Journal article

Publication year: 2003

Pages: 283-292

Journal: Nutrient Cycling in Agroecosystems

Volume number: 67

Issue number: 3

ISSN: 1385-1314

DOI Link: https://doi.org/10.1023/B:FRES.0000003664.51048.0e

Publisher: Springer

Abstract: 
The effect of liming an acidic mineral soil (Dystric Nitosol from southern China), used for arable agriculture, on N(2)O emission was studied in an incubation experiment. After the soil pH had been raised from pH 4.4 to 5.2, 6.7 and 8.1, soil samples were either amended with NH(4)(+) and incubated aerobically, favoring nitrification or, after application of NO(3)(-), the incubation took place under anaerobic conditions, favoring denitrification. Gas sampling for N(2)O determination and soil analyses were performed at regular intervals up to 13 days. Under nitrification conditions only small N(2)O emission rates were observed (max. 6 mug N kg(-1) d(-1)) with significant differences between high and low pH values during the first 2 days of incubation. The nitrifying activity was low, even with high pH, and this, together with good aeration conditions, could partly explain the small N(2)O evolution. During denitrification, however, cumulative N(2)O emissions reached much higher values (1600 mug N kg(-1) in comparison to 40 mug N kg(-1) under nitrification conditions). N(2)O emission during denitrification was significantly enhanced by increasing soil pH. Under alkaline conditions (pH 8.1) a large nitrite accumulation occurred, which was in line with the highest nitrate reductase activity determined in this treatment. The limited availability of organic carbon is probably the main reason for the absence of further reduction of NO(2)(-) to N(2)O or N(2). At pH 6.7 the total N(2)O emission was slightly higher than at pH 8.1, although the start of pronounced emissions was retarded and only small amounts of NO(2)(-) accumulated. Acid soil conditions caused either negligible (pH 4.4) or only small (pH 5.2) N(2)O emissions. It can be concluded that these kinds of soil, used alternatively for production of upland crops or paddy rice, are prone to high N(2)O emissions after flooding, particularly under neutral to alkaline conditions. In order to avoid major N(2)O evolution and accumulation of nitrite, which can be leached into groundwater, the pH should not be raised to values above 5.5-6.

Harvard Citation style: Feng, K., Yan, F., Hütsch, B. and Schubert, S. (2003) Nitrous oxide emission as affected by liming an acidic mineral soil used for arable agriculture, Nutrient Cycling in Agroecosystems, 67(3), pp. 283-292. https://doi.org/10.1023/B:FRES.0000003664.51048.0e

APA Citation style: Feng, K., Yan, F., Hütsch, B., & Schubert, S. (2003). Nitrous oxide emission as affected by liming an acidic mineral soil used for arable agriculture. Nutrient Cycling in Agroecosystems. 67(3), 283-292. https://doi.org/10.1023/B:FRES.0000003664.51048.0e