material. When these areas are drained for cultivation,
organic matter within the soil decomposes at a rapid rate, releasing CO2. This
process accounts for around 14 percent of total agricultural greenhouse gas
emissions.
Emissions from enteric fermentation rose by 7.6 percent worldwide between 1990 and 2010, but regional variation was high. At 51.4 percent and 28.1 percent, respectively, Africa and Asia saw their emissions increase, while emissions in Europe and Oceania fell by 48.1 percent and 16.1 percent. Europe's significant reduction in emissions parallels the decline in its beef production between 1990 and 2010, but it may also reflect increased use of grains and oils in cattle feed instead of grasses.
Emissions from enteric fermentation rose by 7.6 percent worldwide between 1990 and 2010, but regional variation was high. At 51.4 percent and 28.1 percent, respectively, Africa and Asia saw their emissions increase, while emissions in Europe and Oceania fell by 48.1 percent and 16.1 percent. Europe's significant reduction in emissions parallels the decline in its beef production between 1990 and 2010, but it may also reflect increased use of grains and oils in cattle feed instead of grasses.
"Adding oils or oilseeds to feed
can help with digestion and reduce methane emissions. But a shift from a
grass-based to a grain- and oilseeds-based diet often accompanies a shift from
pastures to concentrated feedlots, which has a range of negative consequences
such as water pollution and high fossil fuel consumption," said Laura
Reynolds, Worldwatch Food and Agriculture Researcher and the study's author.
"Aside from reducing livestock populations overall, there is no other
clear pathway to climate-friendly meat production from livestock."
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