Key Laboratory of Plant Nutrition and Fertilizers, Ministry of Agriculture and Rural Affairs; Institute of Agricultural Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing, China.
Institute of Plant Protection, Soils and Fertilizers, Hubei Academy of Agricultural Sciences, Wuhan, China.
PLoS One. 2023 Feb 13;18(2):e0276197. doi: 10.1371/journal.pone.0276197. eCollection 2023.
Little information is known on whether carbon (C) and nitrogen (N) immobilization is synchronized in different sizes of aggregates under different agricultural management practices. Carbon and N concentrations and the C/N ratios in different sizes of aggregates down to 40 cm depth were determined after long-term application of chemical fertilizers combined with manure or without manure in a wheat-rice cropping system. Manure application usually produced significantly (P < 0.05) higher C and N concentrations and lower C/N ratios in bulk soil and in different sizes of aggregates down to 20 cm depth than the other treatments, and the 1.5 MNPK treatment at 0-10 cm depth had the highest SOC concentration of 26.3 g/kg. The C and N concentrations in bulk soil and all aggregate fractions decreased markedly with increasing soil depth. Among water stable aggregates in all soil depths, the highest C (48.2-66.4%) and N (47.8-68.3%) concentrations as a percentage of SOC were found in the small macroaggregates (2000-250 μm, SM). Manure application significantly (P < 0.05) increased the mass and C and N concentrations of SM and SM fractions down to 20 depth. The mean C/N ratios of silt-clay within large and small macroaggregates (inter-SC) were 1.57 and 1.46 units lower than those of silt-clay particles, respectively, indicating that inter-SC had relative high N availability. Moreover, the C and N content of SM down to 40 cm depth tended to saturation with increasing C input rate. Overall, manure application effectively improved soil structure, SM were the dominant particles involved in soil C and N storage, and inter-SC were the main particles responsible for N availability.
长期在化肥与有机肥配施和不施肥两种农作管理措施下,研究了不同粒径团聚体中碳(C)和氮(N)的固定是否同步。在冬小麦-水稻轮作系统中,测定了长期施用化肥结合有机肥或不施有机肥后不同粒径团聚体(直至 40cm 深处)中的 C 和 N 浓度及 C/N 比值。有机肥的施用通常会显著提高(P<0.05)耕层和不同粒径团聚体(直至 20cm 深处)中的 C 和 N 浓度,以及降低 C/N 比值,而 1.5MNPK 在 0-10cm 处的处理则具有最高的 26.3g/kg 有机碳(SOC)浓度。耕层和所有团聚体层中的 C 和 N 浓度均随土壤深度的增加而显著降低。在所有土壤深度的水稳性团聚体中,小的大团聚体(2000-250μm,SM)中 C(48.2-66.4%)和 N(47.8-68.3%)的浓度最高,占 SOC 的比例也最高。有机肥的施用显著增加了 SM 和 SM 级分(直至 20cm 深处)的质量和 C 和 N 浓度。大、小大团聚体中的粉粘粒(inter-SC)的平均 C/N 比值比粉粘粒分别低 1.57 和 1.46 个单位,表明 inter-SC 具有相对较高的 N 有效性。此外,SM 中直至 40cm 深处的 C 和 N 含量随着 C 输入率的增加而趋于饱和。总体而言,有机肥的施用有效地改善了土壤结构,SM 是参与土壤 C 和 N 储存的主要颗粒,而 inter-SC 是负责 N 有效性的主要颗粒。
