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Saturday, 23 November 2013

On a world's end.

A reproduction of the Watchtower Society's article
DELUGE
The catastrophic destruction of men and animals by an overwhelming flood in the days of Noah, 2370 B.C.E. This greatest cataclysm in all human history was sent by Jehovah because wicked men had filled the earth with violence. The survival of righteous Noah and his family, eight souls in all, together with selected animals, was by means of a huge ark, or chest.—Ge 6:9–9:19; 1Pe 3:20; see ARK No. 1; NOAH No. 1.
Extent of the Deluge. This was no local flash flood or cloudburst. In fact, the Greek word used in the Bible to refer to the Flood, or Deluge, is ka·ta·kly·smos′, a cataclysm. (Lu 17:27, ftn) Local floods come and go in a matter of days; this one lasted over a year, the greater portion of which was required for the water to subside. How unreasonable to believe that Noah spent perhaps 50 or 60 years building a huge vessel of approximately 40,000 cu m (1,400,000 cu ft) for the survival of his family and a few animals through a mere local flood! If only a comparatively small area was affected, why the need of bringing into the ark specimens of “every living creature of every sort of flesh” in order to “preserve offspring alive on the surface of the entire earth”? (Ge 6:19; 7:3) Definitely this was a global deluge, the like of which had never occurred before nor has since. “The waters overwhelmed the earth so greatly that all the tall mountains that were under the whole heavens came to be covered. Up to 15 cubits [c. 6.5 m; 22 ft] the waters overwhelmed them and the mountains became covered.” (Ge 7:19, 20) “The end of all flesh has come before me,” Jehovah said, hence “I will wipe every existing thing that I have made off the surface of the ground.” And it was just so. “Everything in which the breath of the force of life was active in its nostrils, namely, all that were on the dry ground, died . . . only Noah and those who were with him in the ark kept on surviving.”—Ge 6:13; 7:4, 22, 23.
Timing of the Deluge. The Deluge did not come suddenly without warning. Years of time were spent building the ark, time that Noah the “preacher of righteousness” also used in warning that wicked generation. (2Pe 2:5) Finally the time limit was up “in the six hundredth year of Noah’s life, in the second month, on the seventeenth day of the month.” The “male and female of every sort of flesh” had been brought into the ark with Noah’s family, as well as a sufficient food supply for all, and “after that Jehovah shut the door.” Then “the floodgates of the heavens were opened.” (Ge 7:11, 16) There was an incessant torrential downpour for “forty days and forty nights”; “the waters continued overwhelming the earth” a hundred and fifty days. (Ge 7:4, 12, 24) Five months after the downpour began, the ark “came to rest on the mountains of Ararat.” (Ge 8:4) It was nearly two and a half months later before “the tops of the mountains appeared” (Ge 8:5), another three months before Noah removed the ark’s covering to see that the earth had practically drained (Ge 8:13), and nearly two months later when the door was opened and the survivors set foot on dry ground once again.—Ge 8:14-18.
Noah and his family entered the ark in the 600th year of Noah’s life, the 2nd month (October-November), the 17th day. (Ge 7:11) One year later (a year consisting of 360 days) was the 17th day, 2nd month, 601st year. Ten days after that would be the 27th day of the 2nd month, when they came out; a total of 370 days, or parts of 371 separate days, spent in the ark. (Ge 8:13, 14) In the log that Noah kept, it appears he used months of 30 days each, 12 of them equaling 360 days. In this way he avoided all the complicated fractions involved had he used strictly lunar months consisting of slightly more than 29 1⁄2 days. That such calculations were used in the account is evident from the fact that a five-month period consisted of 150 days.—Ge 7:11, 24; 8:3, 4.
The Floodwaters. It has been said that if all the moisture in the atmosphere were suddenly released as rain it would not amount to even a couple of inches if spread over the earth’s surface. So from what source was this vast deluge of Noah’s day? According to the Genesis account, God said to Noah: “Here I [Jehovah] am bringing the deluge [or, “heavenly ocean”; Heb., mab·bul′] of waters upon the earth.” (Ge 6:17, ftn) Describing what happened, the next chapter says: “All the springs of the vast watery deep were broken open and the floodgates of the heavens were opened.” (Ge 7:11) So overwhelming was the Deluge that “all the tall mountains that were under the whole heavens came to be covered.”—Ge 7:19.
Where did this “heavenly ocean” come from? The Genesis account of creation tells how on the second “day” Jehovah made an expanse about the earth, and this expanse (called “Heaven”) formed a division between the waters below it, that is, the oceans, and the waters above it. (Ge 1:6-8) The waters suspended above the expanse evidently remained there from the second “day” of creation until the Flood. This is what the apostle Peter was talking about when he recounted that there “were heavens from of old and an earth standing compactly out of water and in the midst of water by the word of God.” Those “heavens” and the waters above and beneath them were the means that God’s word called into operation, and “by those means the world of that time suffered destruction when it was deluged with water.” (2Pe 3:5, 6) Various explanations have been offered as to how the water was held aloft until the Flood and as to the processes that resulted in its falling. But these are only speculative. The Bible says simply that God made the expanse with waters above it and that he brought the Deluge. His almighty power could easily accomplish it.
Since, as the Genesis account says, “all the tall mountains” were covered with water, where is all that water now? Evidently it is right here on the earth. It is believed that there was a time when the oceans were smaller and the continents were larger than they are now, as is evidenced by river channels extending far out under the oceans. It should also be noted that scientists have stated that mountains in the past were much lower than at present, and some mountains have even been pushed up from under the seas. As to the present situation, it is said that “there is ten times as much water by volume in the ocean as there is land above sea level. Dump all this land evenly into the sea, and water would cover the entire earth, one and one-half miles deep.” (National Geographic, January 1945, p. 105) So, after the floodwaters fell, but before the raising of mountains and the lowering of seabeds and before the buildup of polar ice caps, there was more than enough water to cover “all the tall mountains,” as the inspired record says.—Ge 7:19.
Effect on the Earth. With the Deluge great changes came, for example, the life span of humans dropped very rapidly. Some have suggested that prior to the Flood the waters above the expanse shielded out some of the harmful radiation and that, with the waters gone, cosmic radiation genetically harmful to man increased. However, the Bible is silent on the matter. Incidentally, any change in radiation would have altered the rate of formation of radioactive carbon-14 to such an extent as to invalidate all radiocarbon dates prior to the Flood.
With the sudden opening of the ‘springs of the watery deep’ and “the floodgates of the heavens,” untold billions of tons of water deluged the earth. (Ge 7:11) This may have caused tremendous changes in earth’s surface. The earth’s crust is relatively thin (estimated at between 30 km [20 mi] and 160 km [100 mi] thick), stretched over a rather plastic mass thousands of kilometers in diameter. Hence, under the added weight of the water, there was likely a great shifting in the crust. In time new mountains evidently were thrust upward, old mountains rose to new heights, shallow sea basins were deepened, and new shorelines were established, with the result that now about 70 percent of the surface is covered with water. This shifting in the earth’s crust may account for many geologic phenomena, such as the raising of old coastlines to new heights. It has been estimated by some that water pressures alone were equal to “2 tons per square inch,” sufficient to fossilize fauna and flora quickly.—See The Biblical Flood and the Ice Epoch, by D. Patten, 1966, p. 62.
What evidence proves that there truly was a global deluge?
Other possible evidence of a drastic change: Remains of mammoths and rhinoceroses have been found in different parts of the earth. Some of these were found in Siberian cliffs; others were preserved in Siberian and Alaskan ice. (PICTURE, Vol. 1, p. 328) In fact, some were found with food undigested in their stomachs or still unchewed in their teeth, indicating that they died suddenly. It is estimated, from the trade in ivory tusks, that bones of tens of thousands of such mammoths have been found. The fossil remains of many other animals, such as lions, tigers, bears, and elk, have been found in common strata, which may indicate that all of these were destroyed simultaneously. Some have pointed to such finds as definite physical proof of a rapid change in climate and sudden destruction caused by a universal flood. Others, however, favor explanations for the death of these animals that do not involve an earth-wide catastrophe. Proof that the Flood occurred is not dependent on such fossils and frozen animal remains.
Flood Legends. Such a cataclysm as the Deluge, which washed the whole world of that time out of existence, would never be forgotten by the survivors. They would talk about it to their children and their children’s children. For 500 years after the Deluge, Shem lived on to relate the event to many generations. He died only ten years before the birth of Jacob. Moses preserved the true account in Genesis. Sometime after the Flood, when God-defying people built the Tower of Babel, Jehovah confused their language and scattered them “over all the surface of the earth.” (Ge 11:9) It was only natural that these people took with them stories of the Flood and passed them on from father to son. The fact that there are not merely a few but perhaps hundreds of different stories about that great Deluge, and that such stories are found among the traditions of many primitive races the world over, is a strong proof that all these people had a common origin and that their early forefathers shared that Flood experience in common.—CHART, Vol. 1, p. 328.
These folklore accounts of the Deluge agree with some major features of the Biblical account: (1) a place of refuge for a few survivors, (2) an otherwise global destruction of life by water, and (3) a seed of mankind preserved. The Egyptians, the Greeks, the Chinese, the Druids of Britain, the Polynesians, the Eskimos and Greenlanders, the Africans, the Hindus, and the American Indians—all of these have their Flood stories. The International Standard Bible Encyclopedia (Vol. 2, p. 319) states: “Flood stories have been discovered among nearly all nations and tribes. Though most common on the Asian mainland and the islands immediately south of it and on the North American continent, they have been found on all the continents. Totals of the number of stories known run as high as about 270 . . . The universality of the flood accounts is usually taken as evidence for the universal destruction of humanity by a flood and the spread of the human race from one locale and even from one family. Though the traditions may not all refer to the same flood, apparently the vast majority do. The assertion that many of these flood stories came from contacts with missionaries will not stand up because most of them were gathered by anthropologists not interested in vindicating the Bible, and they are filled with fanciful and pagan elements evidently the result of transmission for extended periods of time in a pagan society. Moreover, some of the ancient accounts were written by people very much in opposition to the Hebrew-Christian tradition.”—Edited by G. Bromiley, 1982.
In times past, certain primitive people (in Australia, Egypt, Fiji, Society Islands, Peru, Mexico, and other places) preserved a possible remnant of these traditions about the Flood by observing in November a ‘Feast of Ancestors’ or a ‘Festival of the Dead.’ Such customs reflected a memory of the destruction caused by the Deluge. According to the book Life and Work at the Great Pyramid, the festival in Mexico was held on the 17th of November because they “had a tradition that at that time the world had been previously destroyed; and they dreaded lest a similar catastrophe would, at the end of a cycle, annihilate the human race.” (By Professor C. Piazzi Smyth, Edinburgh, 1867, Vol. II, pp. 390, 391) Notes the book The Worship of the Dead: “This festival [of the dead] is . . . held by all on or about the very day on which, according to the Mosaic account, the Deluge took place, viz., the seventeenth day of the second month—the month nearly corresponding with our November.” (By J. Garnier, London, 1904, p. 4) Interestingly, the Bible reports that the Flood began “in the second month, on the seventeenth day of the month.” (Ge 7:11) That “second month” corresponds to the latter part of October and the first part of November on our calendar.
Scriptural Confirmation. Stronger evidence of the historicalness of the Deluge than the pagan traditions of primitive people is the endorsement other Bible writers gave under inspiration. The only other place where the same Hebrew word (mab·bul′, deluge) occurs outside the Genesis account is in David’s melody where he describes Jehovah as seated “upon the deluge.” (Ps 29:10) However, other writers make reference to and confirm the Genesis account, as, for example, Isaiah. (Isa 54:9) Ezekiel also endorses the historicity of Noah. (Eze 14:14, 18, 20) Peter draws heavily upon the Deluge account in his letters. (1Pe 3:20; 2Pe 2:5; 3:5, 6) Paul testifies to the great faith Noah displayed in constructing the ark for the survival of his household. (Heb 11:7) Luke lists Noah in the lineage of Messiah’s forebears.—Lu 3:36.
Even more significant is what Jesus said about the days of the Deluge, as recorded by both Luke and Matthew. Far more than just a simple endorsement of the veracity of the Deluge account, Jesus’ words show the pictorial and prophetic significance of those ancient events. In answer to the disciples’ question, “What will be the sign of your presence and of the conclusion of the system of things?” Jesus said, among other things: “For just as the days of Noah were, so the presence of the Son of man will be. For as they were in those days before the flood, eating and drinking, men marrying and women being given in marriage, until the day that Noah entered into the ark; and they took no note until the flood came and swept them all away, so the presence of the Son of man will be.” (Mt 24:3, 37-39; Lu 17:26, 27) There is, therefore, abundant evidence from the inspired Holy Scriptures themselves to support the authenticity and genuineness of the Deluge account. It does not rest on mere traditions of men, on the folklore of primitive people, or on geologic and archaeological findings.

Friday, 22 November 2013

The walls have ears?


A reproduction of the Economist's article

 

 

 

Who’s afraid of Huawei?

The rise of a Chinese world-beater is stoking fears of cyber-espionage. Techno-nationalism is not the answer



CHINESE companies have started to win first place in global markets. Huawei has just overtaken Sweden’s Ericsson to become the world’s largest telecoms-equipment-maker. Even though many foreigners still cannot pronounce its name (some call it “Hawaii”, and the firm has even produced a video teaching people to say hwah-way), Huawei is becoming an increasingly powerful global player, capable of going head-to-head with the best in intensely competitive markets. It follows Haier, which is already the leading white-goods-maker; now Lenovo is challenging Hewlett-Packard as the world’s biggest PC-maker. Plenty more will follow (see article).
Huawei, a private firm, is a standard-bearer in China’s long march into Western markets. Its founder, Ren Zhengfei, who served as an engineer in the People’s Liberation Army (PLA), at first struggled to win customers even in China. But his company followed Mao’s strategy of using the countryside to encircle and capture the cities, and it has moved on to win foreign markets too: in Europe it is involved in over half of the superfast 4G telecoms networks that have been announced, and it has become a strong competitor in mobile phones (see article). The company is now a $32-billion business empire with 140,000 employees, and customers in 140 countries. It commands respect by delivering high-quality telecoms equipment at low prices.
They did it Huawei
But Huawei inspires fear too—and not just among its competitors. The company is said to be too close for comfort to the PLA. Westerners fret that the networks the firm is building are used by Chinese spooks to eavesdrop during peacetime and could be shut down suddenly during wartime. They see the firm as a potent weapon in China’s burgeoning cyber-arsenal.
It is a view that some governments are taking seriously. Earlier this year Australia blocked Huawei’s participation in a scheme to build a national broadband network in the country. The company has also faced opposition to its commercial expansion in India. And in America, where Huawei’s attempts to grow have often been stymied, a congressional committee that focuses on intelligence matters is putting the firm under a microscope; suspicions have been aggravated by a recent spate of cyber-attacks attributed to Chinese hackers.
Western governments are also suspicious of the subsidies, low-interest loans and generous export credits lavished on favoured champions, including Huawei. The European Commission is considering opening an investigation. Some people suppose that the Chinese government is helping Huawei win overseas contracts so that spies can exploit its networks to snoop on ever more of the world’s electronic traffic.
Arguments against imports always need to be viewed with caution, since they will be used by protectionists to keep emerging rivals out. Still, it is reasonable to worry about security in telecoms: recent reports have pointed to the efforts of Chinese state-sponsored hackers to vacuum up valuable Western commercial secrets on a massive scale. Western intelligence agencies are also alert to the risks of eavesdropping and cyber-attacks because they themselves are practitioners (a prime example being the Stuxnet virus, aimed at Iran’s nuclear programme). As for Huawei, a firm that controls a network’s creation and management is ideally placed to sneak in malware and sneak out sensitive data. Even though it is a private company with an awful lot to lose if it were caught spying, the power of the state in China’s version of capitalism means the West is right to be vigilant.
But banning Huawei from bidding for commercial contracts is wrongheaded, for two reasons. One is that the economic benefit of competition from China in general and Huawei in particular is huge. It boosts growth and thus wellbeing. Huawei’s cheap but effective equipment helped make Africa’s mobile-telecoms revolution possible.
Distrust and verify
The other reason for not banning Huawei is the dirty little secret that its foreign rivals strangely neglect to mention: just about everybody makes telecoms equipment in China these days. Chinese manufacturers and designers have become an integral part of the global telecoms supply chain. Blocking Huawei (or its rival Chinese telecoms giant, ZTE) while allowing gear from, say, Alcatel-Lucent or Ericsson on a network may make politicians feel good. But it is no guarantee of security. Huawei’s competitors have a vested interest in hyping concerns about it, while disguising their own reliance on Chinese subcontractors and on subsidies.
The answer is to insist on greater scrutiny all round, not just of Chinese firms. Governments should be crystal-clear about what conditions telecoms firms need to meet to win business—something America’s secretive security-review process does not do today. They should also do more to ensure that equipment is secure, no matter who makes it. That means demanding to know where hardware components and software come from, and requiring intrusive random inspections of code and equipment. America has no effective system of supply-chain checks. In Britain, by contrast, where BT is a big customer, Huawei has established a unit (run in close co-operation with GCHQ, Britain’s signals-intelligence agency) with security-cleared personnel, including former employees of GCHQ, who vet gear from China before it is installed. Such scrutiny will drive up costs, but these pale in comparison with those imposed by bans on Chinese firms, which diminish competition and push up prices.
Huawei can also help allay foreigners’ fears. The company’s opaque ownership structure and secretive culture have damaged its reputation. It needs to be far more open. One way to achieve this would be for the closely held firm to seek a listing on a global stockmarket—if not in America, then at least in Hong Kong. Greater openness would also help clarify the real threat that Chinese firms such as Huawei pose to America and other countries: that they are starting to out-innovate the home-grown competition

Healing a wounded planet


A reproduction of the watchtower Society's article


“Nature’s Wisdom”
 
BY AWAKE! WRITER IN JAPAN
THAT theme rang out from Aichi, Japan, the venue for Expo 2005, in which 121 countries participated. Visitors were encouraged to learn from nature and to “make serious efforts to discover paths to sustainable growth.” Located near Nagoya, in central Japan, the exposition site featured forests, ponds, and flowers. A unique attraction was a 1.6-mile- [2.6 km]long elevated walkway called the Global Loop. Almost 70 feet [21 m] wide, it afforded panoramic views, while at the same time preserving the natural beauty below.
At One With Nature
Resembling a massive cocoon, a woven bamboo outer “skin” made up of 23,000 lengths of bamboo covered the Japan pavilion, shielding it from the sun’s heat. The bamboo stems averaged 23 feet [7 m] in length, and the building measured 62 feet [19 m] high, 295 feet [90 m] wide, and 230 feet [70 m] deep, making it one of the largest bamboo structures in the world. The pavilion featured a 360-degree spherical video-imaging system. Inside the 42-foot [12.8 m] diameter sphere and completely surrounded by moving images, visitors could savor the sensation of being at one, so to speak, with the earth and its abundance of life.
Using multimedia displays, the Malaysia pavilion portrayed that country’s rain forests and coral reefs. In the Thailand pavilion, heartrending scenes of the December 26, 2004, tsunami reminded viewers that “man is not the master of nature.” Pointing to the specter of extinction, the South Africa exhibit featured the replica of a quagga foal, a zebralike mammal that roamed the plains of southern Africa until it was hunted to extinction in the 19th century.
In a refrigerated display adjacent to the Expo’s theme pavilion were the remains of a mammoth unearthed in the permafrost of Siberia, Russia, in 2002. Named the Yukagir Mammoth, after its discovery site, this example of an extinct species of elephant had two huge, curved tusks, and its eyes were partially open. Its head was still covered with skin and tufts of hair. An amazing specimen, the mammoth served as another poignant reminder of extinction.
A Better Future?
How can humans deal with threats to the future of our planet, such as pollution and global warming? Described as “the symbol of Expo 2005,” a massive “green” wall—called Bio-Lung—stood 490 feet [150 m] long and up to 50 feet [15 m] high. The wall was made up of 200,000 plants of 200 species, including flowers. It was suggested that a number of such “lungs,” which can be seasonally adjusted, could serve as a city’s respiratory organ and air filter, absorbing carbon dioxide and releasing oxygen.
The Expo also featured transportation that included hybrid buses powered by electricity. As these vehicles shuttled people about, the only emission from their exhausts was water. Another treat for technology lovers was Japan’s first commercially operated maglev linear train, named Linimo. Using powerful magnets, Linimo rode quietly and smoothly about a quarter of an inch [8 mm] above its rails. Also on display were battery-powered trams, bicycle taxis, and buslike vehicles that could operate with or without drivers. Speeding along in two’s or three’s, these futuristic vehicles used natural gas, which is cleaner than regular fuels.
Imagine turning organic waste, such as food garbage, into electricity and fertilizer. An energy plant at the site used a process called methane fermentation to do just that. Instead of incinerating garbage, the plant fermented it and turned it into methane gas, from which hydrogen was extracted. Fuel cells, which use chemical reactions to create electricity, oxidized the hydrogen to generate electricity. The by-products were water and fertilizer. In fact, the plant processed all the organic waste produced at the Expo, and the resulting electricity powered some of the pavilions.
Considerable research is being done in the field of robotics, with the goal of producing lightweight machines capable of serving as personal assistants to humans. Demonstrating some of the advances in robot technology, seven robots walked to center stage in one pavilion and drew in the crowds with music. Some played wind instruments, their “fingers” nimbly working the keys, while another played the drums. “Their movements were so smooth and agile that they could have passed for humans in disguise,” said an observer.
Two other high-tech inventions were biodegradable plastics made from cornstarch and similar products and nanobubbles—tiny gas bubbles less than 200 nanometers in diameter. A human hair is about 50,000 nanometers in diameter. Such tiny bubbles are normally very unstable and quickly disappear. Researchers in Japan, however, have developed technology for producing stable nanobubbles of oxygen, which enhance “the ability of fish and shellfish to adapt to environmental changes.” In fact, an aquarium saturated with nanobubbles of oxygen was able to accommodate certain species of both freshwater and saltwater fish! Researchers hope to find applications of this new technology in fish farming, agriculture, and other areas.
Is the World Listening?
Although the Expo stressed the need to listen to “nature’s wisdom,” by and large, the world is not giving ear. The voices of ignorance, greed, and corruption are drowning out opposing voices. As a result, the earth has become “the Wounded Planet,” as stated at one exhibit. But even the well intentioned have no reliable answers to mankind’s problems and the earth’s ecological woes. According to the Bible, these answers are beyond the scope of human knowledge and wisdom. (Jeremiah 10:23) Yet, the situation is far from hopeless. How so?
The Bible tells us that the very highest Source of wisdom—our Creator—will intervene in earth’s affairs before humans ruin his handiwork. (Revelation 4:11; 11:18) “Just a little while longer, and the wicked one will be no more . . . But the meek ones themselves will possess the earth, and they will indeed find their exquisite delight in the abundance of peace,” says Psalm 37:10, 11. True, we are wise to listen to nature, but we are much wiser to listen to the Creator by reading and applying his Word, the Holy Bible. (2 Timothy 3:16) All who do so will see our ailing planet thoroughly healed and transformed into a paradise.—Luke 23:43.

Wednesday, 20 November 2013

Junk DNA or Junk science? II




The new oil?

Read more here



Senior Associate Dean Bhaskar Chakravorti interviews Professor Richard Vogel, Chair of the Water: Systems, Science and Society program and Professor of Civil and Environmental Engineering
 
 
 
Bhaskar Chakravorti: My old firm, McKinsey, issued a widely publicized report in 2009 pointing to a “water gap” primarily driven by four countries that collectively account for 40 percent of the world’s population and 30 percent of global GDP - China, India, South Africa and Brazil. Each has drastically different water issues and collectively will account for 42 percent of projected water demand in 2030. While McKinsey did identify potential approaches to addressing the gap, the solutions are far from straightforward. This does not even cover regions such as the Middle East and North Africa, which is arguably among the most water-constrained region in the world. The sharing of water among countries is an issue fraught with tension in many parts of the world. Access to the sources of water yields immense economic and political power. I think it is not an understatement to say that the availability of clean water is at the intersection of global business demographics, geopolitics, technology trends. It is essential to survival. Worldwide demand for it is growing, many sources of water are drying up and there isn’t a clear strategy for how manage the supply. Are we getting to the point where clean water is the new oil?
Richard Vogel: It’s a compelling question, because there are more similarities than there are differences. There are differences, but the similarities are profound, and they predominate.
The issue with water is that we can’t live without it. We could live without oil because it’s a substitutable resource, but we can’t live without the benefits of oil. I am currently working with the World Bank, on an evaluation of the proposed Rogun Dam in Tajikistan, which is a large dam where the primary purpose is to generate hydroelectricity. So there are situations where water can be a substitute for oil. On the other hand, there are over a billion people who lack access to clean water and there is no substitute for clean water. There are certainly similar issues with oil; in many parts of the world, it’s in short supply.
If you Google “water crisis,” you get about 180 million hits. This global “water crisis” is in some ways analogous to what we once viewed as an oil crisis, and now see as a much broader energy crisis.
According to the USAID global water crisis site, of the 48 countries experiencing chronic water shortages by 2025, 40 are either in the Middle East and North Africa or in Sub-Saharan Africa. The twenty countries in the Middle East and North Africa are the worst off. The worldwide demand for water tripled in the past century. And it is currently doubling roughly every twenty-one years. This is clearly unsustainable, and the places that will be hit hardest are places that are already having serious water shortages.
You think of water as being different from oil because it’s renewable, but there are a lot of places where water behaves like a non-renewable resource, just like oil. If you go to the Ogallala aquifer in the Great Plains of the U.S, or to the Great Plains of China, or to Venice, or to many places in India, you see land subsidence and other results of ground water pumping. There are places all over the world which draw groundwater in a non-sustainable way, analogous to the way in which oil is drawn from the ground.
Such groundwater reserves, often termed fossil aquifers, are not being replenished at a rate equal or greater than the rate of withdrawal. There are generally two types of water of concern: renewable and non-renewable water. The most compelling issue is that most of the non-renewable water is being consumed by agriculture. If you look worldwide, a very large fraction of agricultural water is non-renewable. And of course, food and water are linked. In the same way that oil is a commodity that generates so many other products, water is used in almost every process you can think of, including energy generation, and even including oil. Both oil and nuclear power plants require water for cooling.
As far as the differences between oil and water are concerned, there are quite a few. Water has a religious and a spiritual component. Water is also a human right. And most importantly, it’s a pre-requisite for our balance of life. There’s no substitute for water. Also, water can sometimes be a substitute for oil; hydro-electric power is a case in point.
BC: As you look around at the pricing of water in different regions of the world, is the pricing reflective of the market conditions? A water gap should raise prices according textbook economics, which would, in turn, force us to better manage our usage of water, innovate, etc. Yet the prices haven’t reflected the gap. What’s the reason for that?
RV: That’s a historical problem with water, because water is not like other assets. First of all, there’s no substitute for water. There are different needs and demands and sources of water, but there are no substitutes for the commodity. If you think about the places where water scarcity threats are greatest or those places with the least clean water per capita, you end up thinking about the billion or so people that don’t have access to clean water. The demand curve for water isn’t what you learned in your economics courses, because you simply must have a certain minimum quantity of water to survive and because people don’t always behave rationally when it come to water due perhaps to its aesthetic, religious and/or spiritual value. It’s a challenge to price it; the price - quantity relationship just doesn’t behave the way economists would like it to. Many people will argue that privatization of water is ideal, but there are limits as to how feasible this is. You would hope for a more efficient system, but there are limits to how flexible a resource water is, like the absolute minimum threshold of water needed for survival.
BC: So there are political constraints that prevent prices from acting as market signals?
RV: There are political constraints. There are all kinds of constraints with water because it is essential for life. That’s the real problem.

Tuesday, 19 November 2013

Examining the source.


Read of the watchtower Society's article Here


 
 
The first Council of Nicaea (artist’s impression) paved the way for the Trinity doctrine
“The Christian Bible, including the New Testament, has no trinitarian statements or speculations concerning a trinitary deity.”—Encyclopædia Britannica.
 
“The doctrine of the trinity . . . is not a product of the earliest Christian period, and we do not find it carefully expressed before the end of the second century.”—Library of Early ChristianityGods and the One God.
 
“In order to articulate the dogma of the Trinity, the [Catholic] Church had to develop her own terminology with the help of certain notions of philosophical origin.”—Catechism of the Catholic Church.

No end in sight V


Making an argument or being argumentative?





 

Michael Behe replies to Ken Miller's misrepresentation of Intelligent Design and the concept of the mouse trap:

"The problem... is that it's not an argument against anything I've ever said. In my book, I explicitly point out that some of the components of biochemical machines can have other functions. But the issue remains - can you use numerous, slight, successive modifications to get from those other functions to where we are?

"Some of this objection seems a bit silly. Could a component of a mousetrap function as a paperweight? Well, what do you need to be a paperweight? You need mass. You need to exist. An elephant, or my computer, or a stick can be a paperweight. But suppose you go buy a paperweight. What would it look like? Most of them are nondescript, roundish things. None of them look anything like a precursor to a mousetrap. Besides, look at what he's doing: he's starting from the finished product - the mousetrap - and disassembling it and moving a few things around to use them for other puposes. Again, that's intelligent design!

"The question for evolution is not whether you can take a mousetrap and use its parts for something else: it's whether you can start with something else and make it into a mousetrap. The problem for evolutionists is to start with a less complex system and build a more complex system. Even if every component could theoretically have a useful function prior to its assembly into the mousetrap, you'd still have the problem of how the mousetrap becomes assembled."

...

"When people put together a mousetrap, they have the disassembled components in different drawers or something, and they grab one from each drawer and put it together. But in the cell, there's nobody there to do that.

"In molecular machines, components have portions of their shape that are complementary to each other, so they connect with each other in the right way. A positive charge can attract a negative charge, and an oily region can attract another oily region. So if we use th emousetrap as an analogy, one end of the spring would have to have a certain shape or magnetism that just happened to attract and fit with another component of the trap. They'd all have to fit together that way until you had the whole trap assembled by itself.

"In other words, if you just had the components themselves without the ability to bring the toher pieces into position, you'd be far from having a functioning mousetrap. Nobody ever addresses this problem in the evolutionary literature. If you do any calculations about how likely this could occur by itself, you find it's very improbable. Even with the small machines, you wouldn't expect them to self-assemble during the entire life-time of the earth. That's a severe problem that evolutionists don't like to address."

Manifest destiny?


"after their kind"


A reproduction of the Watchtower society's article

KIND
 
The creation record found in the first chapter of Genesis reveals that Jehovah God created earth’s living things “according to their kinds.” (Ge 1:11, ftn) Toward the end of the sixth creative day the earth was supplied with a great variety of basic created “kinds,” which included very complex forms of life. These were endowed with the capacity for reproducing offspring “according to their kind(s)” in a fixed, orderly manner.—Ge 1:12, 21, 22, 24, 25; 1Co 14:33.
The Biblical “kinds” seem to constitute divisions of life-forms wherein each division allows for cross-fertility within its limits. If so, then the boundary between “kinds” is to be drawn at the point where fertilization ceases to occur.
In recent years, the term “species” has been applied in such a manner as to cause confusion when it is compared with the word “kind.” The basic meaning of “species” is “a sort; kind; variety.” In biologic terminology, however, it applies to any group of interfertile animals or plants mutually possessing one or more distinctive characteristics. Thus, there could be many such species or varieties within a single division of the Genesis “kinds.”
Although the Bible creation record and the physical laws implanted in created things by Jehovah God allow for great diversity within the created “kinds,” there is no support for theories maintaining that new “kinds” have been formed since the creation period. The unchangeable rule that “kinds” cannot cross is a biologic principle that has never been successfully challenged. Even with the aid of modern laboratory techniques and manipulation, no new “kinds” have been formed. Besides, the crossing of created “kinds” would interfere with God’s purpose for a separation between family groups and would destroy the individuality of the various kinds of living creatures and things. Hence, because of the distinct discontinuity apparent between the created “kinds,” each basic group stands as an isolated unit apart from other “kinds.”
From the earliest human record until now, the evidence is that dogs are still dogs, cats continue to be cats, and elephants have been and will always be elephants. Sterility continues to be the delimiting factor as to what constitutes a “kind.” This phenomenon makes possible, through the test of sterility, the determining of the boundaries of all the “kinds” in existence today. Through this natural test of fertilization it is possible to uncover the primary relationships within animal life and plant life. For example, sterility presents an impassable gulf between man and the animals. Breeding experiments have demonstrated that appearance is no criterion. Man and the chimpanzee may look somewhat similar, have comparable types of muscles and bones; yet the complete inability of man to hybridize with the ape family proves that they are two separate creations and not of the same created “kind.”
Although hybridization was once hoped to be the best means of bringing about a new “kind,” in every investigated case of hybridization the mates were always easily identified as being of the same “kind,” such as in the crossing of the horse and the donkey, both of which are members of the horse family. Except in rare instances, the mule thus produced is sterile and unable to continue the variation in a natural way. Even Charles Darwin was forced by the facts to admit: “The distinctness of specific forms and their not being blended together by innumerable transitional links, is a very obvious difficulty.” (Origin of Species, 1902, Part 2, p. 54) This still remains true.
Whereas specific created “kinds” may number only in the hundreds, there are many more varieties of animals and plants on the earth. Modern research has indicated that hundreds of thousands of different plants are members of the same family. Similarly, in the animal kingdom, there may be many varieties of cats, all belonging to one cat family or feline “kind.” The same is true of men, of cattle, and of dogs, allowing for great diversity within each “kind.” But the fact remains that no matter how many varieties occur in each family, none of these “kinds” can commingle genetically.
Geological research provides clear evidence that the fossils held to be among the earliest specimens of a certain creature are very similar to their descendants alive today. Cockroaches found among the supposed earliest fossil insects are virtually identical to modern ones. Fossil “bridges” between “kinds” are totally lacking. Horses, oak trees, eagles, elephants, walnuts, ferns, and so forth, all continue within the same “kinds” without evolving into other “kinds.” The testimony of the fossils is in full accord with the Bible’s history of creation, which shows that Jehovah created the living things of the earth in great numbers and “according to their kinds” during the final creative days.—Ge 1:20-25.
From the foregoing, it becomes apparent that Noah could get all the necessary animals into the ark for preservation through the Flood. The Bible does not say that he had to preserve alive every variety of the animals. Rather, it states: “Of the flying creatures according to their kinds and of the domestic animals according to their kinds, of all moving animals of the ground according to their kinds, two of each will go in there to you to preserve them alive.” (Ge 6:20; 7:14, 15) Jehovah God knew it was necessary to save only representative members of the different “kinds,” since they would reproduce in variety after the Flood.—See ARK No. 1.
Following the recession of the floodwaters, these comparatively few basic “kinds” emerged from the ark and spread out over the surface of the earth, eventually producing many variations of their “kinds.” Although many new varieties have come into existence since the Flood, the surviving “kinds” have remained fixed and unchanged, in harmony with the unchangeable word of Jehovah God.—Isa 55:8-11.

Science or storytelling?


Areproduction of the Watchtower  Society's article

Is Evolution a Fact?
 
 
EVOLUTION is as much a fact as the heat of the sun,” asserts Professor Richard Dawkins, a prominent evolutionary scientist. Of course, experiments and direct observations prove that the sun is hot. But do experiments and direct observations provide the teaching of evolution with the same undisputed support?
Before we answer that question, something needs to be cleared up. Many scientists have noted that over time, the descendants of living things may change slightly. Charles Darwin called this process “descent with subsequent modification.” Such changes have been observed directly, recorded in experiments, and used ingeniously by plant and animal breeders.* These changes can be considered facts. However, scientists attach to such slight changes the term “microevolution.” Even the name implies what many scientists assert—that these minute changes furnish the proof for an altogether different phenomenon, one that no one has observed, which they call macroevolution.
You see, Darwin went far beyond such observable changes. He wrote in his famous book The Origin of Species: “I view all beings not as special creations, but as the lineal descendants of some few beings.” Darwin said that over vast periods of time, these original “few beings,” or so-called simple life-forms, slowly evolved—by means of “extremely slight modifications”—into the millions of different forms of life on earth. Evolutionists teach that these small changes accumulated and produced the big changes needed to make fish into amphibians and apes into men. These proposed big changes are referred to as macroevolution. To many, this second claim sounds reasonable. They wonder, ‘If small changes can occur within a species, why should not evolution produce big changes over long periods of time?’*
The teaching of macroevolution rests on three main assumptions:
1. Mutations provide the raw materials needed to create new species.*
2. Natural selection leads to the production of new species.
3. The fossil record documents macroevolutionary changes in plants and animals.
Is the evidence for macroevolution so strong that it should be considered a fact?
Can Mutations Produce New Species?
Many details of a plant or an animal are determined by the instructions contained in its genetic code, the blueprints that are wrapped up in the nucleus of each cell.* Researchers have discovered that mutations—or random changes—in the genetic code can produce alterations in the descendants of plants and animals. In 1946, Hermann J. Muller, Nobel Prize winner and founder of the study of mutation genetics, claimed: “Not only is this accumulation of many rare, mainly tiny changes the chief means of artificial animal and plant improvement, but it is, even more, the way in which natural evolution has occurred, under the guidance of natural selection.”
Indeed, the teaching of macroevolution is built upon the claim that mutations can produce not only new species but also entirely new families of plants and animals. Is there any way to test this bold claim? Well, consider what some 100 years of study in the field of genetic research has revealed.
In the late 1930’s, scientists enthusiastically embraced the idea that if natural selection could produce new species of plants from random mutations, then artificial, or human-guided, selection of mutations should be able to do so more efficiently. “Euphoria spread among biologists in general and geneticists and breeders in particular,” said Wolf-Ekkehard Lönnig, a scientist from the Max Planck Institute for Plant Breeding Research in Germany, who was interviewed by Awake! Why the euphoria? Lönnig, who has spent some 28 years studying mutation genetics in plants, said: “These researchers thought the time had come to revolutionize the traditional method of breeding plants and animals. They thought that by inducing and selecting favorable mutations, they could produce new and better plants and animals.”*
Scientists in the United States, Asia, and Europe launched well-funded research programs, using methods that promised to speed up evolution. After more than 40 years of intensive research, what were the results? “In spite of an enormous financial expenditure,” says researcher Peter von Sengbusch, “the attempt to cultivate increasingly productive varieties by irradiation, widely proved to be a failure.” Lönnig said: “By the 1980’s, the hopes and euphoria among scientists had ended in worldwide failure. Mutation breeding as a separate branch of research was abandoned in Western countries. Almost all the mutants exhibited ‘negative selection values,’ that is, they died or were weaker than wild varieties.”*
Even so, the data now gathered from some 100 years of mutation research in general and 70 years of mutation breeding in particular enable scientists to draw conclusions regarding the ability of mutations to produce new species. After examining the evidence, Lönnig concluded: “Mutations cannot transform an original species [of plant or animal] into an entirely new one. This conclusion agrees with all the experiences and results of mutation research of the 20th century taken together as well as with the laws of probability. Thus, the law of recurrent variation implies that genetically properly defined species have real boundaries that cannot be abolished or transgressed by accidental mutations.”
Consider the implications of the above facts. If highly trained scientists are unable to produce new species by artificially inducing and selecting favorable mutations, is it likely that an unintelligent process would do a better job? If research shows that mutations cannot transform an original species into an entirely new one, then how, exactly, was macroevolution supposed to have taken place?
Does Natural Selection Lead to the Creation of New Species?
Darwin believed that what he called natural selection would favor those life-forms best suited to the environment, while less suitable life-forms would eventually die off. Modern evolutionists teach that as species spread and became isolated, natural selection chose those whose gene mutations made them most fit for their new environment. As a result, evolutionists postulate, these isolated groups eventually developed into totally new species.
As previously noted, the evidence from research strongly indicates that mutations cannot produce entirely new kinds of plants or animals. Nevertheless, what proof do evolutionists provide to support the claim that natural selection chooses beneficial mutations to produce new species? A brochure published in 1999 by the National Academy of Sciences (NAS) in the United States says: “A particularly compelling example of speciation [the evolution of new species] involves the 13 species of finches studied by Darwin on the Galápagos Islands, now known as Darwin’s finches.”
In the 1970’s, a research group led by Peter and Rosemary Grant began studying these finches and discovered that after a year of drought, finches that had slightly bigger beaks survived more readily than those with smaller beaks. Since the size and shape of the beaks is one of the primary ways of determining the 13 species of finches, these findings were assumed to be significant. “The Grants have estimated,” continues the brochure, “that if droughts occur about once every 10 years on the islands, a new species of finch might arise in only about 200 years.”
However, the NAS brochure neglects to mention some significant but awkward facts. In the years following the drought, finches with smaller beaks again dominated the population. Thus, Peter Grant and graduate student Lisle Gibbs wrote in the science journal Nature in 1987 that they had seen “a reversal in the direction of selection.” In 1991, Grant wrote that “the population, subjected to natural selection, is oscillating back and forth” each time the climate changes. The researchers also noticed that some of the different “species” of finches were interbreeding and producing offspring that survived better than the parents. Peter and Rosemary Grant concluded that if the interbreeding continued, it could result in the fusion of two “species” into just one within 200 years.
Back in 1966, evolutionary biologist George Christopher Williams wrote: “I regard it as unfortunate that the theory of natural selection was first developed as an explanation for evolutionary change. It is much more important as an explanation for the maintenance of adaptation.” Evolutionary theorist Jeffrey Schwartz wrote in 1999 that if Williams’ conclusions are correct, natural selection may be helping species to adapt to the changing demands of existence, but “it is not creating anything new.”
Indeed, Darwin’s finches are not becoming “anything new.” They are still finches. And the fact that they are interbreeding casts doubt on the methods some evolutionists use to define a species. In addition, they expose the fact that even prestigious scientific academies are not above reporting evidence in a biased manner.
Does the Fossil Record Document Macroevolutionary Changes?
The previously mentioned NAS brochure leaves the reader with the impression that the fossils found by scientists more than adequately document macroevolution. It declares: “So many intermediate forms have been discovered between fish and amphibians, between amphibians and reptiles, between reptiles and mammals, and along the primate lines of descent that it often is difficult to identify categorically when the transition occurs from one to another particular species.”
This confident statement is quite surprising. Why? In 2004, National Geographic described the fossil record as being like “a film of evolution from which 999 of every 1,000 frames have been lost on the cutting-room floor.” Do the remaining one-in-a-thousand “frames” really document the process of macroevolution? What does the fossil record actually show? Niles Eldredge, a staunch evolutionist, admits that the record shows that for long periods of time, “little or no evolutionary change accumulates in most species.”
To date, scientists worldwide have unearthed and cataloged some 200 million large fossils and billions of microfossils. Many researchers agree that this vast and detailed record shows that all the major groups of animals appeared suddenly and remained virtually unchanged, with many species disappearing as suddenly as they arrived. After reviewing the evidence of the fossil record, biologist Jonathan Wells writes: “At the level of kingdoms, phyla, and classes, descent with modification from common ancestors is obviously not an observed fact. To judge from the fossil and molecular evidence, it’s not even a well-supported theory.”
Evolution—Fact or Myth?
Why do many prominent evolutionists insist that macroevolution is a fact? After criticizing some of Richard Dawkins’ reasoning, influential evolutionist Richard Lewontin wrote that many scientists are willing to accept scientific claims that are against common sense “because we have a prior commitment, a commitment to materialism.”* Many scientists refuse even to consider the possibility of an intelligent Designer because, as Lewontin writes, “we cannot allow a Divine Foot in the door.”
In this regard, sociologist Rodney Stark is quoted in Scientific American as saying: “There’s been 200 years of marketing that if you want to be a scientific person you’ve got to keep your mind free of the fetters of religion.” He further notes that in research universities “the religious people keep their mouths shut,” while “irreligious people discriminate.” According to Stark, “there’s a reward system to being irreligious in the upper echelons [of the scientific community].”
If you are to accept the teaching of macroevolution as true, you must believe that agnostic or atheistic scientists will not let their personal beliefs influence their interpretations of scientific findings. You must believe that mutations and natural selection produced all complex life-forms, despite the fact that a century of research, the study of billions of mutations, shows that mutations have not transformed even one properly defined species into something entirely new. You must believe that all creatures gradually evolved from a common ancestor, despite the fact that the fossil record strongly indicates that the major kinds of plants and animals appeared abruptly and did not evolve into other kinds, even over aeons of time. Does that type of belief sound as though it is based on fact or on a myth?
[Footnotes]
Dog breeders can selectively mate their animals so that eventually the descendants have shorter legs or longer hair than their forebears. However, the changes dog breeders can produce often result from losses in gene function. For example, the dachshund’s small size is caused by a failure of normal development of cartilage, resulting in dwarfism.
While the word “species” is used frequently in this article, it should be noted that this term is not found in the Bible book of Genesis, which uses the much more inclusive term “kind.” Often, what scientists choose to call the evolution of a new species is simply a matter of variation within a “kind,” as the word is used in the Genesis account.
See the box “How Organisms Are Classified.”
Research shows that the cell’s cytoplasm, its membranes, and other structures also play a role in shaping an organism.
Lönnig’s comments in this article are his own and do not represent the opinion of the Max Planck Institute for Plant Breeding Research.
Mutation experiments repeatedly found that the number of new mutants steadily declined, while the same type of mutants regularly appeared. Lönnig deduced from this phenomenon the “law of recurrent variation.” In addition, less than 1 percent of plant mutations were chosen for further research, and less than 1 percent of this group were found suitable for commercial use. The results of mutation breeding in animals were even worse than for plants, and the method was abandoned entirely.
Materialism, in this sense, refers to the theory that physical matter is the only or fundamental reality, that everything in the universe, including all life, came into existence without any supernatural intervention in the process.

Barrande's Skepicism.


A reproduction of the Watchtower Society's article



BY AWAKE! CORRESPONDENT IN THE CZECH REPUBLIC
“MORE than a kingly gift, the most gallant homage to have been paid to the Czech nation!” That is how a journalist described the legacy that the Czech National Museum received from Joachim Barrande, the noted 19th-century paleontologist. Barrande’s “kingly gift” to the Czech people consisted of an important collection of more than 1,200 crates full of fossils, which he had spent decades collecting, studying, and classifying. While you might not be inclined to rhapsodize over a collection of old fossils, Barrande’s gift is far more valuable to paleontologists than a treasure trove!
A paleontologist is a scientist who uses fossil remains to study life in past geologic periods. Paleontology is a relatively new science. During the Middle Ages, fossils were dismissed as “jokes of nature” or were thought to be remains of dragons. By the 18th century, however, people in the upper classes were beginning to take an interest in collecting fossils. Scientists in many countries also began to take an interest in the study of fossils. Joachim Barrande was one of them. What do we know about Barrande, and what did he contribute to the field of paleontology? Since he was a contemporary of Charles Darwin, what were Barrande’s views on Darwin’s theory of evolution?
Barrande Makes a Career Change
Joachim Barrande was born in 1799 in Saugues, a small town in southern France. He studied engineering in Paris, specializing in road and bridge construction. At the same time, he took courses in natural science. It soon became apparent that he was gifted in that field. After graduation Barrande began working as an engineer, but when he caught the eye of the French royal family, he was invited to tutor the grandson of King Charles X. The subject—natural science. In 1830, as a result of a revolution in France, the royal family was exiled and eventually went to Bohemia. Barrande joined them there. It was in Prague, the capital of Bohemia, that Barrande again took up engineering.
As an expert in road and bridge construction, Barrande was assigned to survey the countryside around Prague for a proposed horse-drawn railway. While he was going about his work, Barrande noticed that there was an abundance of fossils in the area. Taking a closer look, he was amazed to discover striking similarities between the strata of Bohemia and the strata of Britain. His passion for the natural sciences rekindled, Barrande ultimately quit engineering and, for the next 44 years, devoted his life to the study of paleontology and geology.
Barrande’s classroom was the fossil-rich countryside of central Bohemia. Each day brought new discoveries of exceptional beauty and variety. By 1846 he was ready to publish the initial results of his research. In this work he described and classified new trilobite species, which once inhabited the bottom of the sea.
Barrande continued collecting and studying fossils. Then, in 1852, he published the first volume of a monograph, or treatise, entitled The Silurian System of Central Bohemia.* Volume I discussed the trilobites. This was followed by volumes devoted to crustaceans, chondrichthyes, cephalopods, lamellibranchs, and other fossilized organisms. During his lifetime he published 22 volumes in which he described in detail more than 3,500 species. The work is one of the largest monographs in the field of paleontology.
Meticulous and Disciplined
Barrande’s methods set him apart from other researchers. To his work as a naturalist, he brought the discipline of an engineer. As a designer, he would not tolerate inaccurate calculations or drawings. As a paleontologist, he strove to attain a very high degree of precision in his drawings, taking great pains to ensure that they were accurate down to the finest detail. He personally retouched many of the drawings that were included in his monograph, although the originals had been sketched by a professional artist.
Barrande’s meticulousness, however, was not confined to his drawings. After each volume of his monograph had been typeset, he personally checked the text. If he was not satisfied, he sent the offending parts back to be reset. Barrande’s goal was to ensure that every work he published was as accurate as possible. He succeeded admirably. Today, almost 150 years later, researchers still use the Silurian System as a reference work.
What About Evolution?
When Charles Darwin’s book The Origin of Species was published in 1859, many scientists jumped on the evolution bandwagon. Barrande, however, did not. From the beginning, he rejected the evolution theory because he saw nothing in the fossil record to convince him that the theory was true. Barrande said that the purpose of his work was to “find out reality and not to construct ephemeral theories.” (Italics ours.) Indeed, on the title page of each volume of the Silurian System, he inscribed the motto: “C’est ce que j’ai vu” (This is what I have seen).
Barrande did notice that the bodies of many animals were in different stages of development. However, he correctly concluded that they were of the same species but of different age. He saw no evidence that one kind of animal had evolved into another. Summing up Barrande’s philosophy, the book A Petrified World says: “Barrande’s whole work is . . . built on facts, and that is its most precious feature. At this stage of basic research, there is no room for speculation or guessing or for general theories either.”
A Humble Man Gives a “Kingly Gift”
Despite his great success, Barrande did not fall prey to the snare of pride or dishonesty. Although he was at ease with the intelligentsia of Europe and spoke several languages, he never lost the common touch. He learned Czech in order to be closer to the people. This helped him in his work, as it allowed him to communicate with the stone quarriers who helped him acquire new specimens for his collection.
Barrande was a religious man, and what he found in nature strengthened his faith in God. He called fossils “medallions of the first creations.” Moreover, in the introduction to his work, he referred to the emotions that moved him to keep studying: “It is a feeling of admiration, satisfaction, and recognition that pervades and charms the one who discovers or contemplates a part of the works of the Creator.”
Joachim Barrande died in 1883, leaving behind scientific material of uncommon value. His meticulous approach to his work is appreciated by scientists the world over. Because of the realistic, factual approach he took, Joachim Barrande’s carefully documented discoveries are still serving researchers today. From a scientific standpoint, it was not an exaggeration to describe Barrande’s legacy as “more than a kingly gift.”

On science and scientism

A reproduction of 'salvo's' article
 
 
Blinded by Science
Believe Science Has All the Answers? Evolutionary Biologist Austin Hughes Says, Open Your Eyes


Keep in mind now that Dr. Austin Hughes, Carolina Distinguished Professor of Biological Sciences at the University of South Carolina, is an evolutionary biologist, which pretty much means that he accepts evolution as an adequate mechanism for producing the diversity of life on earth. This also means that he is no friend to intelligent design, which he calls a "biologically naïve" theory. So perhaps it's his background in philosophy, which he studied at Georgetown University and then later at Harvard, that makes him so hostile to the idea that science alone can render truth about the world. Whatever the reason, you won't find a more learned, eloquent, or impassioned opponent of contemporary scientism.
When did you become aware that scientism was a problem in the scientific community?
I guess it was when I started my graduate program in philosophy at Harvard. That's when I first encountered logical positivism, and I must admit that I found it very attractive at first. It was interesting to talk about science and the philosophy of science. In fact, I was motivated to begin studying science because everyone at Harvard was always talking about it like it was the only thing that mattered. I wanted to work in a field that was worthwhile, so I decided to become a scientist myself.

What changed your attitude toward scientism?
Well, when I first went back to school and started taking all of the undergraduate science courses that I had never taken—I had been a philosophy major at Georgetown—I felt that the world of science was much more tolerant than other academic fields. For example, my professors did not seem to condemn people for their religious beliefs like they had at Harvard. However, I eventually realized that my scientific peers weren't any more tolerant than my philosophy professors had been; it was just that they assumed that no one in their field subscribed to religion. They found the idea so ridiculous that it was a complete non-issue. It was then that I started to find scientism very narrow and at times even intolerant.
Do you think the field of science has always been like this?
No. My professors, while mostly atheists, nevertheless believed that there were certain kinds of questions that science wasn't qualified to address. I remember reading a book in the mid-seventies by Peter Medawar, a British biologist who won the Nobel Prize in Physiology or Medicine, which admitted that there were certain kinds of questions that science couldn't answer. Medawar even stated in the book that he himself did not have a metaphysical bone in his body, but that he respected those who did. This kind of view wasn't so uncommon among the scientists who were my teachers, but now things are different.
How so?
Well, now you have writers and speakers such as Richard Dawkins who have made a career out of popularizing scientism. They are publicly proclaiming in the name of science that there's no knowledge but science and that science has disproved the existence of God. Today there's this new niche for people who claim the authority of science and yet pontificate on things that have nothing to do with science and in which they have no training. When it comes to philosophy and
theology, for instance, Dawkins makes errors all the time because he doesn't know what he's talking about.
If it's real science, then it's not scientism. Scientism is taking the mantle of science and claiming for it an authority that it doesn't have. Examples would include scientists who maintain that evolution disproves the existence of God or who say that we exist in a purposeless, random universe. And then there are those physicists who insist that the universe gave rise to itself, or the whole field of what is called evolutionary psychology. These are examples of speculative storytelling that have absolutely no evidence behind them. It's speculation that will never be testable. In my opinion, such claims are closely allied to pseudoscience. It's all very similar to early last century when pseudoscientific fields such as eugenics claimed authority in areas that were previously considered off limits for science, such as ethics and social policy.
How does scientism justify moving into areas traditionally explained by philosophy?
What they say is, "Philosophy has never solved anything. It's just nonsense or religion." They don't realize that they themselves are incapable of answering the really big questions. Take these multiverse theories. Basically, they're just a way to deny that the universe has the appearance of design. "The universe was not designed," these scientists say. "It's just that there are lots and lots of other universes, and we just happen to be in one that's favorable to life." But that doesn't solve the metaphysical problem, does it? Where did all of these universes come from? Who established the rules within each universe? Who established the rules by which new universes are generated?
What about in the area of epistemology?
I don't know whether you've seen the book Where the Conflict Really Lies by the philosopher Alvin Plantinga, but in it he makes the case that if you take the position of scientism literally, then there's no reason why we should believe that anything in science is true. In other words, if everything is just some sort of random product of random forces, then there's no reason to think that we can somehow figure anything out and get it right—to believe that our theories are true. That's really the Achilles heal of the whole scientism enterprise. When we make a decision to accept one scientific theory over another, we are essentially stepping outside of science in that we're using philosophical reasoning. We're making a judgment about whether we believe that the evidence is reasonable—whether it really conclusively decides between two alternative theories. It's almost impossible to imagine how science could exist if there was nothing but science.
What is the difference between the essentialist and institutional theories of science?
Essentialist theories say that something is science only if it exhibits the hallmarks or essential traits of science. In other words, they best support a clear distinction between science and philosophy, as well as a necessary role for each. Institutional theories, on the other hand, argue that science is whatever science says it is. It was an institutional theory that justified the racial science of Nazi Germany, which was basically just pseudoscience based on some misunderstood anthropology. The same is true of Lysenkoism in Russia. If science is whatever science says it is, then it's hard to say why these cases aren't science as well. A lot of times the philosophers of science will say that science is self-correcting; the stuff that is false will eventually be defeated. This is true to some extent, but the defeat of both Nazi and Soviet pseudoscience was due to political factors, not the self-correcting nature of science.
Why is falsifiability a good criterion for what science can and should study?
What I like about it is that, even though it isn't quite a perfect criterion, it does sort of correspond to what scientists actually do. Scientists don't try to verify things. Rather, they try to prove their hypotheses wrong. If they can't prove them wrong, then they tentatively accept them. The philosopher Karl Popper developed this concept partly in response to logical positivism, but I also think he was writing in response to Nazi pseudoscience. One of the characteristics of pseudoscience is that it will come up with hypotheses that sound like science but are in no way testable: "Humans evolved upright posture because . . . whatever." Fill in the blank. I think we need to hold biologists' feet to the fire and say, "Wait a second; give me a testable hypothesis," which I actually believe it is possible to do in evolutionary biology.
If the trend toward scientism continues, what will be the long-term result?
For one thing, it will hurt the credibility of science. Let's say that some scientist announces that science has disproved the existence of God. People in the general public are not going to understand that he is not really speaking for science—that he is expressing a metaphysical or religious opinion using his status as a scientist to prop it up. They will consequently develop a negative attitude toward science. Sure, some people will reject religion because of this claim, but many more will reject science. It's kind of ironic. Richard Dawkins used to have a chair at Oxford that was dedicated to the public understanding of science, but now he is making these sweeping statements about religion that are only hurting the public understanding and appreciation of science.
Is that the only possible negative effect?
No, scientism also undermines science itself. Unlike those in the liberal arts who claim that all discourse is some sort of manipulation of other people, scientists are almost refreshingly naïve in today's academic world in that they believe in truth—or at least many of them do. However, when you start undermining the basis of truth, which comes from philosophical reasoning, scientists themselves will start believing that there's no truth in science. I've actually seen this to some extent—a disturbing trend toward a careerist approach to science. A collaborator once said to me, "You know, it doesn't really matter if it's true if it makes a big splash in a journal such as Nature or Science." I told him, "No, no, no," and the reason I finally gave him, because I knew he wasn't the kind of person I could appeal to with ethical reasoning, was that it would hurt him in the long run.
So the integrity of science gets undermined. What then?
Science itself could disappear. I really believe that this is a possibility. There's this ingrained belief in our culture that science will always progress, but we have no way of being sure that this will in fact happen. Civilizations collapse and disappear. Science is a unique phenomenon that really only appeared once in the history of the world—in Christian Europe. If its philosophical foundations are undercut, then it's very possible that it will disappear. There's also the danger that the misuse of science will become a tool for political tyranny. The two most tyrannical regimes of all time, the Soviet Union and Nazi Germany, both claimed to be scientifically based. Marxism/Leninism was promoted as scientific Socialism, while Hitler claimed that National Socialism was actually applied biology. It's entirely possible that this sort of thing could happen again.
Can this trend toward scientism be reversed, and if so, how?
Yes, it can be reversed, but only if the fields of study that are dismissed by the advocates of scientism show some sort of revival or refuse to go away. I see some signs of this happening in philosophy. When I was in graduate school, all the top philosophy departments in the English-speaking world were totally dominated by the logical positivist school, and I don't think that's true anymore. There is more diversity today. Even people who are Thomists are appearing here and there in state university philosophy departments, and that just wasn't true forty years ago. I think this is a positive sign that the humanities are finally beginning to take their fields back from scientism proponents.
What else can be done?
Science education is also very important. Americans in general don't understand science, so they're easily misled by people making claims in the name of science about things that science really can't address. But improving science education is a difficult thing, especially when the educational establishment believes in scientism. Nonetheless, I think that an emphasis on critical thinking and learning about how science really works, as opposed to teaching science as just a body of knowledge, would go a long way toward weakening the claims of scientism. Think about some of the stuff you read in the Sunday supplement: "A new study has shown that women are more likely than men to do such and such." If the public understood the concept of falsifiability alone, then they'd be like, "Wait a second." That would be a great start toward exposing scientism for what it is. •

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