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Title: [Effects of large-grained activated humic acid fertilizer on soil aggregates and organic carbon in apple orchard soil]. Author: Liu Y, Tang YF, Yang YC, Jiang YM, Cheng DD. Journal: Ying Yong Sheng Tai Xue Bao; 2022 Apr; 33(4):1021-1026. PubMed ID: 35543055. Abstract: The new large-grained activated humic acid fertilizer (LAF) can significantly reduce the amount of chemical fertilizer application and stable fruit yield. Understanding its impacts on soil aggregates and organic carbon is an important basis for revealing its role in driving soil structure of apple orchard. There were four LAF treatments: LAF1 (full fertilization, fertilization period and mass ratio (the same below), germination stage: fruit expansion stage: maturity stage=3:4:3), LAF2 (full fertilization, germination stage: fruit expansion stage: maturity stage=2:3:5), LAF3 (fertilizer application reduction by 1/4, germination stage: fruit expansion stage: maturity stage=2:3:5), LAF4 (fertilizer application reduction by 1/3, germination stage: fruit expansion stage: maturity stage=2:3:5); with no fertilization as control (CK). In a four-year pot experiment, we examined the composition, stabi-lity and organic carbon content of soil aggregates under different fertilization treatments. The results showed that: 1) compared with CK, each treatment of LAF increased the content of >2 mm and 2-0.25 mm aggregate by 53.4%-77.5% and 12.3%-17.0%, respectively. The application of LAF significantly increased the content of soil water stable aggregates, and such effects were positively related with application amount. The content of soil water stable aggregate was the highest in the LAF1 treatment. 2) There was no significant difference in aggregate content of each particle size among LAF treatments, with the proportion of aggregate content of 2-0.25 mm particle size being the highest. 3) Compared with CK, all LAF treatments significantly increased the average weight diameter (MWD) and geometric mean diameter (GMD), and reduced the fractal dimension (D). LAF1 treatment had the highest MWD and GMD values, and had the strongest effect on the stability of soil aggregates. 4) Except for LAF4 treatment, the content of soil organic carbon in other LAF treatments was significantly higher than that in CK, and the content of soil organic carbon in LAF2 treatment was the highest. All LAF treatments increased the organic carbon content of soil aggregates with each particle size. LAF1, LAF2, and LAF3 treatments significantly increased the organic carbon of aggregates with particle size >2 mm. Particle size >2 mm had the highest contribution to the total organic carbon. The contribution rate of water stable large aggregate organic carbon to total organic carbon of LAF treatment was significantly higher than that of CK, which was all higher than 66.0%, and that of LAF1 treatment was the highest. In conclusion, the application of LAF enhanced the formation and stability of water stable aggregates and increased organic carbon content of aggregates in apple orchard soil, with the best performance of the full application. The application of LAF could be used as an effective measure to improve soil structure and fertility in apple orchard. 新型大颗粒活化腐植酸肥(LAF)在苹果化肥减量和果实稳产方面的效果显著,探明其对土壤团聚体和有机碳的影响是揭示该新型肥料对苹果土壤结构影响的重要依据。本研究设置4个LAF处理:LAF1[全量施肥,施肥时期及重量比(下同):萌芽期∶膨果期∶成熟期=3∶4∶3]、LAF2(全量施肥,萌芽期∶膨果期∶成熟期=2∶3∶5)、LAF3(减量1/4施肥,萌芽期∶膨果期∶成熟期=2∶3∶5)、LAF4(减量1/3施肥,萌芽期∶膨果期∶成熟期=2∶3∶5),以不施肥(CK)处理为对照。通过4年盆栽试验,研究苹果土壤团聚体组成、稳定性和有机碳对不同施肥处理的响应。结果表明: 1)与CK相比,LAF各处理显著提高了土壤水稳性大团聚体含量,>2 mm和2~0.25 mm粒径团聚体含量分别提高了53.4%~77.5%和12.3%~17.0%,且提高幅度随施肥量的增加而增大,其中LAF1处理土壤水稳性大团聚体含量最高。2)LAF各处理在各粒径团聚体含量上差异不显著,其中2~0.25 mm粒径团聚体含量所占的比例最高。3)与CK相比,LAF各处理均显著提高了团聚体平均重量直径(MWD)和几何平均直径(GMD),降低了分形维数(D),其中LAF1处理的MWD和GMD值最高,对土壤团聚体稳定性提升效果最好。4)除LAF4外,其他LAF处理土壤有机碳含量均显著高于CK,其中LAF2处理土壤有机碳含量最高;LAF各处理均增加了土壤各粒径团聚体有机碳含量,LAF1、LAF2、LAF3处理显著提高了>2 mm粒径团聚体有机碳含量,且>2 mm团聚体有机碳对总有机碳的贡献率最大;LAF各处理的水稳性大团聚体有机碳对总有机碳的贡献率均显著高于CK,且贡献率均在66.0%以上,其中LAF1处理最高。综上,施用LAF在促进苹果土壤水稳性大团聚体形成和稳定性、提高团聚体有机碳含量上应用效果显著,其中全量施用效果最好。施用LAF可作为改善苹果土壤结构和提升土壤肥力的有效措施。.[Abstract] [Full Text] [Related] [New Search]