马啸驰, 韩烽, 白亚涛, 吴双, 吴景贵, 马艳. 有机物料在果园生态系统中的应用及其环境效应: 研究现状与展望[J]. 中国生态农业学报 (中英文), 2023, 31(8): 1240−1255. DOI: 10.12357/cjea.20230207
引用本文: 马啸驰, 韩烽, 白亚涛, 吴双, 吴景贵, 马艳. 有机物料在果园生态系统中的应用及其环境效应: 研究现状与展望[J]. 中国生态农业学报 (中英文), 2023, 31(8): 1240−1255. DOI: 10.12357/cjea.20230207
MA X C, HAN F, BAI Y T, WU S, WU J G, MA Y. Application and environmental effects of organic materials in orchard ecosystem: research status and prospects[J]. Chinese Journal of Eco-Agriculture, 2023, 31(8): 1240−1255. DOI: 10.12357/cjea.20230207
Citation: MA X C, HAN F, BAI Y T, WU S, WU J G, MA Y. Application and environmental effects of organic materials in orchard ecosystem: research status and prospects[J]. Chinese Journal of Eco-Agriculture, 2023, 31(8): 1240−1255. DOI: 10.12357/cjea.20230207

有机物料在果园生态系统中的应用及其环境效应: 研究现状与展望

Application and environmental effects of organic materials in orchard ecosystem: research status and prospects

  • 摘要: 外源有机物料添加已成为改善果园土壤结构、提升土壤肥力和果实品质的重要途径。有机物料来源广泛且成分复杂, 类型、用量及施用方式的改变显著影响其在果园生态系统中的应用效果及伴随的环境效应特征。本文系统总结了有机物料的来源与性质及其对果树生长发育、土壤物理结构、土壤养分循环及生物学性状的影响, 重点关注了有机物料添加下果园温室气体排放、重金属及新型污染物(持久性有机污染物、抗生素及微塑料)积累与转化特征。有机物料施用对果园生态系统产生的主要影响为: 1)有机物料的合理施用能有效改善土壤物理结构、理化性质及生物活性, 增强土壤保肥供肥能力, 为果树生长发育创造良好条件, 提高产量和果实品质; 2)有机物料类型、用量及施用方式显著影响果园土壤碳氮底物浓度、相关酶及微生物活性, 进而改变土壤养分元素循环及N2O排放特征; 3)有机物料自身成分与结构组成、土壤性质及功能微生物共同影响果园土壤重金属与新型污染物的积累、迁移与转化。有机物料施用产生的环境效应存在不确定性, 其关联的果园土壤复合污染物的形成及影响机制复杂, 值得深入关注, 同时果园有机物料添加与环境效应变化过程的内在关联与作用机制仍需进一步研究。本文最后展望了未来果园生态系统中有机物料添加与环境效应关系研究的重要方向。

     

    Abstract: The addition of exogenous organic materials is important for ameliorating soil structure, improving soil fertility, and enhancing fruit quality in orchards. Organic materials originate from diverse sources and exhibit complex compositions. The effects of alterations to the type, quantity, and method of application on their effectiveness and concomitant environmental implications in orchard ecosystems are noteworthy. This study systematically summarized the sources and properties of organic materials and their effects on fruit tree growth and development, soil physical structure, soil nutrient cycling, and biological properties. Emphasis was placed on greenhouse gas emissions and the accumulation and transformation characteristics of heavy metals and new pollutants (persistent organic pollutants, antibiotics, and microplastics) in orchards with the addition of organic materials. The main effects of organic material application on orchard ecosystems are as follows: 1) the rational application of organic materials can efficiently improve the physical structure, physicochemical properties, and biological activity of orchard soil; enhance its ability to maintain and supply nutrients; create favorable conditions for the growth and development of fruit trees; and improve yield and fruit quality. 2) The type, quantity, and application method of organic materials notably affect the concentration of carbon and nitrogen substrates and related enzymatic and microbial activities in orchard soil, which alter the characteristics of soil nutrient cycling and N2O emissions. 3) The composition and structure of organic materials, soil properties, and functional microorganisms concurrently influence such accumulation. However, the potential environmental impact of organic materials remains uncertain. In addition, the formation and influencing mechanisms of associated composite pollutants in orchard soil are complex and deserve comprehensive attention. Further studies are required concerning the internal connections between the addition of organic materials and environmental change processes in orchards, the mechanisms of which also need to be elucidated. Finally, important directions for research regarding the relationship between the application of organic materials and environmental effects in orchard ecosystems are proposed.

     

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