Plant–Microbiome Crosstalk: Dawning from Composition and Assembly of Microbial Community to Improvement of Disease Resilience in Plants DOI Open Access
Muhammad Noman, Temoor Ahmed, Usman Ijaz

et al.

International Journal of Molecular Sciences, Journal Year: 2021, Volume and Issue: 22(13), P. 6852 - 6852

Published: June 25, 2021

Plants host diverse but taxonomically structured communities of microorganisms, called microbiome, which colonize various parts plants. Plant-associated microbial have been shown to confer multiple beneficial advantages their plants, such as nutrient acquisition, growth promotion, pathogen resistance, and environmental stress tolerance. Systematic studies provided new insights into the economically ecologically important hubs core microbiota revealed impacts on Microbiome engineering, can improve functional capabilities native species under challenging agricultural ambiance, is an emerging biotechnological strategy crop yield resilience against variety constraints both biotic abiotic nature. This review highlights importance indigenous in improving plant health pathogen-induced stress. Moreover, potential solutions leading towards commercialization proficient bioformulations for sustainable improved production are also described.

Language: Английский

Plants endophytes: unveiling hidden agenda for bioprospecting toward sustainable agriculture DOI
Anamika Dubey, Muneer Ahmad Malla, Ashwani Kumar

et al.

Critical Reviews in Biotechnology, Journal Year: 2020, Volume and Issue: 40(8), P. 1210 - 1231

Published: Aug. 30, 2020

Endophytic microbes are present in nearly all of the plant species known to date but how they enter and flourish inside a host display multiple benefits like growth promotion (PGP), biodegradation, stress alleviation still unexplored. Until now, majority research has been conducted assuming that host-endophyte interaction is analogous PGP microbes, although, studies related mechanisms their infection, colonization as well conferring important traits plants limited. It would be fascinating explore role these endophytic gene expression, metabolism, modulation phenotypic traits, under abiotic biotic conditions. In this review, we critically focused on following areas: (i) lifestyle mechanism entry into tissues, (ii) endophytes modulate immune system affect genotypic expression condition, (iii) omics other integrated genomic approaches unraveling complex signaling crosstalk. Furthermore, discussed phytoremediation heavy metal whole analysis based an understanding different metabolic pathways utilize combat stress.

Language: Английский

Citations

118

Role of microbial diversity to influence the growth and environmental remediation capacity of bamboo: A review DOI

Priya Fuke,

Mohan Manu T,

Manish Kumar

et al.

Industrial Crops and Products, Journal Year: 2021, Volume and Issue: 167, P. 113567 - 113567

Published: April 30, 2021

Language: Английский

Citations

94

Engineered Nanomaterials in Soil: Their Impact on Soil Microbiome and Plant Health DOI Creative Commons
Shams Tabrez Khan, Syed Farooq Adil, Mohammed Rafi Shaik

et al.

Plants, Journal Year: 2021, Volume and Issue: 11(1), P. 109 - 109

Published: Dec. 30, 2021

A staggering number of nanomaterials-based products are being engineered and produced commercially. Many these nanomaterials (ENMs) finally disposed into the soil through various routes in enormous quantities. Nanomaterials also specially tailored for their use agriculture as nano-fertilizers, nano-pesticides, nano-based biosensors, which is leading to accumulation soil. The presence ENMs considerably affects microbiome, including abundance diversity microbes. In addition, they influence crucial microbial processes, such nitrogen fixation, mineralization, plant growth promoting activities. conduct typically dependent on properties Among nanoparticles, silver zinc oxide have been extensively prepared studied owing excellent industrial well-known antimicrobial Therefore, at this stage, it imperative understand how microbiome related processes. These investigations will provide necessary information regulate applications sustainable may help increasing agrarian production. review discusses several issues.

Language: Английский

Citations

91

Use of Mineral Weathering Bacteria to Enhance Nutrient Availability in Crops: A Review DOI Creative Commons
Igor Daniel Alves Ribeiro, Camila Gazolla Volpiano, Luciano Kayser Vargas

et al.

Frontiers in Plant Science, Journal Year: 2020, Volume and Issue: 11

Published: Dec. 11, 2020

Rock powders are low-cost potential sources of most the nutrients required by higher plants for growth and development. However, slow dissolution rates minerals represent an obstacle to widespread use rock in agriculture. Rhizosphere processes biological weathering may further enhance mineral since interaction between minerals, plants, bacteria results release macro- micronutrients into soil solution. Plants important agents this process acting directly or sustaining a wide diversity microorganisms root environment. Meanwhile, promote producing complexing ligands (siderophores organic acids), affecting pH (via inorganic acid production), performing redox reactions. Besides that, variety rhizosphere fungi could also plant development directly, synergistically contributing activity performed plants. The inoculation especially combined with crushed rocks, can increase fertility improve crop production. This approach is more sustainable than conventional fertilization practices, which contribute reducing climate change linked agricultural activity. Besides, it decrease dependency developing countries on imported fertilizers, thus improving local

Language: Английский

Citations

89

Plant–Microbiome Crosstalk: Dawning from Composition and Assembly of Microbial Community to Improvement of Disease Resilience in Plants DOI Open Access
Muhammad Noman, Temoor Ahmed, Usman Ijaz

et al.

International Journal of Molecular Sciences, Journal Year: 2021, Volume and Issue: 22(13), P. 6852 - 6852

Published: June 25, 2021

Plants host diverse but taxonomically structured communities of microorganisms, called microbiome, which colonize various parts plants. Plant-associated microbial have been shown to confer multiple beneficial advantages their plants, such as nutrient acquisition, growth promotion, pathogen resistance, and environmental stress tolerance. Systematic studies provided new insights into the economically ecologically important hubs core microbiota revealed impacts on Microbiome engineering, can improve functional capabilities native species under challenging agricultural ambiance, is an emerging biotechnological strategy crop yield resilience against variety constraints both biotic abiotic nature. This review highlights importance indigenous in improving plant health pathogen-induced stress. Moreover, potential solutions leading towards commercialization proficient bioformulations for sustainable improved production are also described.

Language: Английский

Citations

84