Methane emission from agricultural areas

Abstract

The aim of this work was to measure the emission fluxes of methane from 2 types of agricultural areas: (i) irrigated area represented by a rice paddy field and (ii) upland area represented by wheat and maize fields. The results showed that irrigated area emitted methane at about 4.51 gm[superscript-2], while wheat and maize fields absorbed methane at approx. 59 and 40 mgm[superscript-2], respectively. Soil treatment in the upland field also had slight effect on methane absorption. The deep-tilled area enhanced more methane absorbed than in shallow-tilled area. Moreover, the addition of manure fertilizer affected the emission of methane by increasing the production and emission rate of methane from upland area. Soil temperature and soil moisture were significant factors for methane emission and absorption. The results indicated that methane flux was directly proportional to soil temperature and soil moisture.Annually, the whole irrigated areas in Thailand (21850 km[superscript2]) emitted methane in the quantity that was equivalent to 3750 Gg of carbon dioxide. This amount of carbon dioxide was approximately 40% of that released from the power plants for industrial sector in Thailand. However, the net greenhouse gas emission including carbon dioxide, nitrous oxide, and methane fluxes in irrigated area was negative which meant that irrigated area acted as a sink for greenhouse gases.