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生态学杂志 ›› 2023, Vol. 42 ›› Issue (7): 1554-1560.doi: 10.13292/j.1000-4890.202306.028

• 研究报告 • 上一篇    下一篇

钾、镁配施改良茶园土壤酸化的效果及其作用路径

朱悦蕊1,林慧凌1,张誉龄2,梁扬雪2,韦雅芳2,贾苗2,李远华3,胡雲飞2*,高水练1,2*


  

  1. 1福建农林大学园艺学院, 福州 350002; 2福建农林大学安溪茶学院, 福建泉州 362400;3武夷学院茶与食品学院, 福建武夷山 354300)

  • 出版日期:2023-07-10 发布日期:2023-07-04

Effects of combined application of potassium and magnesium in ameliorating soil acidification of tea garden.

ZHU Yuerui1, LIN Huiling1, ZHANG Yuling2, LIANG Yangxue2, WEI Yafang2, JIA Miao2, LI Yuanhua3, HU Yunfei2*, GAO Shuilian1,2*#br#

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  1. (1College of Horticulture, Fujian Agriculture and Forestry University, Fuzhou 350002, China; 2Anxi College of Tea Science, Fujian Agriculture and Forestry University, Quanzhou 362400, Fujian, China; 3College of Tea and Food Science, Wuyi University, Wuyishan 354300, Fujian, China).

  • Online:2023-07-10 Published:2023-07-04

摘要: 为明确改良茶园土壤酸化的适宜钾、镁肥配施量及其对土壤pH的作用路径,在酸化茶园土壤(pH 3.43)设置4个钾肥和镁肥不同浓度交叉的16个处理,恒温恒湿培养5、10、20、30、45、60 d。结果表明:不同浓度钾、镁肥配施均能提高土壤pH,当K+为27.5 mg·kg-1、Mg2+为240 mg·kg-1(低钾高镁)时,pH提高了0.61个单位(P<0.05),改良茶园土壤酸化的效果最佳;在该处理下,交换性酸、NO3--N含量显著降低,交换性K+、Mg2+、Na+、NH4+-N含量显著增加;结构方程模型分析发现,交换性Mg2+、Na+对pH有显著正向直接效应,交换性Al3+对pH有极显著负向直接效应(P<0.01),交换性Mg2+和NH4+-N对pH有极显著正向间接效应。因此,低钾高镁改良茶园土壤酸化的主要作用路径是增加交换性Mg2+、交换性Na+和NH4+-N含量,降低交换性Al3+含量。


关键词: 磷酸钾, 轻烧镁, 茶园土壤, 交换性阳离子, 铵态氮, 硝态氮, pH

Abstract: To determine the appropriate amount of combined application of potassium and magnesium fertilizer in alleviating soil acidification in tea garden and to clarify the effect paths, the acidified tea garden soil (pH 3.43) was treated with combined application of potassium and magnesium fertilizers. Potassium and magnesium fertilizations were set at four levels, resulting in a total of 16 treatments. The tested soil was cultured at constant temperature and humidity for 5, 10, 20, 30, 45, and 60 days. The results showed that the combined application of potassium and magnesium fertilizer of all levels could improve soil pH. When K+ was 27.5 mg·kg-1 and Mg2+ was 240 mg·kg-1 (the treatment with low potassium and high magnesium), soil pH was significantly increased by 0.61 (P<0.05), achieving the strongest effect. Under this treatment, the concentrations of exchangeable acid and NO3--N decreased significantly, while the concentrations of exchangeable K+, Mg2+, Na+ and NH4+-N increased significantly. The structural equation model (SEM) analysis showed that exchangeable Mg2+ and Na+ had significantly positive and direct effects on pH, exchangeable Al3+ had extremely significantly negative and direct effects on pH (P<0.01), and exchangeable Mg2+ and NH4+-N had extremely significantly positive and indirect effects on pH. Therefore, low potassium and high magnesium could alleviate soil acidification mainly through increasing exchangeable Mg2+, exchangeable Na+ and NH4+-N content, and decreasing exchangeable Al3+ content.


Key words: potassium phosphate, caustic calcined magnesia, tea garden soil, exchangeable cation, ammonium nitrogen, nitrate nitrogen, pH.