Microlife S2 + Yucca
Microbial biotechnology system for ammonia control in Biofloc and RAS aquaculture — a biological process, not a chemical additive.
Full SOP, equipment & scale-up specification: in documentation
Mul Biotech Farms develops biological systems that solve real problems — soil degradation, water scarcity, climate resilience, and sustainable food production — through the IRBAS™ framework. Scientific digital platforms support implementation; biotechnology is the solution.
Mul Biotech Farms Private Limited develops biotechnology-based solutions for agriculture, environmental systems, regenerative biosphere infrastructure, climate resilience, carbon systems, and sustainable rural development. Artificial intelligence, GIS, remote sensing, and digital platforms are enabling technologies — not the company's identity.
Biological recovery systems rebuild soil health rather than masking decline with synthetic inputs.
Closed-loop aquaponic and hydroponic biotechnology cuts water use against open-field irrigation.
Agroforestry and regenerative biosphere systems build resilience into the land itself, not just the response plan.
Controlled-environment biotechnology raises yield reliability independent of weather variability.
Biochar activation and carbon stabilization systems turn biomass into a measurable carbon sink.
Aquaculture and soil biotechnology restore degraded systems rather than working around them.
IRBAS™ is not a single product — it is the architecture that integrates regenerative agriculture, agroforestry, environmental biotechnology, carbon systems, biomass, ecological infrastructure, and climate resilience into one connected biological system, applicable from a single acre to landscape scale.
Environmental restoration is the starting condition, not an offset applied after extraction.
Every component — soil, water, biodiversity, carbon — functions as part of one engineered system.
Design decisions are tied to quantifiable environmental impact, not aspirational claims.
Models that work on one acre and scale to landscape level, with waste minimized through circular resource use.
Land, water, carbon, and livelihoods are treated as one connected biological system — not separate service lines.
What backs the IRBAS™ approach in practice, not just in pitch material.
Founded on an M.Sc. Biotechnology background, not a generic agri-consulting pivot — systems are designed from the biology up.
Live satellite, soil, and climate feeds power decisions — not static maps generated once and left to go stale.
Carbon farming and MRV approaches are mapped against real frameworks (CCTS, Verra, Article 6.4) rather than invented metrics.
Field operations since 2019 generated the operational data that the IRBAS™ framework is built on — failure included.
Working scientific digital platforms and open repositories, not screenshots — the platforms below are the same ones used internally.
Registered standing with ITU, UNGM, and other bodies — verifiable identifiers, not affiliation claims alone.
Mul Biotech Farms Private Limited is the registered parent entity. Both arms below are owned and managed directly by Mul Biotech Farms — not separate, independently-run companies.
The same platforms used internally for monitoring — embedded live below, not screenshotted. These support biotechnology implementation; they are not the product itself.
Real-time performance and survival monitoring across active aquaculture sites.
Satellite-based monitoring, soil and climate analytics, and carbon sequestration mapping.
Artificial intelligence, GIS, remote sensing, IoT, environmental intelligence, satellite analytics, digital MRV, and machine learning strengthen biotechnology implementation at Mul Biotech Farms — they support the biological systems above; they don't replace them.
Each system below is field-tested at Mul Biotech Farms before being offered commercially. Full specifications (biological process, infrastructure, SOP, equipment, training, monitoring, and scale-up pathway) are published as they're documented.
Microbial biotechnology system for ammonia control in Biofloc and RAS aquaculture — a biological process, not a chemical additive.
Full SOP, equipment & scale-up specification: in documentation
Aquaculture biotechnology blend supporting fish health and water parameter stability under stress conditions.
Full SOP, equipment & scale-up specification: in documentation
Commercial NFT and DWC controlled-environment biotechnology configurations, deployed with training and SOP support.
Full SOP, equipment & scale-up specification: in documentation
Consulting and technical advisory support biotechnology implementation — they don't replace it.
Formal registration paired with global network participation — the foundation institutional partners check for first.
Formal registration identifiers, not just affiliation claims — verifiable against the issuing body.
Supports digital agriculture, ICT-enabled environmental monitoring, geospatial intelligence, and climate technology engagement.
Organization ID: 1200368086
Contact ID: 1200368087
Registered vendor for UN procurement opportunities in agriculture, environmental services, and climate technology.
Vendor ID: 1127495
National Accreditation Board for Education and Training registration supporting environmental and quality assurance credibility.
ORG078145
Registered proponent status with India's Ministry of Environment, Forest and Climate Change single-window environmental clearance platform.
Proponent Status: Active
The same eight-step process behind every IRBAS™ deployment, from a single-acre pilot to landscape-scale rollout.
Mul Biotech Farms has developed a growing library of standardized biological protocols, environmental monitoring frameworks, and field implementation methodologies derived from its work in regenerative agriculture, agroforestry, aquaculture, soil restoration, biochar systems, and environmental biotechnology.
These frameworks are designed to support consistent deployment, monitoring, validation, and replication of biological interventions across diverse environmental conditions.
The system integrates field observations, environmental intelligence, biological process engineering, and digital monitoring through the Environmental Intelligence Platform, enabling data-driven decision support and standardized implementation practices.
Whether you come in through Mul Biotech Farms or SequestraBionix Foundation, you're working with the same team. Most roles below can be done fully online.
Volunteer contributions are channeled through SequestraBionix Foundation, the Section 8 nonprofit arm of Mul Biotech Farms. This route suits students, early-career contributors, and anyone looking to build experience while supporting climate and agriculture research.
Internship and paid research roles run directly under Mul Biotech Farms. These are structured, output-driven engagements — suited to data analysts, researchers, and technical contributors who want measurable scope and (where applicable) compensation.
IRBAS™ didn't start as a slide deck. It emerged from real implementation at Unit Nasibpur (2019–2024) and district-level engagement across multiple states.
Mushroom cultivation, fish farming, aquaponics, and agroforestry were trialed side by side at Unit Nasibpur, generating the operational insight that now underlies IRBAS™ — not theory, but six years of what worked and what didn't.
Technical workshops in Kalimpong on aquaponics and climate resilience, and a fisheries outreach event in Murshidabad, extended farm-level learning into farmer awareness and aquaculture education at the district level.
Pangas, Magur, Chital, and Perch were trialed for survival rate, feed conversion, and operational efficiency — the kind of granular data that informs real aquaculture deployment, not just a species list.
The Environmental Intelligence Platform and Aquaculture Intelligence Platform translate weather, soil, and water-quality monitoring into structured, reportable data for carbon accounting and sustainability frameworks.
Independent press coverage of the Kalimpong aquaponics workshop — from district administration documentation to international trade press.
Coverage of the district administration's aquaponics push as a practical response to regional water scarcity, with comment from the district fisheries officer.
Read on Telegraph India →International controlled-environment-agriculture coverage of the Kalimpong deployment as a template for water-scarce mountain terrain.
Read on Vertical Farm Daily →Reporting on adoption projections among the district's ~1,500 registered fishery farmers and the closed-loop, zero-synthetic-fertilizer system design.
Read on Agri Times →Fish Farmers' Development Agency (Government of West Bengal) memo documenting the aquaponics workshop and training delivered by founder Soumodip Atanu Roy.
Seven years of compounding field experience, condensed into a single trajectory.
Research, frameworks, SOPs, and the scientific digital platforms themselves — open on GitHub.
Research, frameworks, SOPs and knowledge assets for the full IRBAS™ ecosystem.
Explore Repository →Source for the satellite monitoring and carbon sequestration mapping platform above.
View Platform →Digital measurement, reporting & verification platform for carbon and farm KPIs.
View Platform →Articles, institutional papers, and knowledge assets published under the Mul Biotech Farms ecosystem.
Browse Publications →A four-phase roadmap from repository completion to international collaboration.
Building the future of regenerative agriculture through science, technology, climate intelligence, and sustainable development.
Whether it's a DPR, a feasibility study, or a conversation about the IRBAS™ framework — reach out directly.