Mycobiology.  2019 Dec;47(4):415-429. 10.1080/12298093.2019.1660297.

Fungal Endophytes of Alnus incana ssp. rugosa and Alnus alnobetula ssp. crispa and Their Potential to Tolerate Heavy Metals and to Promote Plant Growth

Affiliations
  • 1Département de Biologie, Université de Sherbrooke, Sherbrooke, Canada. Sebastien.Roy@USherbrooke.ca

Abstract

Soil contamination by metals is of particular interest, given that their retention times within the profile can be indefinite. Thus, phytostabilization can be viewed as a means of limiting metal toxicity in soils. Due to their ability to grow on contaminated soils, alders have repeatedly been used as key species in phytostabilization efforts. Alder ability to grow on contaminated sites stems, in part, from its association with microbial endophytes. This work emphasizes the fungal endophytes populations associated with Alnus incana ssp. rugosa and Alnus alnobetula ssp. crispa (previously A. viridis ssp. crispa) under a phytostabilization angle. Fungal endophytes were isolated from alder trees that were growing on or near disturbed environments; their tolerances to Cu, Ni, Zn, and As, and acidic pH (4.3, 3, and 2) were subsequently assessed. Cryptosporiopsis spp. and Rhizoscyphus spp. were identified as fungal endophytes of Alnus for the first time. When used as inoculants for alder, some isolates promoted plant growth, while others apparently presented antagonistic relationships with the host plant. This study reports the first step in finding the right fungal endophytic partners for two species of alder used in phytostabilization of metal-contaminated mining sites.

Keyword

Alder; dark septate endophyte; ericoid mycorrhizae; phytostabilization

MeSH Terms

Alnus*
Endophytes*
Hydrogen-Ion Concentration
Metals
Metals, Heavy*
Mining
Plants*
Soil
Trees
Metals
Metals, Heavy
Soil
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