The adaptation of lichen symbiosis to desert saline-alkali stress depends more on their symbiotic algae.

Physiol Plant

State Key Laboratory of Mycology, Institute of Microbiology, Chinese Academy of Sciences, Beijing, China.

Published: September 2024

AI Article Synopsis

  • Soil salinization poses a significant environmental threat, affecting ecosystems and highlighting the resilience of lichens, which are formed from the symbiosis of fungi and algae or cyanobacteria.
  • This study examines the physiological responses of two symbiotic algae, Diplosphaera chodatii and Trebouxia jamesii, along with their associated fungi, to saline-alkali stress conditions.
  • Results show that while both algae and fungi experience decreased growth in saline conditions, the algae are more effective at managing oxidative stress, suggesting they play a crucial role in lichen survival and may aid in future desert ecological restoration efforts.*

Article Abstract

Soil salinization is a major environmental threat to the entire terrestrial ecosystem. Lichens arose from the symbiosis of fungi and algae or cyanobacteria. They have a high tolerance to various extreme environments, including adaptation to saline-alkali habitats. Thus, lichens are pioneer species on saline-alkali soil. However, the separate resilience of the two symbiotic partners under saline-alkali conditions remains insufficiently understood. In this study, two representative symbiotic algae, Diplosphaera chodatii and Trebouxia jamesii, were studied for their physiological response to the saline-alkali stress by adjusting different concentrations of NaHCO, together with their respective symbiotic fungi Endocarpon pusillum (terricolous lichen) and Umbilicaria muhlenbergii (saxicolous lichen). The results indicate that cell growth rate and biomass in all four cultures decreased in alkali-alkaline substrate, while cellular activities and ultrastructure were affected to a distinct extent. Compared with the symbiotic fungi, the algae were found to be more active in coordinating oxidative stress and lipid peroxidation damage under the saline-alkali stress. The antioxidant system of the alga was especially shown as a key adaptive trait and it provides an important strategy for species survival and persistence in arid saline-alkali desert. The specific survival ability of the lichen symbiosis relies on the stress resilience advantages of the symbiotic partners in combination. Our study provided new insights into understanding the adaptation of lichen symbiosis to desert saline-alkali soil, and the potential of lichen symbiotic algae in the future desert ecological restoration.

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http://dx.doi.org/10.1111/ppl.14510DOI Listing

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