Wulf S, Maeting M, Clemens J
Institute of Plant Nutrition, University of Bonn, Karlrobert-Kreiten-Str. 13, 53115 Bonn, Germany.
J Environ Qual. 2002 Nov-Dec;31(6):1795-801. doi: 10.2134/jeq2002.1795.
The aim of this study was to investigate the effect of different application techniques on greenhouse gas emission from co-fermented slurry. Ammonia (NH3), nitrous oxide (N2O), and methane (CH4) emissions were measured in two field experiments with four different application techniques on arable and grassland sites. To gather information about fermentation effects, unfermented slurry was also tested, but with trail hose application only. Co-fermented slurry was applied in April at a rate of 30 m3 ha(-1). Measurements were made every 4 h on the first day after application and were continued for 6 wk with gradually decreasing sampling frequency. Methane emissions were <150 g C ha(-1) from co-fermentation products and seemed to result from dissolved CH4. Only in the grassland experiment were emissions from unfermented slurry significantly higher, with wetter weather conditions probably promoting CH4 production. Nitrous oxide emission was significantly increased by injection on arable and grassland sites two- and threefold, respectively. Ammonia emissions were smallest after injection or trail shoe application and are discussed in the preceding paper. We evaluated the climatic relevance of the measured gas emissions from the different application techniques based on the comparison of CO2 equivalents. It was evident that NH3 emission reduction, which can be achieved by injection, is at least compensated by increased N2O emissions. Our results indicate that on arable land, trail hose application with immediate shallow incorporation, and on grassland, trail shoe application, bear the smallest risks of high greenhouse gas emissions when fertilizing with co-fermented slurry.
本研究的目的是调查不同施用技术对共发酵粪肥温室气体排放的影响。在两个田间试验中,对耕地和草地采用四种不同的施用技术,测量了氨(NH₃)、一氧化二氮(N₂O)和甲烷(CH₄)的排放量。为了收集有关发酵效果的信息,还对未发酵的粪肥进行了测试,但仅采用拖管施用方式。共发酵粪肥于4月以30立方米·公顷⁻¹的用量施用。施用后的第一天每4小时进行一次测量,并持续6周,采样频率逐渐降低。共发酵产品的甲烷排放量<150克碳·公顷⁻¹,似乎是由溶解的CH₄产生的。仅在草地试验中,未发酵粪肥的排放量明显更高,较潮湿的天气条件可能促进了CH₄的产生。在耕地和草地,通过注射施用分别使一氧化二氮排放量显著增加了两倍和三倍。注射或拖靴施用后氨排放量最小,前文已对此进行了讨论。我们基于二氧化碳当量的比较评估了不同施用技术所测气体排放的气候相关性。很明显,通过注射可实现的氨排放减少至少被增加的一氧化二氮排放所抵消。我们的结果表明,在耕地使用共发酵粪肥施肥时,采用拖管立即浅埋施用,在草地采用拖靴施用,产生高温室气体排放的风险最小。
