Identification of Plant Growth-Promoting Endophytic Fungi from grasslands
Kuupäev
2024
Autorid
Ajakirja pealkiri
Ajakirja ISSN
Köite pealkiri
Kirjastaja
Tartu Ülikool
Abstrakt
Drought is one of the significant environmental stresses resulting from climate change. Drought
can cause a reduction of cultivable land and decreased productivity. This thesis delves into
exploring and utilizing endophytic fungi from grasslands to augment plant growth and fortify
crop drought stress tolerance. We isolated the endophytic fungi from plants growing naturally
in various dry grasslands and saline habitats in Saaremaa, Estonia. We used standard molecular
methods for the identification of isolated fungal endophytes. The ability of fungal endophytes
to tolerate salt stress was evaluated in the seven most abundant isolates, which were subjected
to different concentrations of NaCl (0M, 1M, 2M, and 3M). Our results showed that all seven
tested fungal endophytes were halotolerant even though none were isolated from plants growing
in saline habitats. Our results indicate that the survival mechanisms of endophytic fungi in dry
conditions mirror their survival mechanisms in saline conditions. Isolates Alternaria sp. strain
EFP2 (EFP2), Alternaria sp. strain EFP4 (EFP4), and Alternaria alternata strain EFP76
(EFP76) were selected to study their effects on the growth of wheat and barley as model plants
under drought. We used a random block design with three factors, namely fungi (four levels),
drought (four levels), and soil type (autoclaved and non-autoclaved soil). The experiment was
carried out in triplicates and included controls. All three isolates could colonize roots and
somewhat promote growth in both model plants. EFP2 protected model plants against water
loss, showing relevance in plant water conservation and overall improvement of plant
photosynthesis under all drought treatment levels. Among all three isolates tested, EFP4
showed the highest positive impact on growth-promoting characteristics, enabling as much as
a 118% increase in total biomass, a 13.5% increase in shoot growth, and a leaf chlorophyll
content increase of 18% in wheat across drought treatment levels. EFP2 had the best outcomes
for barley, with increases of 6.2%, 3.6%, and 45.8% for total biomass, shoot growth, and leaf
chlorophyll content, respectively. It can be concluded that all fungal endophytes that were
included in this experiment can be exploited to alleviate the impact of drought stress on crops.
Our findings provide a scientific basis for potentially integrating these biological agents into
farming systems, aiming to reduce reliance on chemical inputs and improve crop productivity
in environmentally stressed areas. These results add to the understanding of plant-microbe
interactions and underscore the potential of using endophytic fungi to develop sustainable crop
production strategies in the face of global climate challenges.
Kirjeldus
Märksõnad
Climate change, Environmental stress, Grassland, Endophytic fungi, Drought, Salinity, Growth promotion, Alternaria sp., Wheat, Barley, Biomass, Shoot length, Leaf chlorophyll