Biological solutions alive for environmental disasters
We design extremophilic biological consortia to degrade the world's most aggressive industrial pollution in both marine and terrestrial environments.
Differentiators
Applied science with academic rigor and tangible industrial results.
43 Bacterial Strains
Proprietary catalog of extremophilic microorganisms adapted to critical toxicity conditions.
Custom Consortia
We don't use generic solutions. We design specific bacterial communities for each pollutant.
UNAM Technology
Licensing of patents and protocols developed in Mexico's top excellence laboratories.
Real-Time Evidence
Verifiable results in less than 6 weeks in wastewater treatment plants (WWTP), mines, and high-complexity rivers.
Accelerated biological degradation speed
Our Specialized Solutions
WWTP
Optimization of activated sludge and COD/BOD reduction in industrial plants.
Water Bodies
Recovery of lakes and rivers contaminated by metals and organic matter.
Hydrocarbons
Biological degradation of spills in open sea and protected coastal soils.
Aquaculture
Pathogen control and water quality improvement for sustainable production.
Biomining
Biological leaching and treatment of mine tailings with extremophilic bacteria.
Scientific Process
From laboratory to ecosystem: a 5-stage critical path to ensure treatment effectiveness.
Scenario Simulation
We model bacterial behavior under thermal and pH variations before actual inoculation.
Genomic Monitoring
Real-time tracking of the bacterial population to ensure the consortium dominates the ecosystem.
Tangible Results
Oxidation Pond Recovery, Industrial Sector.
Spill Protocol
Elimination of 98% of heavy hydrocarbons in coastal soils through targeted bioaugmentation.
COD Reduction
Average obtained in the first 4 weeks of implementation in continuous flow systems.
Impact and Opportunity
The bioremediation market is growing at a compound annual rate of 8.2%. Deep Sea Genomic positions Mexico as a regional leader in environmental biotechnology export.