Introduction to Operation OASIS

The massive waste water problem that currently pollutes our bathing waters costing £billions to process throughout the world can be used to irrigate and reforest desert coastlines to induce rainfall.

Our aim is to use the return ballast capacity of super crude carriers which currently transport sea water half way around the world at great financial and environmental cost. This ballast is discharged into the sea, often introducing invasive marine species which affects the stability of indigenous species of flora and fauna.

The E.U. is legislating against this practice and tanker operators will be forced to seek an alternative.

Operation OASIS offers an exciting opportunity for ballast water. Transporting treated waste water to irrigate and reforest arid coastlines to induce rainfall has to be the way forward.

One tanker loaded with 300000 cubic meters of treated waste water would support 57 hectares of forest for a whole year.

Reclaiming deserts to enable people to feed themselves and grow great forests will offset the carbon emissions from shipping.

With global food shortages upon us we are already feeling the strain on our pockets in the developed world and renewable resources are in rapid decline. Drought is affecting all major food producing countries and wells are running dry. Water scarcity poses major problems for us and our children. We need to act fast in order to avert a major global catastrophe.

When the mighty river Amazon dries up and it's fish stocks die it is time to take stock on how we manage our fragile environment. For more detailed information visit our website and forum at: http://www.operationoasis.com

Friday 11 June 2010

Oil Leak from Damaged Well in Gulf of Mexico

Oil Leak from Damaged Well in Gulf of Mexico



An estimated 42,000 gallons of oil per day were leaking from an oil well in the Gulf of Mexico in late April, following an explosion at an offshore drilling rig on April 20, 2010. The rig eventually capsized and sank.
These images of the affected area were captured on April 25 by the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA’s Aqua satellite (top, wider view) and the Advanced Land Imager on NASA’s Earth Observing-1 (EO-1) satellite (bottom, close up).
In the top image, the Mississippi Delta is at image center, and the oil slick is a silvery swirl to the right. The oil slick may be particularly obvious because it is occurring in the sunglint area, where the mirror-like reflection of the Sun off the water gives the Gulf of Mexico a washed-out look. The close-up view shows waves on the water surface as well as ships, presumably involved in the clean up and control activities.
The initial explosion killed eleven people and injured several others, and a fire burned at the location for more than a day until the damaged oil rig sank. An emergency response effort is underway to stop the flow of oil and contain the existing slick before it reaches wildlife refuges and beaches in Louisiana and Mississippi.
The slick may contain dispersant or other chemicals that emergency responders are using to control the spread of the oil, and it is unknown how much of the 700,000 gallons of fuel that were on the oil rig burned in the fire and how much may have spilled into the water when the platform sank.
On April 25, 2010, the National Oceanic and Atmospheric Administration’s Emergency Response Division issued the following update on the Deepwater Horizon oil spill incident in the Gulf of Mexico: “An attempt to control the leaking well using a Remotely Operated Vehicle (ROV) was not successful, and the well continues to leak.”
Twice-daily images of the Gulf Coast are available from the MODIS Rapid Response Team in additional resolutions and formats, including a georeferenced file that can be used with Google Earth.
NASA image courtesy the MODIS Rapid Response Team. Caption by Rebecca Lindsey.
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