Phytoremediation potential of a few hydrophytic medicinal plants: A review

Abstract

Environmental pollution is one of the explicit challenges faced globally. Pollution by heavy metal contamination is a threat to the environment and is of critical concern. Rapid industrialization and urbanization have escalated the contamination rates by heavy metals. This rapid increase resulted in different health problems inducing toxicity and damaging the proper functioning of the brain, lungs, kidney, liver, blood composition, and other vital organs. Plants have evolved particular and very efficient mechanisms to obtain essential micronutrient metals from the environment and accumulate them up to a threshold of 10-15ppm. However, certain plants categorized as "Hyper accumulators," can take up toxic metal ions at levels beyond this limit. As a result, animals and people may suffer negative impacts from bio accumulating harmful heavy metals in the biota of riverine habitats. The "life-blood of the biosphere" is water and hence these heavy metals impact the ecological well-being of aquatic systems and animal species. Water dissolves various organic and inorganic substances and environmental toxins since it is a universal solvent. Thus, it highlights the significance of ecological restoration and phytoremediation. Phytoremediation is a technology that uses plants to degrade, assimilate, metabolize, or detoxify metal and organic chemical contamination. About five phytoremediation technologies have often been employed for soil decontamination by plants: phytostabilisation, phytodegradation, rhizofiltration, phytoextraction, and phytovolatilization. Articles from databases like PubMed and Scopus were reviewed to explore the potential plants for phytoremediation. Hydrophytes can be selected over other terrestrial plants because of their enhanced capability to accumulate almost 1450-fold the concentration of heavy metals in water. Another advantage of aquatic plants' rapid growth rate is increased biomass production, high pollutant uptake ability, and more pronounced purification because of their direct contact with water. They are also helpful in regulating oxygen levels and the food cycle by acting as a food source for small fish. In addition, some widely used aquatic medicinal plants such as Ceratophyllum demersum, Potamogeton pectinatus, Pistia stratiotes, Nelumbo nucifera, Pontederia crassipes & Bacopa monnieri were discussed. This review explores the phytoremediation potential of hydrophytic medicinal plants and through an insight to recreate and restore our ecosystem.