A strain of Phoma species improves drought tolerance of Pinus tabulaeformis

Global warming has led to frequent droughts, posing challenges for afforestation in arid and semiarid regions. In search of labor-saving and money-saving methods to improve the survival and growth rates of trees in these regions, we isolated and identified fungal endophytes that can potentially enhance the drought-resistance abilities of seedlings. We isolated 93 endophytic strains from the roots of Pinus tabulaeformis trees grown on an arid cliff. Three isolates increased the drought resistance of the tree seedlings. Using morphological, molecular, and physiological-biochemical methods, we identified three isolates as different clones of a strain of Phoma spp. and studied the strain's effect on stress resistance-related substances in the seedlings. The results showed that the strain improved drought tolerance and increased the seedlings' proline levels and antioxidant enzyme activities. The strain also secreted abundant extracellular abscisic acid, which likely triggered the seedlings' protective mechanisms. This endophytic strain may provide a cheaper labor-saving, sustainable alternative to traditional methods of enhancing drought resistance.

Automated summary

Global warming has led to frequent droughts, causing challenges for afforestation in arid and semiarid regions. By isolating and identifying fungal endophytes from the roots of Pinus tabulaeformis trees, researchers have found that these endophytes can potentially enhance drought-resistance abilities of seedlings. This strain of Phoma spp. shows promising results in improving drought tolerance, increasing proline levels, and enhancing antioxidant enzyme activities in the seedlings.