Our world respected Plant Molecular Scientists are using pioneering Seed Engineering processes to create Environmental Stress
and Pathogen resistant seeds and crops that grow
high volume, high quality produce
OUR SOLUTIONS
Seed Engineering For Crop Protection
We are working to provide seed companies and farmers with pioneering processes and stress resilience solutions they can use to create Environmental Stress and Pathogen resistant seeds and crops that grow high volume, high quality produce without using pesticides or chemicals
In addition, the seed engineering solutions can be reused between similar crops
(tubers: cassava, potato, sweet potato) (root vegetables: carrot, turnip, beet)
fruit (chilies, eggplant, zucchini, strawberries) and grain (rice, wheat, barley, oats)
Seed Farming
(Hybrid Seed Harvesting)
Our Seed Farming Strategy will use some of the IP from our Seed Engineering Strategy to develop, produce and patent hybrid seeds we can sell to seed companies and large farmers around the world.
When the hybrid seeds development, patenting and approval is complete,
we plan to use an outsource farming model, whereby we engage hundreds or even thousands of farmers with smallholding farms across South America to grow and harvest the hybrid seeds, so we can collect, dry and condition them before they are distributed.
Our Seed Farming Strategy has the potential to give thousands of smallholder farmers the opportunity to become an AGRISCIENTIFIC Seed Farming partner and manage their own seed farming businesses across South America.
Aquaculture
Aquaculture, also known as Aquafarming, is the farming of aquatic plants,
algae, fish, crustaceans, mollusks and other organisms and involves cultivating freshwater and saltwater populations under controlled conditions.
Reusing our Seed Engineering IP, we are currently investigating processes for bioengineering the accelerated growth rate and enriched nutritional content of seaweed so it can be used as low cost, high nutrition, mineral rich livestock feed.
Artificial Intelligence Genetic Sequence Gap Modelling Platform
We are designing and will soon start developing an artificial intelligence supercomputer platform that identifies gaps in human, animal and plant
genetic sequencing and then searches for the data to compile a complete library of genetic sequencing for all species of life on Earth. The data in our Genetic Sequence Library could then be accessed by researchers all over the world to give them the complete genetic sequence maps they need to do targeted research to develop cures for human, animal and plant diseases.
Plastic Pollution Breakdown
Biodegradable Plastics and Latex Development
Leveraging upon our experience in Seed Engineering Technology we plan to develop biodegradable plastics and latex from organic sources. We are also looking at options to develop safe ways of breaking down toxic plastic
pollution that is already polluting the environment, using organic resources
and converting the plastics into non harmful products that will no longer pose
a threat to nature.
‘Special’ Projects
(Engineer Seeds to grow crops on Mars)
There are 2 key phases to growing crops on Mars in Martian soil:
1). Transporting the high quality seeds safely through space to Mars
2). Ensure the seeds have been correctly engineered to survive the harsh Martian Environmental Stresses and be capable of producing high quality, high volume crops once planted in martian soil.
Phase 1 - We are in talks with the lead Biological Sciences Professors who led the research project which successfully investigated the underpinning molecular changes of transported seeds to and back from the International Space Station with British European Space Agency (ESA) astronaut, Tim Peake during his Principia mission. The project was a success and the post mission results positive
Phase 2 - AGRISCIENTIFIC to work closely with the relevant space and agriculture agencies to deliver the Seed Engineering strategy required to produce seeds specifically engineered to grow and thrive in a simulated martian environment that can accompany astronauts on the first mission to Mars and be planted on the Martian surface.
NASA’s research is ongoing and during 2021 the astronauts onboard the International Space Station successfully grew the first ever green peppers in space as part of their PH-04 experiment, over a 4 month period in the space stations (APH) advanced plant habitat, which contains over 180 sensors