Revegetation on Tropical Steep Slopes after Mining and Infrastructure Projects: Challenges and Solutions

Abstract

Highlights: What are the main findings? Five frequently interacting abiotic constraints challenge steep slope revegetation Spontaneous vegetation establishment in natural steep slope habitats is a long-term process Specific plant functional groups show adaptations for establishing in steep slope environments What is the implication of the main finding? Different planting strategies, e.g., hydroseeding and geotextiles, enhance vegetation cover Combining soil conditioning, planting strategies, and carefully selected species enhances steep slope rehabilitation. The revegetation of steep slopes after mining and infrastructure projects is not an easy task. To enhance the effectiveness of revegetation projects, the present study aimed to review (i) specific challenges of steep slope revegetation, (ii) ecological succession patterns in similar environments, (iii) soil conditioning and revegetation strategies to enhance vegetation cover, (iv) the importance of microorganisms to enhance steep slope revegetation, and (v) the functional plant traits necessary to establish on steep slopes. In general, steep slopes are characterized by high bulk densities, potentially toxic elements, and low water and nutrient availability. Additionally, high temperature and elevated radiation constrain the soil conditioning and vegetation cover establishment. Lessons from ecological succession in natural steep slope habitats show that steep slope revegetation is a long-term process. Planting strategies, including hydroseeding and geotextiles, may enhance the implementation of vegetation cover. Different plant functional groups show adaptations necessary for establishment in steep slope environments, and mixtures of species containing different functional groups can promote diverse and resilient plant communities. Promising species may be retrieved from local rupestrian ecosystems, as these floras are adapted to shallow, oligotrophic soils. Further research on combining methods of soil conditioning with individual planting and/or seeding strategies of carefully selected species is necessary to enhance steep slope revegetation and rehabilitation, contributing to slope stability, erosion reduction, and carbon fixation in the long term.