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草业学报 ›› 2020, Vol. 29 ›› Issue (11): 172-182.DOI: 10.11686/cyxb2019571

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草地根际过程对养分循环调控机制研究进展

马源, 张德罡*   

  1. 甘肃农业大学草业学院,草业生态系统教育部重点实验室,中-美草地畜牧业可持续发展研究中心,甘肃 兰州 730070
  • 收稿日期:2019-12-30 修回日期:2020-04-23 出版日期:2020-11-20 发布日期:2020-11-20
  • 通讯作者: *E-mail: zhangdg@gsau.edu.cn
  • 作者简介:马源(1989-),男,甘肃嘉峪关人,在读博士。E-mail: mayuan608@163.com

Regulation mechanisms of rhizosphere nutrient cycling processes in grassland: A review

MA Yuan, ZHANG De-gang*   

  1. College of Grassland Science, Gansu Agricultural University, Key Laboratory of Grassland Ecosystem, Ministry of Education, Sino-U.S. Centers for Centers for Sustainable Development of Grassland and Animal Husbandry, Lanzhou 730070, China
  • Received:2019-12-30 Revised:2020-04-23 Online:2020-11-20 Published:2020-11-20
  • Contact: *E-mail: zhangdg@gsau.edu.cn
  • Supported by:
    科技部国家重点研究发展计划(2016YFC0501902)资助

摘要: 了解根际土壤养分碳、氮和磷的转化和循环利用是解决草地农业生态系统可持续利用性和提高草地生产力的根本问题。草地根际过程能够反映土壤碳、氮和磷等养分的周转速率,影响植物、土壤微生物对养分的竞争和捕获,维持根际微环境中各组分的养分平衡,同时与作物相比,草地土壤中养分元素碳、氮和磷的耦合性更强。因此,根际微生态系统结构与功能在维持养分转化和循环等方面具有重要作用。大量文献报道,调控根际微环境改变的关键因素是植物与土壤进行物质交换和信息传递的关键物质-根际分泌物,同时根际分泌物也是介导根际微生物和根际酶活性的关键物质。当草地环境发生改变时,该区域的根际分泌物、根际酶活性和根际土壤的微生物的组成和多样性也将发生根本性改变,从而导致该区域土壤养分的供应量和有效性发生改变,最终影响草地生产力和养分的有效利用效率。因此,深入探究草地根际过程对养分循环的调控机理,对于揭示草地植物与微生物间养分物质的分配利用和养分收益方面具有重要指导意义。综述了根际分泌物、根际酶和根际微生物参与养分循环的机制和互作机理,总结草地根际过程参与养分循环的机制,并对草学领域未来在根际微域的研究进行了一定的展望。

关键词: 草地生态, 根际, 根际分泌物, 根际酶, 根际微生物, 养分转化

Abstract: Understanding of the transformations and recycling processes of carbon, nitrogen and phosphorus in the soil rhizosphere is fundamental to solving the problems currently limiting the sustainable utilization of grassland agricultural ecosystems and improving grassland productivity. Rhizosphere processes in grassland can reflect the soil carbon, nitrogen and phosphorus nutrient turnover rates, affect the competition for and capture of nutrients by plants and soil microorganisms, and also determine the nutrient balance of each component in the rhizosphere microenvironment. Compared with crop systems, the coupling between carbon, nitrogen and phosphorus in grassland is stronger. Therefore, the structure and function of rhizosphere micro-ecosystems play an important role in maintaining nutrient transformation and circulation. Many literature reports indicate that the critical factor that regulates the rhizosphere microenvironment is the key substance of the plant and soil for material exchange and information transmission. The root exudates and rhizosphere exudates are also the key substances that mediate rhizosphere microorganisms and enzyme activities. When the grassland environment changes, the rhizosphere exudates, rhizosphere enzyme activities, and the composition and diversity of rhizosphere soil microorganisms will also change fundamentally, which will cause a change of supply and availability of soil nutrients, and in turn will affect grassland productivity and utilization efficiency of nutrients. So, further research on the regulation mechanism of nutrient cycling in grassland rhizosphere process is very important for revealing the distribution and utilization of nutrients and nutrient exchanges between grassland plants and microorganisms. This article reviews the mechanisms and interactions involving rhizosphere exudates, rhizosphere enzymes, and rhizosphere microorganisms involved in nutrient cycling, summarizes the mechanisms of grassland rhizosphere processes contributing to nutrient cycling and provides a perspective for consideration when formulating future research on rhizosphere microdomains in grassland ecosystems.

Key words: grassland ecology, rhizosphere, root exudates, rhizosphere enzymes, rhizosphere microorganisms, nutrient transformation