Enhancing Biodiversity and Mitigating Environmental Impacts: Selecting Optimal Plant Species for Effective Mine Rehabilitation and Waste Management"
List the plants and identify their gaps that was not discovered yet
1. Eucalyptus species
- Potential for fast growth and soil stabilization
- Gap: Long-term ecological impacts on soil structure and biodiversity
2. Acacia species
- Nitrogen-fixing properties and drought tolerance
- Gap: Potential invasiveness in surrounding ecosystems
3. Phragmites australis (common reed)
- Ability to thrive in disturbed environments and absorb pollutants
- Gap: Potential negative impacts on native vegetation and water quality
4. Vetiver grass
- Efficient at stabilizing soil and preventing erosion
- Gap: Limited research on its interactions with other plant species and soil microbes
5. Jatropha curcas
- Biofuel potential and ability to thrive in arid conditions
- Gap: Unknown effects on soil fertility and water resources
6. etum purpureum (Napier grass)
- High biomass production and potential for fodder
- Gap: Impacts on soil nutrients and potential invasiveness in neighboring habitats
7. Leucaena leucocephala
- Nitrogen-fixing properties and multipurpose use for agroforestry
- Gap: Potential negative effects on soil microbes and native plant communities
8. Chrysopogon zizanioides (vetiver grass)
- Ability to prevent soil erosion and absorb heavy metals
- Gap: Limited research on its interactions with other plant species and wildlife habitat
9. Casuarina species
- Salt tolerance and ability to thrive in degraded soils
- Gap: Effects on water usage and potential disruption of local hydrology
10. Panicum maximum (guinea grass)
- High forage quality and potential for erosion control
- Gap: Long-term impacts on soil fertility and diversity of soil microorganisms