Remember, it won’t just be some meteor hitting the earth (although that might happen, too). Global warming is tantamount to boiling water on your stove. First, it gets warm, then warmer and warmer. Eventually, it gets hot. Then, the water boils. In other words, the catastrophe will brew for a while, causing political and economic instability, and a host of other ills, probably better described in biblical terms. Most of us, unfortunately, will wait until the next Hurricane Katrina is a few miles down the road before waking up.

Through the first half of the report, the authors cover global warming and climate change, in just about every way imaginable. Messrs. Sprott and Bambrough found nooks and crannies which may alarm you. Did you know the world’s largest aquifer, the Ogallala aquifer in the United States, is drying up because the glaciers, which created this aquifer, are receding? Fresh water is already in short supply for one-third of the world’s population. We may be surrounded by water, but could lack a glass of fresh water to drink. Ask the Saudis why they are building desalination plants as fast they can. Imagine if those arid conditions prevailed across more than 90 percent of the landmass of earth.

What happens as the earth’s temperature goes up? Increased urbanization, growing GDPs and demand for all the niceties that come with “civilization” have a price: more CO2 emissions. Deadly CO2 emissions, which raise the earth’s temperature, poison our air and kill our plants (and us), are very likely going to turn this earth into a potboiler before the century ends.

Nuclear Expansion Needs More Uranium

“This IS the perfect storm,” Kevin Bambrough warned, not as the abused cliché the term has become, but as an angry voice demanding decision-makers take to heart the gravity of CO2 emissions. “We need more nuclear reactors now,” he told us. He directed us to environmentalist Patrick Moore’s contention that the U.S. should reverse its energy source mix from an 80-percent dependence upon fossil fuels, relying instead upon nuclear energy for 60-percent of our electrical power supply.

Under the former Greenpeace co-founder’s scenario, Bambrough extrapolated the World Nuclear Association (WNA) projections for 2030. Nuclear power demand is then expected to soar from the current 368 Gw, produced by the world’s 441 nuclear reactors. He computed, using Moore’s premise of a 60-percent nuclear-reliance, that nuclear reactors would produce 18,900 Twh of the total power demand in 2030, which the WNA estimates might reach 31,500 Twh. To produce that much electricity, Bambrough calculated that by 2030, nearly 2700 nuclear reactors will be required across the planet. Envisioning the “potential” of a 600-percent increase in nuclear reactors online, about 25 years from now, Bambrough also calculated how much uranium would be required to fuel those reactors.

According to Bambrough, current global uranium mining production rests at about the 100 million-pound level. By 2030, if nuclear energy expands as Moore insists it should, then the world’s utilities will require on the order of about 1.3 billion pounds every year. With regards to a planetary build-up of nuclear energy, Bambrough wrote, “The supply of uranium may well be the most limiting factor.”

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