豌豆根际有益铝固定化微生物

Q3 Agricultural and Biological Sciences Biological Communications Pub Date : 2023-06-27 DOI:10.21638/spbu03.2023.202
A. Shaposhnikov, O. Yuzikhin, D. Syrova, D. Karlov, A. Sazanova, T. Azarova, E. Sekste, V. Safronova, A. Belimov
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引用次数: 1

摘要

酸性土壤含有高浓度的流动铝离子,这对植物是有毒的。植物与根际微生物形成共生关系,刺激植物生长并影响铝的有效性。本研究首次将基于土壤固定铝能力的方法应用于有益根际微生物的初步选择。从酸性土壤中栽培的豌豆根际分离到铝固定化酵母Rhodotorula sp. AL1和12株不同属、种的细菌。铝的固定化与环境pH升高和土壤中不溶性磷酸铝的形成有关。这些菌株在调节土壤中营养元素(Ca, Fe, K, Mg, Mn, P)浓度,产生植物激素(生长素,脱落酸和赤霉素酸,乙烯),利用1-氨基环丙烷-1-羧酸和根分泌物中典型的有机成分,乙炔还原和抗真菌活性等方面具有不同的有益特性。8个菌株对萝卜幼苗根系伸长的促进作用为30÷50 %,其中以铜碱菌D39的效果最大。综上所述,所选择的微生物是研究有毒铝存在下植物与微生物相互作用机制和提高酸性土壤中植物对铝的耐受性的有希望的模型。
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Beneficial aluminium immobilizing microorganisms inhabiting the rhizosphere of pea
Acid soils contain elevated concentrations of mobile aluminium (Al) ions which are toxic for plants. Plants form symbioses with the rhizosphere microorganisms stimulating plant growth and affecting Al availability. Here, for the first time the approach based on the ability to immobilize Al in soil was applied for initial selection of beneficial rhizosphere microorganisms. Al-Immobilizing yeast Rhodotorula sp. AL1 and 12 bacterial strains assigned to various genera and species were isolated from the rhizosphere of pea cultivated in acid soils. Immobilization of Al was related to the increased pH of the environment and the formation of insoluble Al phosphates in soil. The strains differed in possessing beneficial properties such as modulation of the nutrient element (Ca, Fe, K, Mg, Mn, P) concentrations in soil, production of phytohormones (auxins, abscisic and gibberellic acids, ethylene), utilization of 1-aminocyclopropane-1-carboxylic acid and organic components typical for root exudates, acetylene reduction and antifungal activities. Eight strains promoted root elongation of radish seedlings by 30÷50 % with a maximal effect exerted by Cupriavidus basilensis strain D39. Taking together, the selected microorganisms are promising models to study the mechanisms of plant-microbe interactions in the presence of toxic Al and improving Al tolerance of plants in acid soils.
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来源期刊
Biological Communications
Biological Communications Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
1.70
自引率
0.00%
发文量
21
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