Through Direct Intake or Contact With Contaminated Sites, the Food Chain, Drinking Contaminated
Ground Water, a Reduction In Food Quality Due to Phyto-Toxicity, and a Lack of Land Suitable For Agriculture,
Heavy Metal Contamination Poses Serious Risks to Humans and Ecosystems. This Leads to Food Insecurity.
Therefore, Every Living Cell Must Generally Be Resistant to Heavy Metals. We Can Now Exploit the Potential
Of Biological Diversity to Clean Up Pollution, a Process Known As Bioremediation, Thanks To
Advancements In Science and Technology. the Following Study's Main Goal Is to Evaluate How Endogenic
Earthworm Pontoscolexcorethrurus and Its Gut Microbiota Interact With Heavy Metal Absorption From
Contaminated Soil Samples.The Following Study Uses a Variety of Materials and Techniques, Including The
Collection of Plant Material, the Isolation of Bacteria from Earthworm Guts, the Analysis of The
Concentration of Heavy Metals In Soil Samples Using Atomic Absorption Spectroscopy, As Well As Their
Characterization and Amplifying Metal Resistant Genes.The Findings of the Gram Staining Test Were Used
To Categorize Bacteria As Gram Negative Bacilli, Gram Positive Cocci, or Gram Positive Bacilli. Delftia And
S. Aureus Bacteria Were Then Cultured Under Cadmium Stress to See If Their Growth Patterns Underwent
Any Notable Changes.The Observed Changes In the Bacterial Communities of the Earthworms May
Therefore Be Used As a Warning Sign of Potential Soil Pollution, It Is Hereby Concluded ...