Come join us for the Georgia Organics Conference in Columbus Georgia this weekend. We’re honored to be sharing the bill with the likes of George Allen from Growing Power who will be the Keynote speaker. The Bioponica workshop will be held on Saturday. We’ll discuss the Food Plant and how to build a simple anaerobic digester and solids clarifier, not to produce methane but to create liquid fertilizer, extract water from food and grass waste and add atmospheric CO2 to your greenhouse.
Bioponica will share its evidence of sustainability. Including how much energy, water and fertilizer it takes to operate the system and how that can all be supplied with no recurring cost, once the digester and structure is in place. Sustainable urban farming is possible when an industry is built around food production.
The term sustainable farming has been creeping steadily into the vernacular, popping up in business plans, on food blogs, and at local farmers’ markets around the country. David Epstein, D.O. and Kenneth Lovell, P.E. of Bioponica™ hope to usher new farmers into the world of sustainable agriculture through their unique design and method of soilless, closed-loop, farming.
Epstein and Lovell were first introduced over dinner a few years back. Lovell’s stepdaughter worked at Epstein’s personal care distribution company and just knew that her father-in-law and the holistic doctor would hit it off. Lovell, a former naval officer and civil engineer, had built a hydroponic greenhouse in Alabama in the 1970s. Epstein, an osteopath interested in nutrition, had developed the aquaponic “Farm-in-a Box” aquarium aquaponic system and was trying to figure out how to scale it up when he met Lovell. By the time dessert was served, it was clear that the two would become business partners, and soon, Bioponica™ was born.
Epstein and Lovell have appropriately dubbed their approach to farming, bioponics. They tout bioponics as a new system that not only improves upon traditional hydroponic soilless growing methods in that it does not require external chemical inputs, but also aquaponics in that the system doesn’t require fish to act as the sole source of plant fertilizer in the system.
According to the two founders hydroponic farmers typically enrich water in their systems with chemical or organic fertilizers that must be purchased from specialty stores. Epstein and Lovell explained that the Bioponica method is almost completely self-contained allowing farmers to produce all the necessary nutrients from abundantly available resources. According to the company, yard waste, food waste, and even human urine can be introduced into the system to provide nutrients to take the place of store bought nitrogen, phosphates and minerals.
While Bioponica’s processes and systems are similar to aquaponics, they are unique in that they do not require fish to fertilize the growing beds. The self-contained systems instead provide naturally supplemented and fish-safe fertilizers.
According to Epstein, “aquaponic systems rely on an internal system of fish to exclusively provide fertilizer, yet maintaining fish can be a cumbersome challenge” as fish do not produce sufficient complete nutrients through their urine to sustain nutrient demand of many crops. He says the Bioponica™ process and systems are similar to aquaponics with naturally derived, fish-safe, plant fertilizers.
The company’s clients include entrepreneurs looking to get involved in the next generation of farming technology, high school and university educators, non-profit growers, and produce sellers including grocers and restaurants. Epstein and Lovell offer assistance in selecting crops and matching available forms of waste to the desired crops. They also help prospective users of their systems determine just how much kudzu, grass, or if you’re feeling adventurous, human urine will be needed to sustain the desired crops.
Clients can choose from a range of self-contained farming systems from a $1,200, 20-square foot module suitable for back porch hobbyists or a student grow lab to a $6,500, large-scale, three tier vertical growing system with upper level beds, two mid level deep-water fish or biofilter/clarifier/duckweed troughs, and two large fish tanks, which cycle nutrients from bottom to top and back again.
Over the next few years Epstein and Lovell plan to grow their business through licensing or franchising their designs and processes.
Currently, Bioponica is registered as a for-profit venture, though is exploring the possibility of becoming a social enterprise.
By teaching their approach and proving their concept, the two hope one day to revolutionize an approach to farming that is practical.
One of the greatest benefits of bioponics, as I define it, is that it addresses the challenges associated with the entire fish culture operation, including adequate fish biomass, waste and feed sources. For heavy feeding plants a pure aquaponic approach won’t cut it. They need minerals, higher phosphates, benefits from natural growth hormones, vitamins and rhizomal organisms. Bioponics solves this by cycling nutrients from waste.
What makes bioponics uniquely different that aquaponics is that while it supports fish, it does not require fish to fertlize the beds. A balanced system is like an ecosystem, supporting all varieties of life but not depending on one element to support the operation. Even though the nomenclature of “aquaponics (water-labor)” does not particularly speak to the definition of aquaponics it is a system that relies on fish. Without fish it there needs to be an alternative, varied and bioponic source. If done correctly, the source is ever abundant and free. Plant and fish foods can all be derived from this process: