The rhizosphere microbiome and its beneficial effects on plants – current knowledge and perspectives
Małgorzata Woźniak,Anna Gałązka +1 more
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TL;DR: In general, rhizosphere microorganisms promote plant growth directly by providing plants with minerals such as nitrogen and phosphorus and by synthesizing growth regulators, as well as indirectly, by inhibiting the development of various plant pathogens.
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Abstract: The root system of a plant works like a factory that produces a huge amount of chemicals to communicate effectively with the microorganisms around it. At the same time, micro-organisms can use these compounds as an energy source. The variety of microorganisms associated with plant roots is enormous, amounting to tens of thousands of species. This complex microbial community, also called the second plant genome, is essential for plant health and productivity. Over the last few years, there has been significant progress in research into the structure and dynamics of the microbial sphere of the rhizosphere. It has been proven that plants shape the composition of microorganisms by synthesizing root secretions. On the other hand, microorganisms play a key role in the functioning of plants through their positive impact on their growth and development. In general, rhizosphere microorganisms promote plant growth directly by providing plants with minerals such as nitrogen and phosphorus and by synthesizing growth regulators, as well as indirectly, by inhibiting the development of various plant pathogens.
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Effects of complex pollution by microplastics and heavy metals on soil physicochemical properties and microbial communities under alternate wetting and drying conditions.
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Effect of Forage Plant Mixture and Biostimulants Application on the Yield, Changes of Botanical Composition, and Microbiological Soil Activity
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TL;DR: The systematic soil acidification and a decrease of soil enzymatic activity in result of applied fertilization, except NPK + Physioactive treatment (calcium fertilizer containing 76% calcium carbonate), was noted.
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Biodiversity and Metabolic Potential of Bacteria in Bulk Soil from the Peri-Root Zone of Black Alder (Alnus glutinosa), Silver Birch (Betula pendula) and Scots Pine (Pinus sylvestris)
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TL;DR: The mycorrhizal fungi and irrigation of crops improved the biological properties of the rhizosphere, especially under conditions of drought stress.
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Isolation and Identification of Potential Bioinoculants based on Phosphate Solubilizing and Plant Growth Promoting Benefits
Rachel Raths
- 01 Jan 2019
TL;DR: In this research, isolated and identified several potential plant growths promoting and phosphate solubilizing bacteria that have been shown to increase plant growth through characteristics such as; nitrogen fixation, plant hormone production, fungal suppression, and phosphate Solubilization.
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