Sign this petition to help protect these amazing creatures and their home!
More than hope: Oceanus provides a platform for which opportunity is limitless and possibilities abound. While oceanic cleanup is, and always will be, the core of what we stand for, the amount of plastic polluting our oceans is staggering. In fact, that overwhelming mass of plastic is an immeasurable source of raw material. As addressed in other areas on our website, Oceanus will use this material to construct an entirely new and revolutionary infrastructure on which to foster life, the benefits of which are myriad and diverse. From environmental rehabilitation to scientific research, on this page, we examine in detail the various expected perks that will arise as byproducts by virtue of Oceanus pursuing its primary objective.
To read more about the problem at hand, please, click here: www.titan-oceanus.com/the-problem.html To read more about Oceanus’ plan of action, please, click here: www.titan-oceanus.com/the-solution.html
- Stem the release of toxins into our global habitat:
– Plastic is essentially an everlasting floating sponge, soaking up most of the toxins it comes into contact with as it drifts along the currents of our oceans. When it is consumed by marine creatures, these contaminants enter their systems as well. By encapsulating this toxic waste in concrete, Oceanus neatly removes this threat—trapping those dangerous toxins, and preventing them from further poisoning our global ecosystem.
- Foster an environment in which scientific research may be conducted unimpeded:
– Bureaucratic red tape from local governments inhibit shocking amounts of developments from being made in the realms of scientific research. Invaluable progress is stymied by restrictions placed upon researchers, and their facilities, by the countries in which they reside. Outside of any country’s territorial waters, and therefore at complete liberty to govern itself, Oceanus is singularly located as to allow researchers utter freedom to conduct their work, sans bureaucratic nonsense. Previously stifled exploration in the fields of stem cell research, gene therapy, neuroprosthetics, gerontology, bionics, pharmaceuticals, biochemistry, nanotechnology, biotechnology, neuroscience, and more can thrive on Oceanus, without worry of heavy handed government regulation halting progression—the results of which will further the good of humanity at large.
– Because Oceanus is, in essence, sovereign, we will have the ability to forbid any and all activity which would be detrimental to marine wildlife within a 200 mile radius. This area will be devoted to the rehabilitation of the local ecosystem, free of the devastation caused by trawling, fishing, and the passage of polluting ships. This sizable aquatic reserve will also be a boon to marine biologists, who will have the rare opportunity to observe the effects of a fragile and fading ecosystem being restored from the base up.
- Encourage the restoration of marine wildlife:
– With 700 million tons of plastic debris occupying inestimable miles of oceanic habitat, native creatures are choked out of the ecosystem. Phytoplankton can not subsist on the little sunlight which filters through this nebulous, viscous muck, kicking off a starvation snowball effect which echoes all the way up to the top of the food chain. Clearing away this noxious inorganic cloud of microplastic will enable the phytokplankton to return, breathing life back into a gasping ecosystem.
– 70% of all the oxygen in our atmosphere comes from aquatic pelagic plant life (the rainforests only produce 28%, with the remaining 2% coming from other land- based sources). Phytoplankton alone is responsible for 50% of this vital life-giving element. Currently, an area of ocean around the size of the United States is being deprived of its ability to support phytoplankton. By allowing it to thrive once again, oxygen levels will begin to climb, fostering a healthier environment world- wide.
- Further the conceptualization and implementation of green living:
– The idea of green living is not new to humanity, and self-sustainability is a lifestyle many have found attractive throughout the ages. A project of this scope, however, which is not only self-sufficient, but has immense beneficial consequences for our world as a whole, has never before been attempted. Oceanus will become a model for future green communities, sustained wholly by environmentally friendly methods.
– A large part of creating this model is Oceanus’ use of alternative energy sources.Chief among these are solar and wind energy; we will also be among the first to harness the unlimited power of wave energy, and to produce biodiesel fuel from algae. By exercising these methods to their fullest, both time-tested and emerging technologies, Oceanus will be the first project of its kind powered entirely by green energy.
– In addition to providing an environmentally proactive platform capable of supporting a populous where none existed before before, a bed of fertile soil will be laid atop the buoyant modular blocks which form Oceanus’ foundation. In this soil, we will plant grass, trees, and crops (in an area where no soil dependent plants could thrive before), which will not only help to feed the population of Oceanus, but will also increase oxygen production in the area surrounding our facility. This will veritably boost overall planetary oxygen levels, which will help replenish ozone in our atmosphere, and in turn, by the same token, help to stem global warming.
While Oceanus is still in its research and development stage, we are actively seeking forward-thinking individuals to help both spread awareness of the problem at hand, and of Oceanus’ innovative solution. We are also currently taking applications for positions within the project itself. Some current fields of interest being: structural engineering, marine biology, chemistry, ecology, plastic recycling, polymer engineering, alternative energy, industrial mechanics, marine navigation, biochemistry, as well as any other pertinent field of expertise. Regardless of expertise, Oceanus welcomes all progressive, forward-thinking, consultants willing to lend vision to our project. If interested in becoming involved in any way, shape, or form; or, if you have any further questions or inquiries, drop us a line: www.titan-oceanus.com/contact-us.html
Prefer to email us directly? Please do, at: email@example.com We, of course, always look forward to hearing from those interested in our project.
Click on the link above to sign the petition!
Plastic ocean pollution is a serious problem. Small plastics are dangerous to all living creatures on this planet, and of course they are also dangerous to humans.
Waste accumulates in the place where they meet the sea currents curving under the influence of Earth’s rotation, creating a huge vortex. Is not it beautiful sea, but a thick soup full of waste. It is a global problem and must also be tackled globally through the UN.
A massive, swirling vortex of plastic refuse floats the currents of the Pacific Ocean, choking out marine wildlife on every level, from near microscopic phytoplankton to the gargantuan sperm whale. It’s a global crisis previously believed to be hopelessly beyond repair. Armed with a novel, research-based plan of attack, Oceanus is tackling the problem of rampant plastic pollution and turning it into a venture rife with invaluable possibilities.
Oceanus’ objectives are straightforward: clean the gyre, transform plastic debris into workable material, and build upon that; think of it as eco-righteous retribution. Our dynamic and efficient new ways of thinking about the gyre will pave the road to an infinitely healthier, more productive marine environment. With the goal to create a green-living community steeped from inception in the tradition of self-sustainability, Oceanus is embarking on a promising journey.
To learn more about Oceanus, or to explore how you can participate in the plastic recycling revolution, please visit: www.titan-oceanus.com
For years now, many have turned a blind eye to the blight we have inflicted upon our oceans. Overwhelmed by the task at hand, they have hastily labeled cleanup an impossibility. This is unacceptable. Here at Oceanus, we reject that defeatist mentality. Instead of allowing this momentous task to rout us, we have developed an entirely new approach in regards to the reversal of our plastic pollution problem.
The traditional approach to cleaning up the substantial amount of plastic debris floating in our gyres usually involves a fleet of ships (which would pollute the environment even more), hundreds of people, billions of dollars, and massive nets that would trap more marine life in them than plastic. Those who claim oceanic cleanup to be an impossibility are right about one thing: these conventional courses of action would not only be impractical, but inexecutable as well. So, then, what do we do? We think outside the box. We eliminate stale and outdated ideas. If we are going to tackle the problems of today for the betterment of tomorrow, we cannot employ the same archaic ways of thinking that we used when we created this mess.
A simple idea—one so obvious a solution that it’s mind-boggling it hasn’t been done before. There are obstacles impeding the cleanup of our oceans gyres? Well, eliminate the obstacles. It really is just that simple.
Instead of acquiring a fleet of ships, which would burn preposterous amounts of fossil fuel, thereby hastening global warming, we will acquire a single cargo ship. We then modify this standard cargo ship to fit our needs: we outfit this ship with solar paneling and mobile wind turbines to help with energy needs, consequently lowering our consumption of fossil fuel, and in turn, the pollution that comes with it; we will also be outfitting this ship with a specially modified skimmer, powered by a powerful dredge pump that has been designed to skim the surface of the gyre—negating the need to use inefficient nets that would do little more than snare marine wildlife; furthermore, we will be revamping the ship’s engine so that it can run on environmental friendly biodiesel blends, lessening our carbon footprint even more. In addition to these modifications, we will be outfitting the ship with one final component, to be addressed below.
We then set off for the gyre, a trip which will take approximately one week. Once there, we begin siphoning the top layer of the gyre (the majority of this plastic debris floats within ten meters of the surface of the water). The wonderful thing is, once we arrive at our destination, we have no further need to run the ship’s engines. The solar paneling and wind turbines will generate enough energy to supply power to the parts of the ship needing it. The only times we will be running the engines will the infrequent trips to and from the gyre.
By this phase of our operation, we will have removed and stored vast amounts of plastic debris from the water. Now, instead of burning unconscionable amounts of fuel going back and forth from gyre to land-based recycling facilities, we bring the recycling facility to us. We will have equipped our ship with all the necessary sorting and recycling machinery needed to recycle this plastic at sea—the final addition to Oceanus’ ship.
The ability to process and recycle the captured plastic from the gyre while still at sea is an integral part of Oceanus’ plan, because believe it or not, all of this plastic is going right back into the water from which it was extracted. On-ship, we will use our recycled materials to build what amount to sophisticated Lego blocks. These floating modular blocks will be constructed using specially designed casings, coated in a UV-resistant polymer (which will keep our materials from photodegrading), and filled with the recycled plastic we have been polluting our oceans with for generations now.
The blocks will then be encased in concrete, to both ensure structural integrity, and to contain any toxins that may have seeped into the recycled plastics, keeping them from further harming our environment. With each modular block built, our oceans will become cleaner, safer, and healthier. More than that, even, these former pollutants then become valuable tools with which to build an entirely green, self-sustainable, and environmentally conscious community, rife with possibilities.
Once the blocks are built, we fasten them together using special interlocking dowels. This creates a sound and stable structure, capable of supporting any kind of habitat to be built atop it. We are actually using some of the same technology that is currently being used in floating oil platforms around the world, known to be a reliable foundation for heavy structures on open waters. The difference is, they are destroying the environment, we are restoring it. By layering fertile soil over the blocks, we will also be creating the opportunity to raise crops on Oceanus, further ensuring its self-sustainability.
As our efforts to eradicate plastic pollution accumulate, so do our building materials. With each block locked into place onto Oceanus, our community grows. Environmental, medical, and pharmaceutical research facilities, private homes, and public gardens are built, all powered by solar, wind, and wave energy.
Our goals here at Oceanus are multifold. While our primary objective is, and always will be, oceanic cleanup, if we are going to tackle one of the largest and most critical environmental crises humanity has faced to date, we cannot be singular in our objective. In the pursuit of our primary goal, a multitude of other forward-thinking opportunities will present themselves. Our closed circle plan is teeming with benefits—the reduction of pollution, the resuscitation of marine wildlife, and all of the myriad of prospects presented by Oceanus’ floating real estate are just the broad strokes of this vision. Imagine a community of like-minded, progressive individuals pioneering an entirely new environmentally sound way of life, surrounded by an ever-expanding region of recovering ocean. This is Oceanus.
Plastic: a remarkable, cheap, and light-weight material, both durable and long lasting. This space-age polymer was once viewed as the path to a better and brighter future, and in many ways it has been. Without the invention and application of plastic, the advances our species has made over the past century in science, medicine, and technology would have been unattainable. We would not be living in the advanced world we are now, if it wasn’t for the development of plastics. That’s not even taking into account the affect plastic has on the luxuries of our daily lives, things like transportation, communication, food preservation, and the like. Plastic has not only helped to rocket humanity into an age of advanced science and technology, but has also helped to shape our day-to-day lives into ones of convenience.
Make no mistake though, there is a dark side to this seemingly miraculous material, one that could very well outweigh all the benefits provided by this resilient polymer—the same property that makes it such a popular substance: it’s longevity. Plastic was designed to last forever, and that’s exactly what it does.
Of the estimated 200 million tons of plastic littering our oceans, the majority can be found floating in one of the six major oceanic gyres around the world. These massive, slowly rotating gyres are the result of ocean currents converging in such ways that they create these colossal oceanic vortices. Now, imagine over 200 million tons of plastic debris thrown in the mix. The results are disastrous. The largest of these, the North Pacific Gyre, actually consists of two somewhat smaller gyres, creating a singular enormous whirling vortex of trash that spans an area larger than the United States. This is commonly referred to as the Great Pacific Garbage Patch.
One of the problematic properties of plastic is that it’s not biodegradable; it literally lasts forever. While plastic does not biodegrade, it does photodegrade: UV light from the sun breaks the plastic down into ever-smaller pieces of plastic known as microplastics. Do not mistake this process with biodegradation though. These microplastics break down into smaller and smaller pieces, but they always remain what they are: plastic—just smaller pieces that are increasingly harder to clean up. Over 90% of the plastic polluting our oceans is made up of microplastics smaller than your fingernail. This photodegradation continues right down to the microscopic level, where we can’t even see the individual pieces of plastic with the naked eye. Instead, we see this viscous toxic sludge where water should be. We are not only polluting our oceans, we are actually changing the chemical composition of them as a whole. That is a big deal.
These microplastics act like sponges. They soak up and retain all kinds of toxic chemicals, such as DDT and PCBs. Unable to distinguish their food from these microplastics littering our ocean, many marine animals end up dying with bellies so full of plastic that no food can pass through them. They literally starve to death with full stomachs. Imagine this—it’s a horrifying reality.
While many animals perish from the ingestion of virulent plastic, many others survive long enough to enter our food chain, permeating it with toxins from the bottom up. In the picture to the left is a rainbow runner, a popular game fish, that was caught off the coast of California, belly chock-full of toxic microplastic. Here’s the thing, all this plastic is going nowhere, except in the bodies of the fish we consume—unless we contain it. Here at Oceanus, that is what we plan to do.
This environmental crisis is exactly that, an environmental crisis—one of the largest to date. If our oceans go, we go. Experts predict that over the course of the next two generations, if nothing is done to stem this, and we continue in this disposable plastic throw-a-way culture we are so used to living in, with no oceanic cleanup, all of our oceans will be in the same conditions as the gyres are now, if not worse. It’s already starting to happen.
The irony of it all, is we cannot just cut plastic out of our lives. We live in a plastic world. We rely on plastic too much to just delete it from our culture. If we as a species were to just exsect plastic from our lives altogether, we would not only halt any and all medical, technological, and scientific progression, we would be retrogressing back to a tribal-like society.
Plastic is used in just about everything we interact with: communication, transportation, consumption, medicine, technology, modern luxuries, down to the device you are using to read this. We can’t just stop using plastic on a macro level like that. It’s not feasible, logical, or possible—something more must be done. While plastic restraint is quite important, as is the development of biodegradable plastics, it’s just not enough. We must focus on cleanup.
Hindered by a stale and banal way of thinking, oceanic cleanup has been virtually nonexistent. We need a fresh, new perspective. Something innovative and bold. The outdated, conventional ways of the past, in regards to dealing with this just aren’t cutting it (as is proven by the lack of notable action that has been taken thus far). Outside of the box thinking is what’s needed if we are going to tackle one of the largest environmental crises of our time. The traditional approach to gyre cleanup usually revolves around scores of ships trawling the ocean with huge nets,miles long, to collect plastic debris. Researchers and government agencies alike have faced a multitude of obstacles with that traditional approach—things like: the mass amount of manpower that would be needed to operate the scores of ships necessary for a project of this scale; the astronomical price it would cost to fund a project of that magnitude, most of which would be the tremendous amount that would be spent on the fueling of all those ships; also the environmental damage that would be wrought by the burning of all that fossil fuel, which could very well be even more harmful to our environment than if we had done nothing; and most importantly, the fact that the majority of what would be caught in those nets would be marine life, since all the microplastic (which is the real problem) would just slip right through any traditional net, and any net fine enough to collect microplastic would also collect plankton, a disastrous culling, as phytoplankton is the source of over 50% of the world’s oxygen. These are some of the reasons why many researchers and government agencies have all but given up on this daunting task, giving in to defeatism. Yes, when viewed in that light, under those guidelines, it does seem impossible… But there is still hope.
Plastic may have once been the path to a better and brighter future for all humanity, but our negligence as a species has come full circle. Plastic has now become our calamity. As when dealing with many things from 100 years ago, we must change our mindsets. We must change the way we think not only about plastic, about pollution, and about cleanup, but our conceptualization and approach as well. The time for stale thinking and timidity is over. It’s time we step up and handle this calamity we have beset ourselves with, not just for the survival and betterment of our species, but for the world as a whole.
We as a people created this disaster. We cannot sit idly anymore, letting this plastic refuse poison our oceans. If we do, we are not only poisoning our oceans, we are not only poisoning the marine life, we are not only poisoning ourselves, but we are poisoning generations to come. Is that the legacy we really want to leave?
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