Titlebook: Rhizosphere Biology: Interactions Between Microbes and Plants; Vadakattu V. S. R. Gupta,Anil K. Sharma Book 2021 Springer Nature Singapore

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Newly Introduced or Modified Genes in Plants Potentially Modulate the Host Microbiome,he soil microbiota which is the reservoir, the root architecture, the composition of the root cell wall, and the composition of root exudates which can act as nutrients and signalling molecules. Any modification of these traits can lead to a modulation of the microbiota hosted by the plant and could

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,Rhizosphere Plant–Microbe Interactions Under Abiotic Stress,tolerate biotic and abiotic stresses. Several studies suggest interactions of microbes with crop plants play a prominent role in adaptation, maintenance, and survival of both the partners as well as for soil health in a number of abiotic stresses such as drought, salinity, heavy metal contamination,

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,Microbial–Faunal Interactions in the Rhizosphere,esser extent archaea) and fungi, directly compete for plant-derived nutrients that they use for reproduction. Predators of these minute microorganisms control their abundances, community structure and activity. Microbial protists, faunal nematodes and microarthropods are arguably the main bacterial

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Inter-Organismal Signaling in the Rhizosphere,ity of microbes to colonize a particular plant species is fueled by release of signals by either or both partners that are only recognized by the right partner. It is now becoming increasingly clear that at least some microbe-to-plant signals can promote plant growth. This chapter focuses on the cur

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Inoculation Effects in the Rhizosphere: Diversity and Function,ve ground, with the roots being a major staging ground for the strongest functional interactions. Plants interact closely with their endophytes and with microorganisms growing on the root surface and in the rhizosphere. This plant microbiome constitutes a complementary genome in service of the plant

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Arbuscular Mycorrhizal Fungi Interactions in the Rhizosphere,sight into AM fungi and other organisms’ interactions, which is useful for understanding the ecological functions of AM fungi in the crucial zone for plant–microbe interactions with enhanced activities.

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Newly Introduced or Modified Genes in Plants Potentially Modulate the Host Microbiome,nse to pests may modify root exudates’ quality and quantity and hence have an impact on plant microbiome diversity and function. This chapter reviews recent studies and emerging trends on how the modification of root exudates could impact the plant microbiome.