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微生物在盐碱地改良中的应用现状与未来展望OA

Current applications and future prospects of microorganisms in the ameliora-tion of saline-alkali soil

中文摘要英文摘要

盐碱地作为重要的后备耕地资源,其生态修复与高效利用对保障全球粮食安全及应对耕地资源短缺具有战略意义.近年来,微生物改良技术因兼具生态友好和可持续性而备受关注,成为土壤修复领域的研究热点.微生物通过调节土壤微环境、缓解植物盐胁迫伤害、提升土壤养分利用效率等多重机制,显著改善盐碱土理化性质,促进作物生长,为盐碱地治理提供了新路径.本文综述了目前应用微生物进行盐碱地改良的研究进展,包括改良盐碱地的微生物种质资源多样性、菌株作用机制及其应用效果、优良菌株改良等.现有研究表明,可用于盐碱地改良的微生物种质资源丰富,涵盖芽孢杆菌属、假单胞菌属、链霉菌属、肠杆菌属、木霉属及丛枝菌根真菌等.微生物通过改善土壤微生态环境,调节土壤理化性质,抑制植物病害发生,提升作物产量和果实品质.部分微生物可通过代谢产生有机酸来中和土壤中的碱性物质,调节土壤酸碱度,优化植物根际微环境;还能分泌植物生长激素、降解乙烯前体物质,以促进植物生长发育;合成胞外多糖、功能性蛋白质等次生代谢产物改善土壤团粒结构与理化性质,调节土壤微生物群落的结构组成与多样性,同时分泌抗菌活性物质抑制植物病原微生物繁殖、防控土传病害,并通过调节植物免疫应答反应提升植株的抗逆能力.现有研究多聚焦单一菌种,其田间应用受盐碱地复杂生境影响,存在效果有限和稳定性不足等问题,且菌剂制备、贮藏与标准化施用技术体系尚未完善,微生物-植物-土壤三者间的互作调控机制亦未完全明晰.未来可围绕盐碱地生物改良需求,结合多组学技术与基因工程手段解析微生物作用分子机制,优化高效菌株培育技术,研发多功能复合菌剂配制及配套应用技术,完善产业化工艺体系,从多维度为盐碱地高效生物改良与可持续利用提供理论支撑和技术保障.

Saline-alkali land,as a significant reserve of arable land resources,is of strategic importance for ensuring global food se-curity and addressing arable land shortages through its ecological restoration and efficient utilization.In recent years,microbial amendment technologies,due to their eco-friendliness and sustainability,have received considerable attention and have become a re-search hotspot in soil remediation.Microorganisms significantly improve the physicochemical properties of saline-alkali soil and pro-mote crop growth through multiple mechanisms,including regulating the soil microenvironment,alleviating salt stress damage to plants,and enhancing soil nutrient utilisation efficiency,thus paving a new way for saline-alkali land management.This article re-views the current research progress in the microbial improvement of saline-alkali soil,including the diversity of microbial germplasm resources for improving saline-alkali soil,the mechanisms of action and application effects of strains,and the improvement of excel-lent strains.Existing studies have mined a wealth of microbial resources encompassing Bacillus,Pseudomonas,Streptomyces,En-terobacter,Trichoderma and arbuscular mycorrhizal fungi for the improvement of saline-alkali soil.Microorganisms improve the soil microecological environment through diverse mechanisms,regulate soil physicochemical properties,and inhibit the occurrence of plant diseases,thereby enhancing crop yields and fruit quality.Some microorganisms can neutralise alkaline substances in the soil by producing organic acids through metabolism to regulate soil pH and optimise the plant rhizosphere microenvironment.In addition,they can secrete phytohormones,degrade ethylene precursors,etc.,to promote plant growth and development,synthesise extracellu-lar polysaccharides,functional proteins and other secondary metabolites to improve soil aggregate structure and physicochemical properties,regulate the structural composition and diversity of soil microbial communities and secrete antimicrobial substances to in-hibit the reproduction of plant pathogenic microorganisms and prevent and control soil-borne diseases,and improve plant stress resist-ance by regulating plant immune responses.The available studies mainly focuses on single strains,the field application of which is af-fected by the complex environment of saline-alkali land,demonstrating limited effects and insufficient stability.Furthermore,the technical system for microbial agent preparation,storage,and standardised application has not yet been perfected,and the interaction and regulation mechanisms among microorganisms,plants,and soil have not been fully clarified.In the future,focusing on the needs for biological improvement of saline-alkali land,multi-omics technology and genetic engineering methods can be combined to ana-lyse the molecular mechanisms of microbial action,optimise efficient strain cultivation technology,and develop preparation and sup-porting application technologies for multifunctional compound microbial agents,and improve the industrialisation process system,thus providing theoretical support and technical guarantee for efficient biological improvement and sustainable utilisation of saline-al-kali land from multiple dimensions.

常微;韩传洋;李芳军;董丹;田晓莉;杜明伟;吴慧玲;李召虎

北京市农林科学院植物保护研究所 北京 100097||内蒙古师范大学生命科学与技术学院 呼和浩特 010022北京市农林科学院植物保护研究所 北京 100097||中国农业大学农学院 北京 100193中国农业大学农学院 北京 100193北京市农林科学院植物保护研究所 北京 100097中国农业大学农学院 北京 100193中国农业大学农学院 北京 100193北京市农林科学院植物保护研究所 北京 100097中国农业大学农学院 北京 100193

农业科技

盐碱地改良微生物改良机制可持续农业生态修复

saline-alkali soil ameliorationmicroorganismsamelioration mechanismssustainable agricultureecological restoration

《中国生态农业学报(中英文)》 2026 (3)

547-558,12

北京市农林科学院科技创新能力建设专项(KJCX20230337,KJCX20230115)和河南省重点研发专项(231111113000)资助 This study was supported by the Special Project for Science and Technology Innovation Capacity Building of Beijing Academy of Agriculture and Forestry Sciences(KJCX20230337,KJCX20230115),and the Key Research and Development Project of Henan Province(231111113000).

10.12357/cjea.20250231

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