长期施肥对黄泥田土壤团聚体中氮素积累和有机氮组成的影响

【目的】氮是南方黏瘦型中低产田重要的限制因子。研究长期施肥对黄泥田团聚体中氮素累积及有机氮组成的影响，为合理培肥及土壤氮库管理提供依据。【方法】采集黄泥田36年定位试验中不施肥（CK）、单施化肥（NPK）、化肥+牛粪（NPKM）、化肥+全量稻秸还田（NPKS）4种处理耕层土壤，采用湿筛和Bremner有机氮分级方法，分析团聚体氮素累积与有机氮组分含量及分配的变化。【结果】施肥处理>2 mm团聚体全氮含量较CK显著增加12.7%—51.9%(P<0.05);NPKM与NPKS处理>2 mm团聚体对原土全氮累积贡献率较CK分别显著提高24.7与20.0个百分点（P<0.05）。施肥处理>2 mm团聚体酸解性氮与非酸解性氮含量分别较CK增加10.1%—36.3%与20.7%—100.5%，并相应提高两组分对原土全氮累积贡献率，NPKM与NPKS处理增加尤为明显。对于>2 mm团聚体，施肥处理酸解铵态氮含量较CK显著增加17.2%—40.4%(P<0.05)，以NPKM处理增加最为明显；酸解氨基酸态氮与酸解未知态氮含量分别以NPKS与NPKM处理增加最...

Effects of Long-Term Fertilization on Nitrogen Accumulations and Organic Nitrogen Components in Soil Aggregates in Yellow-Mud Paddy Soil

【Objective】Nitrogen is an important limiting factor for soil productivity in sticky and thin medium-low-yield paddy soil in southern China. In order to provide the basis for reasonable fertilization and soil nitrogen pool management, the effects of long-term fertilizations on nitrogen accumulations and organic nitrogen components in soil aggregates in a yellow-mud paddy soil were investigated.【Method】 In the 36^th year, soil samples from the plough layer under different fertilization treatments in the long-term experiment of yellow-mud paddy soil were collected to analyze the nitrogen accumulation and the content of organic nitrogen components as well as their distributions in aggregates by wet screening and Bremner organic nitrogen classification method. The treatments included: no fertilization (CK), application of chemical fertilizer (NPK), chemical fertilizer plus cow dung (NPKM), and chemical fertilizer plus total rice straw returning (NPKS). 【Result】 The content of total nitrogen in >2 mm aggregate was significantly increased by 12.7%-51.9% in fertilization treatments compared with that in CK (P<0.05). The cumulative contribution ratios of TN in >2 mm aggregate to total nitrogen in bulk soil under NPKM and NPKS treatments were 24.7 and 20.0 percentage points significantly higher than that under CK (P<0.05), respectively. The content of acid-hydrolyzable nitrogen (AHN) and non-hydrolyzable nitrogen (NHN) in >2 mm aggregate in fertilization treatments were increased by 10.1%-36.3% and 20.7%-100.5% compared with those under CK, respectively, and the cumulative contributions of the two components to total nitrogen in bulk soil were increased as well, especially for NPKM and NPKS treatments. In >2 mm aggregate, the content of acid-hydrolyzable ammonia nitrogen (AMMN) in fertilization treatments were significantly increased by 17.2%-40.4% compared with that in CK (P<0.05), and the largest increasement was found under NPKM treatment. The content of acid-hydrolyzable amino acid nitrogen (AAN) and acid-hydrolyzable unknown nitrogen (HUN) were increased most significantly under NPKS and NPKM treatments, which were 24.0% and 52.1% higher than those under CK (P<0.05), respectively. The content of NHN and AMMN in >2 mm and 0.25-2 mm aggregates were all significantly positively correlated with the content of alkaline nitrogen in corresponding aggregates (P<0.05). Compared with NPKM, NPKS was more conducive to the accumulation of NHN in >2 mm aggregate. In >2 mm aggregate, NPKM had the biggest contribution to the increase of AMMN and HUN contents, and their cumulative contribution ratios to total nitrogen in bulk soil, while NPKS had the largest contribution to the increase of AAN content and their cumulative contribution ratio to total nitrogen in bulk soil. Redundant analysis (RDA) showed that the nitrogen uptake of rice plant was mainly affected by NHN components in >2 mm and 0.25-2 mm aggregates. The nitrogen uptake of rice plant was more affected by soil organic nitrogen components under NPKM and NPKS treatments than that under NPK and CK treatment.【Conclusion】The content of total nitrogen in >2 mm aggregate and their cumulative contributions to total nitrogen in bulk soil were increased in plough layer of yellow-mud paddy soil under long-term fertilizations, especially for the combined application of organic and inorganic fertilizers. The contents of NHN, AHN and AMMN in >2 mm aggregate were closely related to alkaline nitrogen and the nitrogen uptake of rice plant in yellow-mud paddy soil, which were important available nitrogen pool.