© Los autores. The Lima coast is highly affected by anthropogenic effluents from wastewater from contaminated urban rivers that flow into the coast. The objective of this study was to investigate the resistance to mercury and antibiotics, and the transfer of resistance to mercury by conjugative plasmids in 55 strains of Escherichia coli isolated of surface seawater from coastal Lima, Peru. The Minimum Inhibitory Concentration (MIC) was determined for various antibiotics and for mercury in the isolated strains. To confirm the plasmid resistance to mercury, the curing was carried out with 10% sodium dodecyl sulfate (SDS). The plasmid transfer assay by conjugation was performed using the E. coli DH5α as recipient strain only with the strains that showed sensitivity to mercury after curing. The extraction of the resistance plasmids was carried out only in the transconjugant strains resistant to mercury. 41 (74.5%) strains were resistant to mercury (HgR), with MICs between 30 μM (8.25 ppm) and 300 μM (82.5 ppm), of these, 33 were HgR by plasmids and of this last group, 14 were also resistant to antibiotics. Only 6 strains had conjugative plasmids with mercury resistance, showing a transconjugation frequency between 9.41x10 -4 and 4.76x10 -2 %. The high prevalence of HgR in E. coli strains isolated from the coast of Lima could be a public and environmental health problem. In this sense, congugative plasmids can contribute to the spread of mercury and/or resistance to antibiotics among bacterial communities in marine environments.