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外文期刊>European Journal of Soil Science
>Emissions of nitrous oxide, dinitrogen and carbon dioxide from three soils amended with carbon substrates under varying soil matric potentials
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Emissions of nitrous oxide, dinitrogen and carbon dioxide from three soils amended with carbon substrates under varying soil matric potentials
Carbon (C) substrates are critical for regulating denitrification, a process that results in nitrous oxide (N2O) and dinitrogen (N-2) emissions from soil. However, the impacts of C substrates on concomitant soil emissions of carbon dioxide (CO2) and N2O under varying soil types and soil water contents are not well studied. Three repacked Pallic grassland soils, varying in texture and phosphorus (P) status, containing NO3--N-15 were held at three levels of matric potential (psi, -3, -5 and -7 kPa), while receiving daily substrate additions (acetate, glucose and water control) for 14 days. The CO2 and N2O emissions were measured daily. Additionally, the N2O:(N-2 + N2O) ratios were determined using N-15 on days 3 and 14. Results showed that N2O emissions increased exponentially as soil gas diffusivity declined, and N2O peak emissions were higher with glucose than with acetate addition, with a range (+/- standard deviation) of 0.1 +/- 0.0 to 42.7 +/- 2.1 mg N m(-2) h(-1). The highest cumulative N2O emission (2.5 +/- 0.2 g N m(-2)) was measured following glucose addition with a soil psi of -3 kPa. In comparison with added glucose, acetate resulted in a twofold increase in N-2 emissions in soils with relatively low gas diffusivities. The N2O:(N2O + N-2) emissions ratios varied with substrate (glucose, 0.91; acetate, 0.81) on day 3, and had declined by day 14 under substrate addition (<= 0.10). Cumulative CO2 emissions were enhanced with increasing soil gas diffusivity and were higher for soils amended with glucose (ranging from 22.5 +/- 1.3 to 36.6 +/- 1.8, g C m(-2)) than for those amended with acetate. Collectively, the results demonstrate that the increase of N2O, N-2 and CO2 emissions and changes in the N2O:(N-2 + N2O) ratio vary over time in response to C substrate type and soil gas diffusivity.
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