We want to produce oil to store them in underground reserves of Iran in Middle East. We will create concrete and other underground systems to store trillions and trillions of barrel of oil. In order to oil we must create symbiotic Systems Of single cell and Multi Cells Ecosystems. You can think about Systems Biology Of every Cell is Engineered to create Perfect physiology and perfect physiology is engineered to create perfect Ecosystem. The ecosystem is engineered to produce oil and biofuels continuously and at high rate. The system also absorbs CO2 to transform it into Lipids, Complex lipids, Crude Oil, advanced petrochemical, and refined petroleum. So we genetically engineer every Cell and Every Organism to cooperate at Symbiotic level and at Ecosystem level to produce biofuels. We genetically and biologically engineer every Cellule and every organism in a manner to precisely engineer their intercellular and extracellular systems biology and other parameters. The genetic and biological engineer will also dictate their physiology. The system must be robust and capable of withstanding dangerous shifts in Ecosystems, Genomic, Proteomic, metabolite, system biology, and environmental factors. The Systems must be engineered to ensure high production rate and survival of the system. The system needs to dynamics to ensure they will survive complex proteomics, Genomics, metabolite, Biological, Chemical, generics, ecological, environmental, weather, sunlight, and other factors. For example, they may have to compete apoptosis if a single cell becomes dangerous to other systems. The doctrine Of System robustness must be at level of Systems biology, physiology, Multi organism, and etc. meaning if specific specie organism became dangerous there must be other cells to regulate or kill them. Something similar to plant physiology, immunology, and Animal Physiology. The systems must also employ biomaterial, biosynthesis, metabolite synthesis, nanosynthesis, genetic synthesis, and other synthesis method in mechanism of construction, process, maintenance, sieving, separation, synthesis, and Processing of all projects within ecosystem to produce oil. The system must employ methods such as nano self assembly, micro self assembly, and self assembly to build bioreactors, ecosystems, coral rifts, biofactories, and other systems necessary for production of biofuel and other biological products. The system must also employ programmable and remotely controlled material systems to influence mechanism of ecosystems, cells, systems, organisms, and other factors. For example, remotely controlled Nano Robot is directed by magnetic waves. It is sent to fabricate structures inside a pipe to use surface affinity of self assembled system to separate and process biofuel synthesis processes. We can also use material systems where fish and microorganisms have self assembled. I also have built master switches to release material in a controlled overtime manner. These material systems can be remotely influenced by chemicals, waves, biological, physical, environmental, shear pressure, and other factors to release chemicals at desired rates, frequency, and intensity to control ecosystem, systems, physiology, ecology, and processes. For example, we can release chemicals to influence genetic expression of specific cells within the ecosystem. Then the Genes will precisely orchestrate mechanisms to engineers systems biology to achieve desired effects. The material systems can be multi layers and multi release methods. For example, we can Nano engineer silicon materials where within them there are metabolites and chemicals. The Silicons are placed within Argentine gels and they are in bubbles within compressed protein systems. Then they can start degrading and releasing material at desired rate after being placed into the ecosystems. Far more complex systems can be used as master switches to create Ecological Shifts within systems. Again system must be dynamic and robust at all layers to protect ourselves from wrong shifts. There are many other methods I cannot recall. These systems need other species such as fish, human, donkey, Algae, Bacteria, viruses, and etc to operate the Bioreactors. Meaning we for example, have fish who make holes in the systems. We have fish who plant trees during tides on islands. We have humans who operate Machineries and refineries. We have microbes who monitor and operate molecular and physiological industrial projects. We have algae to nano synthesis and biosynthesis silicon, biofuel, and other metabolites. We also have microbes who produce metabolites and anabolite for Algae. We will also have Monkeys to genetically engineer microbes. We have fish to move biofuels. We have other species involved in technical chemical and biological works within the ecosystem. Then we collect the oils and other products and we store them in underground reserves for future. These ecological bioreactors are most important for production of industrial supplies, parts, supplies, products, fuels, and other goods used for old, new, and future technology. Iran already did it ten thousand years ago. I also have done parts of in laboratory. The products must be stored in Iran because we have very important future projects. We must also design, revive, build, and engineer new industrial systems for Iran and the World to use these type of products. Also stop selling oil and natural resources from Iran, Red Sea, Horn of Africa, cacauses, Central Asia, Middle East, West China, Afghanistan, Pakistan, India, Arabian Peninsula, North Africa, Caspian Sea, Persian Gulf, and West Russia. Iran built and produced them ten thousand years ago and stored them underground. Iran mines some of them from space. Then they sold them seven dollar a barrel. Stop mining and extracting oil and resources from region I mentioned. Iran must become the major beneficiary of industries built to use these technologies.

Makan Abazari Shahan Shah Iran,

Applied Ecosystem Engineering in Applied Industrial Dsiciplines