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Main Authors: Hanif, Muhammad Sajid, Tayyab, Muhammad, Baillo, Elamin Hafiz, Islam, M Mominul, Islam, Waqar, Li, Xiaofang
Format: Artículo científico
Language:en
Published: Frontiers in microbiology 2024
Online Access:https://pubmed.ncbi.nlm.nih.gov/39606113/
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author Hanif, Muhammad Sajid
Tayyab, Muhammad
Baillo, Elamin Hafiz
Islam, M Mominul
Islam, Waqar
Li, Xiaofang
author_facet Hanif, Muhammad Sajid
Tayyab, Muhammad
Baillo, Elamin Hafiz
Islam, M Mominul
Islam, Waqar
Li, Xiaofang
Hanif, Muhammad Sajid
Tayyab, Muhammad
Baillo, Elamin Hafiz
Islam, M Mominul
Islam, Waqar
Li, Xiaofang
collection PubMed - marine biology
contents Plant microbiome technology for sustainable agriculture. Hanif, Muhammad Sajid Tayyab, Muhammad Baillo, Elamin Hafiz Islam, M Mominul Islam, Waqar Li, Xiaofang Plants establish specific interactions with microorganisms, which are vital for promoting growth and resilience. Although advancements in microbiome modulation technologies show great potential for sustainable agriculture, several challenges have hindered the wider application of plant microbiomes in the field. These challenges may include inconsistent microbial colonization, competition with native microbiota, and environmental variability. Current strategies, while promising, often yield inconsistent results in real-world agricultural settings, highlighting the need for more refined approaches. Agricultural practices and plant genotypes significantly influence the composition and function of plant-associated microbiota. A data-driven strategy that incorporates genomic profiling, environmental assessments, and optimized delivery systems is essential for selecting effective microbial strains. Additionally, refining farming practices, such as crop rotation, intercropping, and reduced tillage, along with robust plant breeding programs, can greatly enhance crop health and productivity.
format Artículo científico
id pubmed_39606113
institution PubMed
language en
publishDate 2024
publisher Frontiers in microbiology
record_format pubmed
spellingShingle Plant microbiome technology for sustainable agriculture.
Hanif, Muhammad Sajid
Tayyab, Muhammad
Baillo, Elamin Hafiz
Islam, M Mominul
Islam, Waqar
Li, Xiaofang
Plant microbiome technology for sustainable agriculture. Hanif, Muhammad Sajid Tayyab, Muhammad Baillo, Elamin Hafiz Islam, M Mominul Islam, Waqar Li, Xiaofang Plants establish specific interactions with microorganisms, which are vital for promoting growth and resilience. Although advancements in microbiome modulation technologies show great potential for sustainable agriculture, several challenges have hindered the wider application of plant microbiomes in the field. These challenges may include inconsistent microbial colonization, competition with native microbiota, and environmental variability. Current strategies, while promising, often yield inconsistent results in real-world agricultural settings, highlighting the need for more refined approaches. Agricultural practices and plant genotypes significantly influence the composition and function of plant-associated microbiota. A data-driven strategy that incorporates genomic profiling, environmental assessments, and optimized delivery systems is essential for selecting effective microbial strains. Additionally, refining farming practices, such as crop rotation, intercropping, and reduced tillage, along with robust plant breeding programs, can greatly enhance crop health and productivity.
title Plant microbiome technology for sustainable agriculture.
url https://pubmed.ncbi.nlm.nih.gov/39606113/