Endophytic Microbes in Plants: Mechanisms, Functions, and Agricultural Applications

B L Santhosh *

Department of Agriculture, Raitha Samparka Kendra, Singatagere, Office of Assistant Director of Agriculture Kadur, Karnataka, India.

Waghmare Vijaykumar Veerappa

Department of Agricultural Microbiology, College of Agriculture, Chamarajanagara, UAS, Mandya, India.

V Mamtha

Agricultural Microbiology, UAS, Raichur 584104, India.

Sridhar Krishnaswami

Indira Gandhi Agriculture University, Krishaknagar, Raipur, India and Padmasini Agro Biosolutions & Pest Management, Chennai, India.

V. Sanjivkumar

Agricultural Research Station, Tamil Nadu Agricultural Universit, Kovilpatti - 628501, Thoothukudi District, Tamil Nadu, India.

Irfan Ahmad

Department of Plant Protection, Faculty of Agricultural Sciences, Aligarh Muslim University, Aligarh-202002, U.P., India.

A Mounik

Fruit Science, College of Horticulture, Bagalkot, University of Horticultural Sciences, Bagalkot, India.

*Author to whom correspondence should be addressed.


Abstract

Endophytic microorganisms—bacteria and fungi that colonise internal plant tissues without inducing overt disease—are a functionally important and still partly hidden component of the plant microbiome. Advances in cultivation-independent methods and multi-omics technologies have, over the past two decades, turned endophyte research from a largely descriptive, taxonomy-led pursuit into a mechanistic science with real bearing on sustainable crop production. This review critically synthesises the literature on the biology, mechanisms, and agricultural relevance of plant-associated endophytic microbes. It examines how endophytes colonise host tissues, the routes by which they are transmitted within and between plant generations, and the ecological logic underlying host specificity and core microbiome assembly. The principal mechanisms through which endophytes promote plant growth—phytohormone biosynthesis, biological nitrogen fixation, phosphate solubilisation, siderophore-mediated iron acquisition, and modulation of ethylene via 1-aminocyclopropane-1-carboxylate deaminase—are discussed alongside indirect mechanisms of pathogen suppression, including antibiosis, competitive exclusion, and induced systemic resistance. Particular attention is paid to the role of endophytes in conferring tolerance to drought, salinity, heavy-metal contamination, and temperature extremes, and to specialised symbioses such as those formed by Serendipita indica, dark septate endophytes, and Epichloë species. The review then considers how this biology has been, or might be, translated into biofertilisers, biopesticides, biostimulants, seed-applied inoculants, and phytoremediation strategies, before evaluating the contribution of omics technologies and synthetic microbial communities to rational inoculant design. Persistent obstacles to field-scale reliability, formulation stability, and regulatory harmonisation are critically appraised. The review concludes that endophytic microbes represent a scientifically mature but commercially underexploited resource for climate-resilient agriculture, and identifies where mechanistic understanding still needs to be reconciled with the variability of field performance.

Keywords: Endophytic bacteria, endophytic fungi, plant growth promotion, induced systemic resistance, abiotic stress tolerance, phytoremediation, plant microbiome, sustainable agriculture.


How to Cite

Santhosh, B L, Waghmare Vijaykumar Veerappa, V Mamtha, Sridhar Krishnaswami, V. Sanjivkumar, Irfan Ahmad, and A Mounik. 2026. “Endophytic Microbes in Plants: Mechanisms, Functions, and Agricultural Applications”. Journal of Advances in Microbiology 26 (7):193-209. https://doi.org/10.9734/jamb/2026/v26i71153.

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