Completed Projects
Developmental Technologies LLC - ECO-AG irrigation systems technology, artificial delivery of water and nutrients to plant life using new processes developed by DTI over the last 7 years. In testing, ECO-AG reduces water usage and fertilizer requirements by responding directly to the needs of the plant while maintaining or exceeding normal yields.
Isle® Casino and Racing Pompano Park - ICRPP Agricultural Development Model to propose five key production components that have been identified and they were instrumental in their success including 1) Organic Compost Production, 2) Vegetable & Fruit Production,3) Mushroom Production, 4) Bee Honey Production and 5) Fish Production
Mothers’ Organic - Pelletizing Organic Fertilizer Project- 1) Building a facility for producing organic fertilizer pellet -2) Launching training and putting into practice on production of organic fertilizer by local resources persons – 3) Closely monitoring the result of the plots and continuous dissemination
Ongoing Projects
Aquaponics - Raising fish and growing vegetables at home.
Currently, I am developing a new aquaponics system and I will be able to help you to set up a system that combines conventional aquaculture (raising aquatic animals such as snails, fish, crayfish or prawns in tanks) with hydroponics (cultivating plants in water) in a symbiotic environment in your backyard. No chemicals or inorganic nutrients are required.
Watch this video serial
Episode One: https://youtu.be/6b4krJWlEU0
Episode Two: https://youtu.be/tzi7eKRCq-w
Episode Three: https://youtu.be/Qal6TfakE8o
Reishi Mushrooms
2019 Reishi Mycelium Experiment 2019
Mushrooms reproduce through spores. Mass growing of spores create mycelium. Because spores exist in any parts pf the mushroom body, it is possible to handpick tissue from different parts of the mushroom and develop mycelium.
Part I: https://youtu.be/x2B_m5EGCeE
In the natural world, the chances of mushroom spores germinating and then producing a mushroom are high. Usually, scientists use sterilized conditions and work in a laboratory, isolated from airborne contamination, the probability of success is much improved. However, the test proved that Reishi mushroom mycelium could be grown from any spore sources like body of the tissue or old block or used grain spawn.
Part II: https://youtu.be/gwZ0HRtql0U
As we indicated mushroom culture can be taken from spores or from tissue that could be found in fresh mushrooms, old substrates and any reminders of mushroom production like roots. The probability of growing mushroom mycelium in taking a tissue culture (clone) from a living mushroom is higher than using other sources of spore materials. With spores, a single strain must be selected from the multitude of strains created. In both cases, the result is a network of cells called, collectively, the mushroom mycelium. The hypothesis was correct, so that Reishi mushroom mycelium was grown from spores picked in fresh mushrooms, used block and grain spawn. However, most of the grain spawn inoculated was contaminated. So that sterilized conditions are required.
Part III: https://youtu.be/YwcW43ZA-rw