Field N2O, CO2 and CH4 ̄uxes in relation to tillage, compaction and soil quality in Scotland
نویسندگان
چکیده
Tillage practices and weather affect the release of greenhouse gases but there have been few integrated studies of the quantities released or the mechanisms involved. No-tillage may increase emissions of nitrous oxide (N2O) and the ®xation of carbon by decreasing carbon dioxide (CO2) emissions. Tillage may also decrease the oxidation rate of atmospheric methane (CH4) in aerobic soil. These effects are partly due to compaction and to the lack of both soil disturbance and residue incorporation. Our objective was to investigate how tillage practices, soil conditions and weather interact to in ̄uence greenhouse gas emissions. Here we present early measurements of N2O and CO2 emission and CH4 oxidation in two ®eld experiments in Scotland under a cool moist climate, one involving soil compaction plus residue incorporation and the other involving no-tillage and two depths of mouldboard ploughing of a former grass sward. The experiments were located 10± 15 km south of Edinburgh on a cambisol and a gleysol. In order to monitor emissions regularly, at short intervals and over long periods, a novel automatic gas sampling system which allows subsequent automated determination of both N2O and CO2 ̄uxes was used. Both N2O and CO2 ̄uxes were episodic and strongly dependent on rainfall. Peak N2O emissions were mainly associated with heavy rainfalls after fertilisation, particularly with no-tilled and compact soils. In the tillage experiment, N2O ̄uxes and treatment differences were greater under spring barley (Hordeum vulgare L.) (up to 600 g N haÿ1 per day) than under winter barley. CO2 emissions in the few weeks after sowing were not strongly in ̄uenced by tillage and diurnal variations were related to soil temperature. However, periods of low or zero CO2 ̄uxes and very high N2O ̄uxes under notillage were associated with reduced gas diffusivity and air-®lled porosity, both caused by heavy rainfall. Early results show that CH4 oxidation rates may best be preserved by no-tillage. The quality of the loam/clay-loams and the climate in these experiments makes ploughing, preferably to 300 mm depth, and the control of compaction necessary to minimise soil N2O and CO2 losses. The gas exchange response of different soil types to tillage, particularly methane oxidation rate which is affected by long-term soil structural damage, is a potentially useful aspect of soil quality when taken in conjunction with other qualities. # 1999 Elsevier Science B.V. All rights reserved.
منابع مشابه
Soil and residue management effects on cropping conditions and nitrous oxide ̄uxes under controlled traf®c in Scotland 2. Nitrous oxide, soil N status and weather
Nitrogen from fertilisers and crop residues can be lost as nitrous oxide (N2O), a greenhouse gas that causes an increase in global warming and also depletes stratospheric ozone. Nitrous oxide emissions, soil chemical status, temperature and N2O concentration in the soil atmosphere were measured in a ®eld experiment on soil compaction in loam and sandy loam (cambisols) soils in south-east Scotla...
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