AI Article Synopsis
- Researchers isolated dark septate endophytic (DSE) fungi from tundra plant roots in the Changbai Mountains and analyzed their colonization and community composition
- They identified 69 strains from 10 genera and 12 species, with some being newly reported as DSE fungi in China's alpine tundra
- The study revealed that DSE fungi enhance tundra plants' adaptability to harsh conditions through rich diversity and strong symbiotic relationships.
Article Abstract
We isolated the dark septate endophytic (DSE) fungi from roots of typical plant species in the tundra of Changbai Mountains Nature Reserve, including , , , and , and studied their colonization. We further investigated the DSE community composition and species diversity of the four tundra plant species by using morphological characteristics combined with rDNA ITS sequence analysis. The results showed that DSE formed a typical structure of "microsclerotia" in roots of the four plant species. A total of 69 strains of DSE fungi were isolated from the root samples, belonging to 10 genera, and 12 species. They were , , , , , , , sp., , sp., sp., and , respectively. The DSE fungal species diversity was rich, and all these fungal species were firstly reported as DSE fungi in the alpine tundra belt of China. Among them, was the common and dominant species of all tundra plants. The Simpson, Pielou, and Shannon diversity indices of DSE fungi of the four plant species of tundra differed significantly. Our results showed that tundra plants have rich diversity of DSE fungi, and they can form a good symbiotic relationship, which enhance the adaptability of tundra plants to the harsh environment.
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| http://dx.doi.org/10.13287/j.1001-9332.202406.029 | DOI Listing |
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