Restoration of severely degraded land presents a major challenge across a broad range of environments, particularly where both soil structure and ecological memory are lacking. The traditional approaches often fail in such settings, necessitating new solutions for ecosystem recovery. Biorestorer is a modular platform for ecological restoration, designed to create functional soils and catalyze synthetic succession in highly degraded areas. The approach begins with “synthetic pedogenesis”: the substrate is assembled using a combination of dual-fraction biochar (600 °C for rapid microbial activation and 800 °C for long-term stability), carefully selected basaltic minerals for nutrient and pH buffering, and rock-solubilizing bacteria (RSB) to accelerate mineral weathering. A protective mineral cover layer is applied to reduce evaporation and erosion. The second phase, “synthetic succession”, involves sequential microbial colonization, targeted mycorrhizal inoculation, and the introduction of pioneer plant species, supporting the emergence of a self-organizing, resilient ecosystem even on initially sterile substrates. The validated components of Biorestorer are known to support rapid microbial establishment, enhance nutrient availability, and maintain the substrate's structure under simulated extreme conditions. Biorestorer is currently a theoretical platform without comprehensive field testing, but it is composed exclusively of scientifically proven and independently validated components. The system’s modularity allows procedures to be tailored to the local conditions and various levels of degradation while minimizing the ecological risk. Unlike the conventional methods, Biorestorer can be applied where no viable soil or biological legacy exists, opening up restoration opportunities for post-industrial sites, mine tailings, eroded agricultural land, and other critical areas. Biorestorer thus represents a new, flexible approach to restoring severely degraded land and expands the possibilities of ecological engineering.
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Biorestorer: Engineered Soils and Synthetic Succession for Restoration of Degraded Land
Published:
02 September 2025
by MDPI
in The 2nd International Electronic Conference on Land
session Landscape Architecture and Land Restoration
Abstract:
Keywords: synthetic succession; engineered soils; land restoration; biochar; rock-solubilizing bacteria; degraded land; ecological engineering
