Significance of nitrogen-fixing actinorhizal symbioses for restoration of depleted, degraded, and contaminated soil

Abstract

Atmospheric nitrogen (N₂)-fixing legume trees are frequently used for the restoration of depleted, degraded, and contaminated soils. However, biological N₂ fixation (BNF) can also be performed by so-called actinorhizal plants. Actinorhizal plants include a high diversity of woody species and therefore can be applied in a broad spectrum of environments. In contrast to N₂-fixing legumes, the potential of actinorhizal plants for soil restoration remains largely unexplored. In this Opinion, we propose related basic research requirements for the characterization of environmental stress responses that determine the restoration potential of actinorhizal plants for depleted, degraded, and contaminated soils. We identify advantages and unexplored processes of actinorhizal plants and describe a mainly uncharted avenue of future research for this important group of plant species.

Keywords: Rhizobium; actinorhizal–Frankia symbiosis; atmospheric nitrogen fixation; environmental stresses; phytoremediation.