"Global warming is the observed increase in the average temperature of the Earth's atmosphere and oceans in recent decades and its projected continuation. Models referenced by the Intergovernmental Panel on Climate Change (IPCC) predict that global temperatures are likely to increase by 1.1 to 6.4 °C (2.0 to 11.5 °F) between 1990 and 2100.[1] The uncertainty in this range results from both the difficulty of predicting the amount of future greenhouse gas emissions and uncertainties regarding climate sensitivity."

"The population of western Asia is projected to more than double by 2050, going from 204 million to 418 million. Iraq's war-scarred population, for example, is expected to rise from 24.2 million to 60.5 million by mid-century. Yemen's population will jump from 19.4 million today to 71.1 million by 2050, becoming more populous than France or the United Kingdom are today or will be in 2050. And the Palestine Territory's high rate of natural increase will make the area more populous than Israel by 2050."

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MEXICO CITY (Reuters) - Mexico will enforce a "zero tolerance" policy against logging that threatens to wipe out the monarch butterfly and will act to stop a rare and ancient oasis from drying up, President Felipe Calderon said on Saturday.

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I once received a three page letter that my lawyer defined as libellous, from an academic colleague, saying I had no right to say what I was saying, especially in public lectures. Sadly, my experience is that universities are the most dogmatic and oppressive places in our society. This becomes progressively worse as they receive more and more funding from governments that demand a particular viewpoint.

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What happens if the Bushehr plant’s nuclear fuel rods are not reprocessed? The core has 3.5% of useful material at the start. There are 103,000 kg of fuel with 3,605 kg of U-235 and 99,395 kg of U-238. In one year 250 kg of U-238 becomes Pu-239. Ignoring second order effects, in 14 years and 5 months this reactor would have produced 3,605 kg of Pu-239. Now the concentration is 7.0%. We retrieve the fuel rods and make two fuel rods from one by adding U-238 of equal weight. That is, by sealing the Bushehr reactor for 14 years and 5 months, we create one more Bushehr reactor at the end of 14 years and 5 months. We need not extract the Pu-239 but just dilute the same with more U-238.

We can have enough energy and no bombs by doubling nuclear power every 15 years. Further we could convert 50 nuclear bombs to one Bushehr power plant by diluting the bomb material.

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In contrast to naturally occurring radioisotopes such as radium or C-14, plutonium was manufactured, concentrated, and isolated in large amounts (hundreds of metric tons) during the Cold War for weapons production. These stockpiles, whether or not in weapons form, pose a significant problem because, unlike chemical or biological agents, no chemical process can destroy them. One proposal to dispose of surplus weapons-grade plutonium is to mix it with highly radioactive isotopes (e.g., spent reactor fuel) to deter handling by potential thieves or terrorists. Another is to mix it with uranium and use it to fuel nuclear power reactors (the mixed oxide or MOX approach). This would not only fission (and thereby destroy) much of the Pu-239, but also transmute a significant fraction of the remainder into Pu-240 and heavier isotopes that would make the resulting mixture useless for nuclear weapons.[14]

Toxicity issues aside, care must be taken to avoid the accumulation of amounts of plutonium which approach critical mass, particularly because plutonium's critical mass is only a third of that of uranium-235's. Despite not being confined by external pressure as is required for a nuclear weapon, it will nevertheless heat itself and break whatever confining environment it is in. Shape is relevant; compact shapes such as spheres are to be avoided. Plutonium in solution is more likely to form a critical mass than the solid form (due to moderation by the hydrogen in water).

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Normally for electrical power production the uranium fuel remains in the reactor for three to four years, which produces a plutonium of 60 percent or less Pu-239, 25 percent or more Pu-240, 10 percent or more Pu-241, and a few percent Pu-242. The Pu-240 has a high spontaneous rate of fission, and the amount of Pu-240 in weapons-grade plutonium generally does not exceed 6 percent, with the remaining 93 percent Pu-239. Higher concentrations of Pu-240 can result in pre-detonation of the weapon, significantly reducing yield and reliability. For the production of weapons-grade plutonium with lower Pu-240 concentrations, the fuel rods in a reactor have to be changed frequently, about every four months or less.

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Russia withheld fuel for the reactor because of international concerns about Iran's nuclear ambitions. Iran and Russia will sign a deal in the summer of 2004 on the return of spent nuclear fuel Russia will provide for the Bushehr plant. The deal is intended to prevent the extraction of plutonium from spent fuel and its possible use in nuclear warheads. Russian officials had stated in the past that they will not ship fuel to the plant without an accord on the repatriation of spent fuel. US Under Secretary of State for Arms Control John Bolton had urged Russia not to supply nuclear fuel for Bushehr reactor until Tehran addressed the full range of concerns about Iran's nuclear-weapons efforts.

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Unlike fuel from fossil plants that discharge ash with negligible heat content, fuel discharged from nuclear reactors contains appreciable quantities of fissile uranium and plutonium (“unburned” fuel). These fuel elements must be removed from a reactor before the fissile material has been completely consumed, primarily because of fission product buildup. Fission products capture large numbers of neutrons, which are necessary to sustain a chain fission reaction. In the interest of economic utilization of nuclear fuels and the conservation of valuable resources, several countries have constructed reprocessing plants to recover the residual uranium and plutonium values, utilizing a variety of physical and chemical methods.

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Spent fuel from a power reactor is fuel which is no longer capable of efficient fission because of the loss of fissile material and the build up of fission products and actinides. It reaches this stage after about five years in the reactor. In some respects, the word 'spent' is inappropriate as only about 3% of the uranium originally in the fuel has been used up. Mainly because of the changes the fuel continues to undergo after removal from the reactor, the spent fuel from a power reactor is typically allowed to decay for about four years before reprocessing. This also reduces the amount of fission products which have to be dealt with by waste processing.

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Reprocessing plants are generally characterized by heavy reinforced concrete construction to provide shielding against the intense gamma radiation produced by the decay of short-lived isotopes produced as fission products. Plutonium extraction and uranium reprocessing are generally combined in the same facility in the civilian nuclear fuel cycle. ... All operations are performed in a facility that is usually divided into two structural sections (hardened and nonhardened) and two utility categories (radiation and ventilation/contamination). The hardened portion of the building (reprocessing cells) is designed to withstand the most severe probable natural phenomena without compromising the capability to bring the processes and plant to a safe shutdown condition. Other parts of the building (i.e., offices and shops), while important for normal functions, are not considered essential and are built to less rigorous structural requirements.

Radiation is primarily addressed by using 4- to 6-ft thick, high-den-sity concrete walls to enclose the primary containment area (hot cells). A proliferator who wishes to reprocess fuel covertly for a relatively short time -— less than a year would be typical -— may use concrete slabs for the cell walls. Holes for periscopes could be cast in the slabs. This is particularly feasible if the proliferator cares little about personnel health and safety issues. (italics mine)

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The idea of a self-adjustable neutron-nuclear mode in a fast uranium-plutonium reactor has been put forward by L.P.Feoktistov [1]. As processes of plutonium burning out and formation one take place simultaneously in a fast reactor, an equilibrium value of plutonium concentration exists at which these processes are counterbalanced. If critical plutonium concentration is less than equilibrium one, a self-adjustable mode of 1-st kind can be realized. Actually a reproduction of fuel takes place in the active zone. Such mode is easily realized in a reactor with metal fuel, it is realized a little bit worse for nitride and carbide fuel, but it is not realized at all for the most widespread oxygen fuel, while critical concentration exceeds equilibrium one.

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Evidently, if plutonium can be used as the fissile element in power production reactors, then by extracting it from the spent fuel rods, purifying it, and using it again in the same or another pile, it will be possible gradually to use all the uranium in the original fuel and not merely the small part that is fissile.

The Calder Hall reactor is designed not only to produce electric power, but also to manufacture plutonium; it is therefore called a “breeder” reactor because it “breeds” fissile material from the non-fissile part of the uranium. The favourable economics of this type of reactor design depend on the sale of the plutonium produced. At present this is all wanted by the government for military purposes, but eventually our nuclear weapon stockpile will be judged adequate, and then the value of the plutonium will depend on whether it can be used in a reactor.

The challenge in using it arises from its physical properties. These make it difficult to seal safely inside a fuel element so that it will not escape when the element is exposed to high and changing temperatures and intense bombardment by neutrons.

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Dr. Libby suggested that the difficulty of handling plutonium inside a reactor may be so great that it will be many years before it can become a practical process. If he is expressing the view of American experts, then either our scientists are in front of the Americans, or else we are trusting that the improvements in technique can be developed before our weapon reserves have been completed.

The report of the Conference on Advanced Reactor Systems held at Harwell on 30th November suggests that we may really have a significant lead. Sir John Cockcroft pointed out that fuel in “second stage” systems envisaged for commercial use in the late 1960s would be initially enriched with plutonium, but it should prove to be possible to recycle the plutonium through the reactor. This firm statement shows that in Britain plutonium is considered a useful nuclear fuel. So perhaps too much has been read into Dr. Libby’s speech; or perhaps we have found some ingenious way of controlling plutonium that has so far escaped the Americans.

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"In all of human history, no civilisation has ever voluntarily laid down its most powerful weapons. It remains to be seen whether ours can be the first.

We have not yet reached the mid-1960s' prediction of a world of 15 or more nuclear-weapon states, but we are over halfway there. And the trends indicated by recent events should have us all worried."

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May be we could do what others did not. Hope is life!

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Where there is breath, there is hope.

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For the poorer countries in the world, development is, rightly, nonnegotiable. But there's a critical choice. Will that development be high-carbon or low-carbon? A leapfrog economy will embrace the latter without passing through decades of traditional, high-carbon industrialization.

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Ice shed from the giant sheets covering Antarctica and Greenland is responsible for just 12% of the current rate of global sea level rise, according to a new review.

The authors emphasise that it is now clear that the ice caps are losing ice faster than it is being replenished by snowfall. But exactly why this is happening remains unknown, making it difficult to predict the extent of future sea level rises.

The remaining 88% of the current rise is due to the expansion of water as it warms, and melting from mountain glaciers and ice caps outside Greenland and Antarctica.

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"Our assessment confirms that just one type of glacier in Antarctica is retreating today – those that are seated in deep submarine basins and flow directly into the oceans," says Shepherd. "These glaciers are vulnerable to small changes in ocean temperature, such as those that have occurred over the 20th century and those predicted for the 21st century. A rise of less than 0.5 °C could have triggered the present imbalance."

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FC: Alarmists point to the rapidity of climate change as evidence of some sort that humans cause it. But you’ve shown that swift changes in weather patterns are normal. Could you describe the proof?

TB: The underlying philosophy of nature and world view of western education is called uniformitarianism. This holds that change is rapid and significant all the time. You only have to look at any climate record on any time scale to see this. For example, in 1970 the scientific consensus was that we were heading for another Ice Age. On a longer scale, notice that most of the record cold temperatures for Canada were in the late 19th century. Further back, we have the Little Ice Age with a metre of ice on the Thames and other evidence of cold from around the world. Vikings were farming in Greenland in soil that is now permafrost.

FC: What about open ice in the Arctic? Is that a new phenomenon?

TB: No. The Vikings were sailing in Arctic waters that are now permanent pack ice. Every year, the 16 million square kilometres of pack ice melts down to approximately 6 million square kilometres. So about 10 million square kilometres melts every summer. The records are only accurate from 1980 to the present, and they show some variability but little significant change. So far this winter, the ice has developed ahead of schedule and is almost at its maximum extent right now.

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"We weren't told about climate change," one man told me, "and the only news we received from local officials is that a flood like this will happen every five years. I don't understand climate change, but I do know that a big flood will come every five years." ...

A local woman joined in: "People here don't talk about climate change. I have read it somewhere in a book or in a newspaper, but I don't really know what it means."

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International forum
I had arrived at the first international forum for indigenous peoples in the Congo basin. The delegates were from settlements of ancient forest peoples - many commonly called pygmies.



Supplies can only reach Impfondo via the Oubangui river
Some indigenous rainforest communities dislike the word pygmy, others maintain they are proud of it.

They had come to the remote town of Impfondo in the far north of the Republic of Congo.

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"Of course we can take on new things that are good for us", says Stephane. "But our values are also good for the 21st Century", he says.

"We are a peaceful, egalitarian people who share and live at peace with others. These are values we ask others to copy."

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"So they have come to Impfondo on the Oubangui river to meet similar forest people from across central Africa to talk and to work out how to end discrimination."

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Mohammed Hussain Sharif said at high tide the sea water had flooded many places.

Reports were coming in that one densely populated island well over a square kilometre in size had been entirely covered by water.

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Addendum:
According to Wiki, Thorium is a superior nuclear fuel for energy generating than Uranium, though the project to develop it was abandoned 1973:

From
Thorium-based nuclear power:

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Thorium is considered the "most abundant, most readily available, cleanest, and safest energy source on Earth," adds science writer Richard Martin.[15]:7
*Thorium is three times as abundant as uranium and nearly as abundant as lead and gallium in the Earth's crust.[18] The Thorium Energy Alliance (TEA) estimates "there is enough thorium in the United States alone to power the country at its current energy level for over 1,000 years."[17][18] "America has buried tons as a by-product of rare earth metals mining," notes Evans-Pritchard.[19] Almost all thorium is fertile Th-232, compared to uranium that is composed of 99.3% fertile U-238 and 0.7% more valuable fissile U-235.
*It is difficult to make a practical nuclear bomb from a thorium reactor's byproducts. According to Alvin Radkowsky, designer of the world's first full-scale atomic electric power plant, "a thorium reactor's plutonium production rate would be less than 2 percent of that of a standard reactor, and the plutonium's isotopic content would make it unsuitable for a nuclear detonation."[15]:11[20] Several uranium-233 bombs have been tested, but the presence of uranium-232 tended to "poison" the uranium-233 in two ways: intense radiationfrom the uranium-232 made the material difficult to handle, and the uranium-233 led to possible pre-detonation. Separating the uranium-232 from the uranium-233 proved very difficult, although newer laser techniques could facilitate that process.[21][22]
*There is much less nuclear waste—up to two orders of magnitude less, states Moir and Teller,[4] eliminating the need for large-scale or long-term storage;[15]:13 "Chinese scientists claim that hazardous waste will be a thousand times less than with uranium."[19] The radioactivity of the resulting waste also drops down to safe levels after just a few hundred years, compared to tens of thousands of years needed for current nuclear waste to cool off.[23]
*According to Moir and Teller, "once started up [it] needs no other fuel except thorium because it makes most or all of its own fuel."[4] This only applies to breeding reactors, that produce at least as much fissile material as they consume. Other reactors require additional fissile material, such as uranium-235 or plutonium.[17]
*Thorium fuel cycle is a potential way to produce long term nuclear energy with low radio-toxicity waste. In addition, the transition to thorium could be done through the incineration of weapons grade plutonium (WPu) or civilian plutonium.[24]
*Since all natural thorium can be used as fuel no expensive fuel enrichment is needed.[23] However the same is true for U-238 as fertile fuel in the uranium-plutonium cycle.
*Comparing the amount of thorium needed with coal, Nobel laureate Carlo Rubbia of CERN, (European Organization for Nuclear Research), estimates that one ton of thorium can produce as much energy as 200 tons of uranium, or 3,500,000 tons of coal.[25] Coal, makes up 42% of U.S. electrical power generation and 65% in China.[26]
*Liquid fluoride thorium reactors are designed to be meltdown proof. A plug at the bottom of the reactor melts in the event of a power failure or if temperatures exceed a set limit, draining the fuel into an underground tank for safe storage.[27]
*Mining thorium is safer and more efficient than mining uranium. Thorium's ore monazite generally contains higher concentrations of thorium than the percentage of uranium found in its respective ore. This makes thorium a more cost efficient and less environmentally damaging fuel source. Thorium mining is also easier and less dangerous than uranium mining, as the mine is an open pit which doesn't require ventilation, unlike underground uranium mines, where radon levels can be potentially harmful.

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The world's recent carbon dioxide emissions are growing more rapidly than even the worst-case climate scenario used by the Intergovernmental Panel on Climate Change, say researchers.

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The EU is well aware of the risks of soaring food prices and, only last week, Development Commissioner Louis Michel warned of the crisis leading to a "humanitarian tsunami" in Africa.

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Mr Barnier told French radio on Monday: "We cannot, and we must not leave food for people... to the mercy of the rule of the market alone and to international speculation."

He is proposing four ideas:

• Production of more and better food to enable Europe to respond to the food challenge
• To bring together the efforts of various member states to help developing countries rebuild their agriculture
• To redirect public development aid towards the agriculture sector
• To ensure that poorer countries do not become the victims of the World Trade Organization's Doha round of negotations.

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