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Role of Endophytes, Plant Growth Promoting Rhizobacteria
lanuginosum which contains Curvularia protuberata a fungal endophyte, can
tolerate up to 65°C soil temperature in Yellowstone National Park (Redman
et al., 2002). Fungal endophyte also enhances heat tolerance in Triticum
aestivum and promotes plant height and grain weight (Lata et al., 2018).
3.4.1.4 ENDOPHYTES-MEDIATED HEAVY METAL STRESS TOLERANCE
IN PLANTS
Nowadays, heavy metal contamination in soil and underground water is a
common phenomenon due to expansion of industrialization and urbanization.
Application of chemical fertilizer by the farmers is also increase heavy metal
contamination in soil. Accumulations of heavy metal in the plant body have
several detrimental effects that limit growth. Exophiala pisciphila inhabiting
in maize root limits cadmium (Cd) stress by activating antioxidant enzymes
(Wang et al., 2016). Pseudomonas and Gigaspora can induce metal stress
tolerance by altering the level of ACC deaminase which helps to manipulate
the ethylene levels in plants (Friesen et al., 2011). Tobacco plants inoculated
with Acrocalymma vagum decreased the amount of heavy metals like Cd,
lead (Pb) and Arsenic (As) and also limits the translocation of these heavy
metals in the plant (Jin et al., 2017).
Plants might face more than one stress condition simultaneously. It was
reported that endophytes can improve tolerance in plants against salinity,
drought, and temperature stress simultaneously (Zhang et al., 2019). In Table
3.1, we have presented different endophytic microorganisms that contribute
to plant growth and development under different stress conditions.
3.4.2 ENDOPHYTES-MEDIATED BIOTIC STRESS MANAGEMENT IN
PLANTS
In plants, biotic stresses are mainly characterized by the attack of various
pathogens and insect pests which causes a negative impact on plant growth,
leading to major yield loss. Endophytic microorganisms showed interaction
with fungal pathogens, nematodes, and many other plant pathogens giving
protection to plants (Chadha et al., 2015). In several studies fungal endo
phytes exhibited significant antimicrobial activity and also inhibit several
plant pathogens through antagonism (Rodrguez et al., 2008). Fungal endo
phytes are used as biocontrol agents for several pathogenic microbes. For
instance, Penicillium citrinum is used to control the destructive pathogen