Frankia-actinorhizal symbiosis: a non-chemical biological assemblage for enhanced plant growth, nodulation and reclamation of degraded soils

IF 2.1 3区 生物学 Q3 MICROBIOLOGY Symbiosis Pub Date : 2023-11-22 DOI:10.1007/s13199-023-00956-2
Pranaba Nanda Bhattacharyya, Nazim Forid Islam, Bhaskar Sarma, Bharat Chandra Nath, Laith Khalil Tawfeeq Al-Ani, Didier Lesueur
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Abstract

Actinorhizal symbiosis naturally harbours beneficial categories of diverse plant growth promoting microorganisms (PGPMs), including the Frankia species. The beneficial microorganisms can be used as efficient, non-chemical and sustainable alternatives for adopting effective soil restoration programmes and revegetation schedules in chemical and industrial-contaminated sites, including treating degraded lands contaminated with toxic chemicals and pesticides. It has been proposed that the interactions between the microbial gene pool are of immense agricultural significance that would facilitate an improvement in the health, hygiene and nutrient acquisition pathway of native soil. The present review is focused on exploiting the hitherto-unexplored Frankia-actinorhizal symbiosis with due interest for their application in soil restoration programmes, including the reclamation of degraded lands. This opens up new insights for the development of sustainability in forestry and plantation research. Additionally, it would promise an improvement in plant growth and vigour, hygiene, and other parameters related to crop yield, such as plant biomass, root/shoot ratio, crop yield, and so on. Novel and putative microorganisms isolated from the actinorhizal may be used for bio-transformation of allelochemicals and toxic heavy metals into compounds with modified biological properties, opening up novel avenues for mediating microbial degradation of putative allelochemicals that would otherwise accumulate at phytotoxic levels in soil. Endophyte-host specificities, the phylogeny of Frankia, and the conservation of unique endemic plant genetic resources like actinorhizal plants, are of paramount significance in the advancement of genomics, metabolomics and phenomics.

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法兰克-放线根共生:促进植物生长、结瘤和退化土壤复垦的非化学生物组合
放线根菌共生中天然蕴藏着多种植物生长促进微生物(PGPMs)的有益种类,其中包括法兰克菌。有益微生物可以作为有效的、非化学的和可持续的替代品,在化学和工业污染的场地采用有效的土壤恢复方案和植被恢复计划,包括处理被有毒化学品和杀虫剂污染的退化土地。微生物基因库之间的相互作用具有重要的农业意义,有助于改善原生土壤的健康、卫生和养分获取途径。本审查的重点是开发迄今尚未开发的弗兰基-放线根共生关系,并对其在土壤恢复方案中的应用,包括退化土地的复垦有适当的兴趣。这为林业和种植园研究的可持续性发展开辟了新的见解。此外,它还有望改善植物的生长和活力、卫生以及与作物产量相关的其他参数,如植物生物量、根冠比、作物产量等。从放线根菌中分离出的新型和假定的微生物可用于化感物质和有毒重金属转化为具有改性生物特性的化合物,为介导假定的化感物质的微生物降解开辟了新的途径,否则这些化感物质将在土壤中积累到植物毒性水平。内生寄主特异性、法兰克属植物的系统发育以及放线根植物等特有植物遗传资源的保护对基因组学、代谢组学和表型组学的发展具有重要意义。
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来源期刊
Symbiosis
Symbiosis 生物-微生物学
CiteScore
4.80
自引率
8.00%
发文量
56
审稿时长
>12 weeks
期刊介绍: Since 1985, Symbiosis publishes original research that contributes to the understanding of symbiotic interactions in a wide range of associations at the molecular, cellular and organismic level. Reviews and short communications on well-known or new symbioses are welcomed as are book reviews and obituaries. This spectrum of papers aims to encourage and enhance interactions among researchers in this rapidly expanding field. Topics of interest include nutritional interactions; mutual regulatory and morphogenetic effects; structural co-adaptations; interspecific recognition; specificity; ecological adaptations; evolutionary consequences of symbiosis; and methods used for symbiotic research.
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