What is bioaugmentation?
Bioaugmentation is an advanced biotechnological strategy that employs specialized microbial consortia to accelerate the biodegradation of contaminants in marine ecosystems. It is not just remediation; it is the restoration of the ocean's biological intelligence.
How it works
Sampling and Analysis
We collect water and sediment samples at the affected site. We use metagenomic sequencing to characterize the endogenous microbiota and determine specific toxicity profiles.
BacGoM Deployment
We inoculate our specialized bacterial consortia (BacGoM), metabolically optimized for the hydrostatic pressure and salinity conditions of the Gulf of Mexico.
Biodegradation
Real-Time Monitoring
Remote sensors and smart buoys track hydrocarbon degradation and the restoration of ecological balance in real-time, transmitting analytical data every 60 seconds.
BacGoM: The Biochemical Consortium
Our flagship technology, BacGoM, is not an isolated strain, but a synergistic metabolic consortium designed to catabolize complex hydrocarbon chains under extreme environmental conditions.
Hydrocarbon Digestion
Optimized metabolism for the degradation of heavy and light crudes.
Marine Adaptation
Resilience to high salinities and low temperatures characteristic of the seabed.
Nutrient Cycling
Restores nitrogen and phosphorus levels in the sediment after contaminant removal.
Validated Efficacy
90% degradation of Total Petroleum Hydrocarbons (TPH) in less than 120 days.
Scientific Backing
Intellectual property transferred from Mexico's top university to global industry.
UNAM Licensing
Deep Sea Genomic operates under an exclusive technology transfer license from the UNAM Institute of Biotechnology, ensuring world-class academic and methodological rigor.
Advanced Protocols
Our genomic infrastructure patents natural biomes, decoding their evolutionary advantages for ecosystem recovery applications nationwide.
Ethics Committee
Each deployment is supervised by an independent panel of experts to ensure zero or positive impact on the site's native biodiversity.