Feature Review

Rhizosphere Microbial Interactions and Their Impact on Kiwifruit Health  

Yiwei Li1 , Jin Zhang2 , Liyu Liang1 , Bolun  Chen3 , Yunwu Huang4 , Xin  Jiang1 , Yun  Liu1 , Jikui Huang4 , Xi Wang1
1 Horticultural research institute, Guangxi academy of agriculture sciences, Nanning, 530000, Guangxi, China
2 Guangxi academy of agriculture sciences, Nanning, 530000, Guangxi, China
3 Rice research institute, Guangxi academy of agriculture sciences, Nanning, 530000, Guangxi, China
4 Agriculture and rural bureau of Leye, Baise, 533000, Guangxi, China
Author    Correspondence author
Molecular Microbiology Research, 2024, Vol. 14, No. 5   doi: 10.5376/mmr.2024.14.0027
Received: 02 Sep., 2024    Accepted: 12 Oct., 2024    Published: 28 Oct., 2024
© 2024 BioPublisher Publishing Platform
This is an open access article published under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Preferred citation for this article:

Li Y.W., Zhang J., Liang L.Y., Chen B.L., Huang Y.W., Jiang X., Liu Y., Huang J.K., and Wang X., 2024, Rhizosphere microbial interactions and their impact on kiwifruit health, Molecular Microbiology Research, 14(5): 248-258 (doi: 10.5376/mmr.2024.14.0027)

Abstract

Rhizosphere microorganisms play a crucial role in plant growth and health, significantly impacting kiwifruit cultivation. The rhizosphere microbial communities facilitate nutrient uptake, suppress diseases, and enhance plant tolerance to environmental stress through complex interactions. This study reviews the relationship between rhizosphere microbes and kiwifruit, exploring their potential and challenges in improving kiwifruit health and yield. Additionally, it introduces the application of modern molecular techniques and metagenomics in the study of rhizosphere microorganisms. By deepening the understanding of the mechanisms of rhizosphere microbes, this study aims to provide scientific support for the sustainable cultivation of kiwifruit, proposing recommendations for optimizing farming practices through soil management and beneficial microbe inoculation.

Keywords
Rhizosphere microbes; Kiwifruit health; Nutrient uptake; Disease suppression; Sustainable agriculture
[Full-Text PDF] [Full-Flipping PDF] [Full-Text HTML]
Molecular Microbiology Research
• Volume 14
View Options
. PDF(678KB)
. FPDF(win)
. FPDF(mac)
. HTML
. Online fPDF
Associated material
. Readers' comments
Other articles by authors
. Yiwei Li
. Jin Zhang
. Liyu Liang
. Bolun  Chen
. Yunwu Huang
. Xin  Jiang
. Yun  Liu
. Jikui Huang
. Xi Wang
Related articles
. Rhizosphere microbes
. Kiwifruit health
. Nutrient uptake
. Disease suppression
. Sustainable agriculture
Tools
. Email to a friend
. Post a comment