Fertility changes and comprehensive quality evaluation of dryland red soil under different long-term fertilization patterns

doi:10.13287/j.1001-9332.202510.013

Abstract

Abstract: Analyzing the effects of long-term fertilization treatments on dryland red soil fertility and identifying optimal fertilization regimes for soil amelioration are of great significance for enhancing soil fertility and crop yield. Based on a 37-year fertilization experiment (1986-2023) in Jiangxi Province, we examined the impacts of six treatments, no fertilization (CK), nitrogen-only (N), chemical fertilizer (NPK), double-dose chemical fertilizer (2NPK), organic manure (OM), and combined chemical-organic fertilization (NPKM) on soil physical, chemical, and biological properties, maize yield, and comprehensively assessed soil fertility using the integrated fertility index (IFI). The results showed that long-term organic fertilization (OM and NPKM) significantly increased soil pH, macroaggregate content, soil organic matter, total nitrogen, total phosphorus, available nutrients, and activities of catalase, sucrase, glucosidase cellulase, urease, and acid phosphatase. Long-term chemical fertilization (NPK and 2NPK) showed weak improvements in these parameters, while long-term application of nitrogen-only (N) reduced soil pH, organic matter, total nitrogen, total phosphorus, available nutrients content, and the activities of catalase, sucrase, and glucosidase. NPK, 2NPK, OM and NPKM treatments significantly increased maize yield relative to CK by 847.6%, 712.7%, 716.3%, and 1162.7% respectively. Maize yield exhibited significant positive correlations with soil macroaggregates, pH, total nitrogen, total phosphorus, alkali-hydrolyzable nitrogen, available phosphorus contents, and activities of all the tested enzymes. The IFI values derived from both minimum and full datasets consistently ranked: NPKM>OM>2NPK>NPK>CK>N, with a significant positive correlation between datasets. Thus, long-term combined chemical-organic fertilization optimally could enhance dryland red soil fertility and maize yield. Alkali-hydrolyzable nitrogen, total phosphorus, pH, and catalase were key indicators for evaluating soil fertility.

Key words: dryland red soil, soil property, evaluation indicators for soil fertility quality, long-term fertilization, maize yield.

YANG Xianhua, ZHONG Yijun, LIU Kailou, LI Daming, YANG Tianyu, LIU Wei, HUANG Yuxiang, JIN Huifang. Fertility changes and comprehensive quality evaluation of dryland red soil under different long-term fertilization patterns[J]. Chinese Journal of Applied Ecology, 2025, 36(10): 3007-3016.

References

[1] 苟国花, 樊军, 王茜, 等. 基于最小数据集的青藏高原南北部不同土地利用方式土壤质量评价. 应用生态学报, 2023, 34(5): 1360-1366
[2] Zhong W, Cai ZC. Long-term effects of inorganic fertili-zers on microbial biomass and community functional diversity in a paddy soil derived from quaternary red clay. Applied Soil Ecology, 2006, 36: 84-91
[3] 林小兵, 柳开楼, 黄尚书, 等. 长期施肥对旱地红壤微生物生物量碳、氮和酶活性的影响. 华北农学报, 2023, 38(4): 119-128
[4] 熊涵, 刘彦伶, 李渝, 等. 长期不同施肥模式对黄壤旱地土壤细菌群落结构和土壤养分的影响. 应用生态学报, 2023, 34(7): 1949-1956
[5] 陈超. 长期不同施肥方式对黄泥田水稻产量及土壤肥力的影响. 硕士论文. 扬州: 扬州大学, 2023
[6] 赵方杰. 洛桑试验站的长期定位试验: 简介及体会. 南京农业大学学报, 2012, 35(5): 147-153
[7] Blair N, Faulkner R, Till A, et al. Long-term management impacts on soil C, N and physical fertility. Part I: Broadbalk experiment. Soil and Tillage Research, 2006, 91: 30-38
[8] Wang HX, Xu JL, Liu XJ, et al. Effects of long-term application of organic fertilizer on improving organic matter content and retarding acidity in red soil from China. Soil & Tillage Research, 2019, 195: 104382
[9] 许小伟, 樊剑波, 陈晏, 等. 不同有机无机肥配施比例对红壤旱地花生产量、土壤速效养分和生物学性质的影响. 生态学报, 2014, 34(18): 5182-5190
[10] 刘志平, 张鹏飞, 周怀平, 等. 基于主成分—聚类分析的褐土肥力质量评价. 中国土壤与肥料, 2022(11): 167-173
[11] 吴玉红, 田霄鸿, 同延安, 等. 基于主成分分析的土壤肥力综合指数评价. 生态学杂志, 2010, 29(1): 173-180
[12] 张文学, 王少先, 刘增兵, 等. 基于土壤肥力质量综合指数评价化肥与有机肥配施对红壤稻田肥力的提升作用. 植物营养与肥料学报, 2021, 27(5): 777-790
[13] 胡伟, 刘文辉, 刘凯强, 等. 基于最小数据集土壤质量评价及生物指标的确立. 草地学报, 2024, 32(12): 3855-3867
[14] Larson WE, Pierce FJ. The dynamics of soil quality as a measure of sustainable management. Defining Soil Quality for Sustainable Environment, 1994, DOI: 10.2136/sssaspecpub35.c3
[15] 陈方正, 任健, 刘思涵, 等. 基于最小数据集的洞庭湖流域南部耕地土壤肥力综合评价. 土壤通报, 2021, 52(6): 1348-1359
[16] 包耀贤, 黄庆海, 徐明岗, 等. 长期不同施肥下红壤性水稻土综合肥力评价及其效应. 植物营养与肥料学报, 2013, 19(1): 78-85
[17] 郑楠, 邵阳, 罗敏, 等. 土壤团聚体制备方法对其稳定性及固碳潜力评价的影响研究. 中国环境科学, 2022, 42(6): 2821-2827
[18] 鲍士旦. 土壤农化分析. 北京: 中国农业出版社, 2000: 30-86
[19] 关松荫. 土壤酶及其研究法. 北京: 中国农业出版社, 1986: 274-339
[20] 金慧芳, 史东梅, 陈正发, 等. 基于聚类及PCA分析的红壤坡耕地耕层土壤质量评价指标. 农业工程学报, 2018, 34(7): 155-164
[21] 孙波, 张桃林, 赵其国. 我国东南丘陵山区土壤肥力的综合评价. 土壤学报, 1995, 32(4): 362-369
[22] Li P, Wu MC, Kang GD, et al. Soil quality response to organic amendments on dryland red soil in subtropical China. Geoderma, 2020, 373: 114416
[23] 裴小龙, 韩小龙, 钱建利, 等. 自然资源综合观测视角下的土壤肥力评价指标. 资源科学, 2020, 42(10): 1953-1964
[24] 李景, 吴会军, 武雪萍, 等. 长期保护性耕作提高土壤大团聚体含量及团聚体有机碳的作用. 植物营养与肥料学报, 2015, 21(2): 378-386
[25] 宋春雨, 张兴义, 刘晓冰, 等. 土壤有机质对土壤肥力与作物生产力的影响. 农业系统科学与综合研究, 2008, 24(3): 357-362
[26] 洪曦, 高菊生, 罗尊长, 等. 不同施肥措施对红壤稻田氮磷平衡及生态经济效益的影响. 应用生态学报, 2018, 29(1): 158-166
[27] Preetha N, Navya L, Swayam P, et al. Comparison of soil enzyme activities as biochemical fingerprints of soil health: Effect of vermicompost on gold mine tailings. Dynamic Soil, Dynamic Plant, 2009, 3: 48-54
[28] 苏吉凯, 董灼, 刘书越, 等. 南丹矿区周边农田土壤质量综合评价研究. 环境科学学报, 2023, 43(8): 314-326
[29] 冀宏杰, 张怀志, 张维理, 等. 我国农田土壤钾平衡研究进展与展望. 中国生态农业学报, 2017, 25(6): 920-930
[30] 吴海燕, 金荣德, 范作伟, 等. 基于主成分和聚类分析的黑土肥力质量评价. 植物营养与肥料学报, 2018, 24(2): 325-334
[31] Shi RY, Liu ZD, Li Y, et al. Mechanisms for increasing soil resistance to acidification by long-term manure application. Soil & Tillage Research, 2019, 185: 77-84
[32] Qu J, Liu Y, Meng X, et al. Evaluation of the effects of different fertilization modes on black soil fertility in China based on principal component and cluster analysis. Agrochimica, 2020, 64: 149-166
[33] Dong Y, Yang JL, Zhao XR, et al. Seasonal dynamics of soil pH and N transformation as affected by N fertilization in subtropical China: An in situ ¹⁵N labeling study. Science of the Total Environment, 2021, 816: 151596
[34] Zhang LQ, Zhao ZH, Jiang BL, et al. Effects of long-term application of nitrogen fertilizer on soil acidification and biological properties in China: A meta-analysis. Microorganisms, 2024, 12: 1683
[35] 温延臣, 李燕青, 袁亮, 等. 长期不同施肥制度土壤肥力特征综合评价方法. 农业工程学报, 2015, 31(7): 91-99
[36] 杨兆顺, 吴俊强, 钱芳, 等. 不同施肥制度对土壤肥力及玉米产量的影响. 华北农学报, 2010, 25(1): 208-212
[37] 晁赢, 付钢锋, 阎祥慧, 等. 有机肥对作物品质、土壤肥力及环境影响的研究进展. 中国农学通报, 2022, 38(29): 103-107
[38] 梁路, 马臣, 张然, 等. 有机无机肥配施提高旱地麦田土壤养分有效性及酶活性. 植物营养与肥料学报, 2019, 25(4): 544-554
[39] 刘志平, 马晓楠, 解文艳, 等. 山西典型旱地玉米产量及水分利用效率对长期不同施肥模式的响应. 干旱地区农业研究, 2023, 41(4): 61-70
[40] 周龙, 曾志伟, 杨德荣. 不同施肥水平对玉米产量的影响及肥料效应. 贵州农业科学, 2019, 47(1): 36-42