Increased Tolerance of Massion’s pine to Multiple-Toxic-Metal Stress Mediated by Ectomycorrhizal Fungi

Abstract: Pinus massoniana (Massion’s pine), a pioneer tree species, exhibits restoration potential in polluted mining areas. However, the physiological and molecular mechanisms of ectomycorrhizal (ECM) fungi in Massion’s pine adaptability to multiple-toxic-metal stress are still unclear. Hence, Massion’s pine seedlings inoculated with two strains of C. geophilum, which were screened and isolated from a polluted mine area, were cultivated in mine soil for 90 days to investigate the roles of EMF in mediating toxic metal … Show more

“…Our previous research confirmed that C. geophilum exhibited resistance to drought, high temperature, and heavy metal stress by increasing nutrient absorption and antioxidant enzyme activity and upregulating genes encoding antioxidant enzyme activity, ubiquinone, and other terpenoid quinones and metabolism of compounds [42][43][44]. Additionally, our research demonstrated that the inoculation of C. geophilum effectively alleviated heavy metal-induced toxicity in Pinus massoniana seedlings [45]. Wu et al [46] conducted a study on the distribution of C. geophilum in zonal vegetation in Inner Mongolia and found that the environment with stable stand, high soil moisture, and rich organic matter content was conducive to the colonization and growth of C. geophilum.…”

The Ectomycorrhizal Fungi and Soil Bacterial Communities of the Five Typical Tree Species in the Junzifeng National Nature Reserve, Southeast China

“…Our previous research confirmed that C. geophilum exhibited resistance to drought, high temperature, and heavy metal stress by increasing nutrient absorption and antioxidant enzyme activity and upregulating genes encoding antioxidant enzyme activity, ubiquinone, and other terpenoid quinones and metabolism of compounds [42][43][44]. Additionally, our research demonstrated that the inoculation of C. geophilum effectively alleviated heavy metal-induced toxicity in Pinus massoniana seedlings [45]. Wu et al [46] conducted a study on the distribution of C. geophilum in zonal vegetation in Inner Mongolia and found that the environment with stable stand, high soil moisture, and rich organic matter content was conducive to the colonization and growth of C. geophilum.…”

The Ectomycorrhizal Fungi and Soil Bacterial Communities of the Five Typical Tree Species in the Junzifeng National Nature Reserve, Southeast China