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植物共生放线菌研究进展

宁楚涵,李文彬,刘润进*   

  1. (青岛农业大学菌根生物技术研究所, 山东青岛 266109)
  • 出版日期:2019-01-10 发布日期:2019-01-10

Research advances in plant symbiotic actinomyces.

NING Chu-han, LI Wen-bin, LIU Run-jin*   

  1. (Institute of Mycorrhizal Biotechnology, Agricultural University of Qingdao, Qingdao 266109, Shandong, China).
  • Online:2019-01-10 Published:2019-01-10

摘要: 植物不仅与真菌、细菌而且还与放线菌关系密切,协同进化,建立互惠共生体系。目前全球已报道的植物共生放线菌(plant symbiotic actinomyces,PSA)有25个优势属,种质资源丰富,分布广泛。这些PSA可定殖植物根系或和茎、叶构建各种各样的共生体系。PSA能通过直接或间接增加养分、水分吸收利用和分泌植物生长激素,促进植物生长发育;产生抗生素和次生代谢物质来提高植物抗逆性,如耐盐性、耐重金属毒性和拮抗病原物;调节土壤理化特性、活化土壤养分从而改善土壤健康状况等。生态系统中,植物与放线菌共生体系的发育和生理生态功能受到诸如土壤条件、气候因子、地理因素和农艺措施等的影响和调控。本文分析了PSA应用现状及当前研究存在的问题,以期为促进植物与放线菌共生领域的研究和PSA的应用提供理论依据和思路。PSA是一类相对未开发的新微生物资源,具有广阔的应用前景。

关键词: 群落构建, 径级, 亚高山暗针叶林, 色季拉山, 谱系结构

Abstract: Plants are closely related to fungi, bacteria, as well as actinomycetes, constituting a coevolutionary and mutualistic system. There are globally 25 dominant genera of plant symbiotic actinomyces (PSAs), with rich species resources and wide distribution. These PSAs may colonize plant roots, stems and/or leaves to form various symbionts. PSAs can improve plant growth and development through directly or indirectly increasing nutrient and water absorption and utilization, and excretion of plant growth hormones. They can enhance plant stress resistance (such as salt and toxic heavy metal tolerance, and disease resistance) through synthesizing antibiotics and secondary metabolites. Furthermore, they could promote soil health through adjusting soil chemical and physical properties and activating soil nutrients. The development and functions of symbionts between 〖HJ*3〗plants and actinomyces are influenced and regulated by soil conditions, climate factors, geographical characters, and agricultural management strategies. The current status of PSAs application and the problems existing in the current research are also analyzed, aiming to provide theoretical basis and reference for further research and application of PSAs. PSAs are new and unexploited microbial resources with broad application prospect.

Key words: subalpine dark coniferous forest, phylogenetic structure, diameter class, community assembly, Sygera Mountains