Fat In Mom’s Butt And Thighs Are ‘Building Blocks’ For Babies’ Brains

The Inquisitr

Curvy moms with fat on their bottoms and thighs can now attest to the fact there’s at least one good reason for this. A new study just released uncovers the reason why women have fat they don’t want in these so-called “problem areas.”

Researchers Discover Why Zebras Have Stripes

Huffington Post 

courtesy  http://gardenofeaden.blogspot.com.br/2012/01/are-zebras-black-with-white-stripes-or.html

It’s a question that has stumped scientists for hundreds of years: Why do zebras have stripes?

BEE APOCALYPSE NOW - Scientists discover what’s killing the bees and it’s worse than you thought

By Todd Woody @greenwombat 

July 24, 2013

As we’ve written before, the mysterious mass die-off of honey bees that pollinate $30 billion worth of crops in the US has so decimated America’s apis mellifera population that one bad winter could leave fields fallow. Now, a new study has pinpointed some of the probable causes of bee deaths and the rather scary results show that averting beemageddon will be much more difficult than previously thought.

Big Shit: Information in mankind's intestines measures 60 thousand times the length of the universe!

by F.G.Helmke 

Figure it out yourself: The information for one microbe written on paper would take a distance about from here to the moon

Distance to the moon: 380 000 km (38 x 10⁴km)

Number of microbes in the body: 100 trillion (10x10¹²)

Information for 100 trillion microbes written on paper:

100 trillion x 380 000 km =

10 x 10 ¹² x 38 x 10 ⁴ = 38 x 10 ¹⁷ km

(1 light year equals 10 ¹³ km)

38 x 10 ¹⁷ : 10 ¹³ =

= 380 000 light years

The information in the DNA of all the microbes of just one person written on paper would take a paper 380 000 light years long.

World population:about 7 billion people

7 billion x 380 000 light years = 2 700 000 billion light years

Total information in mankind’s intestines written on paper: 2 700 000 billion light years 

Size of the universe: 45 billion light years

Length of the information divided by the length of the universe:

2 700 000 billion km  : 45 billion km = 60 000

Result: If the information in the intestines of mankind were written on paper you would need a paper about 60 000 times the length of the universe.

Even if these numbers are not 100% exact, they are still very impressive. Do you really believe that such a size of information can have happened by chance, or might there be some intelligent design? Remember, these are just the simplest creatures!  Panda Bears and Human Beings have thousands of trillions times more information stored in their genes…

Apocalypse Soon

 U.N. report warns environment is at tipping point

(editor: The tipping point is when something loses its balance, usually followed by an uncontrolled fall)

RIO DE JANEIRO (AP)—The earth’s environmental systems “are being pushed towards their biophysical limits,” beyond which loom sudden, irreversible and potentially catastrophic changes, the United Nations Environment Program warned Wednesday.

Brazil’s Secretary of Research and Development Programs and Politics, Ministry of Science and Technology, Carlos Nobre, speaks during the launch of U.N. Environment Program Global Environment Outlook 5 in Rio de Janeiro, Brazil, on Wednesday.

In a 525-page report on the health of the planet, the agency paints a grim picture: The melting of the polar ice caps, desertification in Africa, deforestation of tropical jungles, spiraling use of chemicals and the emptying out of the world’s seas are just some of myriad environmental catastrophes posing a threat to life as we know it.

“As human pressures on the earth … accelerate, several critical global, regional and local thresholds are close or have been exceeded,” the report says. “Once these have been passed, abrupt and possibly irreversible changes to the life-support functions of the planet are likely to occur, with significant adverse implications for human well-being.”

Such adverse implications include rising sea levels, increased frequency and severity of floods and droughts, and the collapse of fisheries, said the report, which compiles the work of the past three years by a team of 300 researchers.

The bad news doesn’t end there. The report says about 20 percent of vertebrate species are under threat of extinction, coral reefs have declined by 38 percent since 1980, greenhouse gas emissions could double over the next 50 years, and 90 percent of water and fish samples from aquatic environments are contaminated by pesticides.

“This is an indictment,” UNEP executive director Achim Steiner said at a news conference in Rio De Janeiro, which is to host later this month a U.N. conference on development that protects the environment. “We live in an age of irresponsibility that is also testified and documented in this report.”

“Once the tipping point occurs, you don’t wake up the next morning and say, ‘This is terrible, can we change it?’ That is the whole essence of these thresholds. We are condemning people to not having the choice anymore.”

The program that enables life (and industry)

Do you want to see a program that says, “dirt, assemble yourself to a new laptop, mine just broke down”?  Look outside. Don’t dream about the future, look outside. Can you see a green leaf?

Almost all plants have tiny little green cells that perform an amazing chemical process: a tiny nano-factory absorbs CO2 molecules from the air. At the same time water molecules travel upwards, apparently defying the laws of gravity, are then split by an amazing process, and by adding the hydrogen of the water molecules the program converts the CO2 molecules in an astonishingly effective way into a pretty complicated new substance, a carbohydrate, glucose. Like sugar as found in sugar cane for example. Six molecules of water plus six molecules of carbon dioxide produce one molecule of sugar plus six molecules of oxygen. The leftover oxygen is released into the atmosphere to maintain the atmospheric balance. Sounds easy, but just look it up and try to understand it, ha!

All plants live from this substance in their sap. This incredible smart program even uses solar energy to produce what is the basis for life on Earth: carbohydrates. Photosynthesis is the source of the carbon in all the organic compounds within organisms' bodies. Green.exe controls the production of the source of all organic matter.

A microscopic factory that converts fizzy water into sugar! All plants are build with carbohydrates, life on Earth as well as in the sea is based on it. Here is where the food chain begins. Cows turn grass into milk and steak. Bugs eat it, and chickens turn the bugs into eggs and so on. Microscopic animals in the sea, zooplankton, eat microscopic plants in the sea, phytoplankton, and tiny fish eat the tiny animals, and the big fish eat the small fish, and we buy tuna in the supermarket. Basically all animals live directly or indirectly from plants, so do we. Whether we eat lettuce or hamburgers, at the other end of the food chain was something based on photosynthesis.

But not only that. Time, pressure and temperature turn vegetation into coal and oil. Modern life runs on these results of photosynthesis. Without photosynthesis we’d have no cars, no factories, no furniture, almost no electricity. Photosynthesis is the basic program that enables life: embedded in a tiny green cell one of the most amazing programs ever written produces the food and fuel that makes life on Earth possible.

The actual process of photosynthesis is of course much more complex than that, it involves lots of highly complex chemicals that are activated by certain wavelengths of the sun’s rays. If you look up photosynthesis on the internet you will find out that this most basic element of nature that makes the most “primitive” plants tick is nothing but an incredibly complicated sophisticated piece of high tech art. You will see that it takes much more than just intelligence to write it. Just to build that machine you have to be quite an engineer. But the most amazing thing is the program itself. A program that tells this machinery to kind of put itself together by itself, from the raw material found in dirt.  In simple words it says: “Dirt and water, assemble a machine that produces glucose!” This was considered magic until recently. Nowadays everybody knows programs like Skype that say: “Face of grandmother, appear on my computer screen and let me hear her talk to me!” Yet I want to see a program that says: “Dirt, assemble yourself to a new laptop, mine just broke down!”  

What a program! By the way, its color green seems to be the trademark of its designer. Wherever you see life, you see green, to remind you of the One who wrote the most wonderful program ever imagined: Life. Enjoy it. Make the most out of it. In case you get stuck, just press the help button. He’ll show you what to do.

By FG Helmke

The Secret of the Light of the Firefly

The cold light of the firefly

Awake

In tropical and temperate regions, the firefly is recognized by the flashing light it uses to attract a mate. Interestingly, the firefly's light is superior to the incandescent and fluorescent light produced by man. In fact, the next time you look at your electric bill, think of what this small insect can do.

An incandescent light bulb emits only 10 percent of its energy as light; the rest is basically wasted, discharged as heat. A fluorescent bulb performs much better, emitting 90 percent of its energy as light. But neither of these is a match for the firefly. With very few ultraviolet or infrared rays, the light emitted by this insect is nearly 100 percent energy efficient.

The firefly's secret lies in the chemical reactions of the substance luciferin, the enzyme luciferase, and oxygen. Special cells called photocytes use luciferase to trigger this process, with oxygen as fuel. The result is cold light--so named because it produces virtually no heat. Horticultural and environmental educator Sandra Mason aptly remarked that light bulb inventor Thomas Edison "must have been envious of fireflies."

What do you think? Did the cold light of the firefly come about by chance, or was it designed?

The Kingfisher's Beak

Awake

Traveling at speeds of nearly 200 miles an hour, the Japanese bullet train is one of the fastest in the world. In part, it owes its success to a small bird--the kingfisher.

In pursuit of a tasty meal, the kingfisher can dive into water with very little splash. That fact intrigued Eiji Nakatsu, an engineer who directed test runs of the bullet train. He wondered how the kingfisher adapts so quickly from low-resistance air to high-resistance water. Finding the answer was key to solving a peculiar problem with the bullet train.

"When a train rushes into a narrow tunnel at high speed," Nakatsu explains, "this generates atmospheric pressure waves that gradually grow into waves like tidal waves. These reach the tunnel exit at the speed of sound, generating a large boom and aerodynamic vibration so intense that residents 400 meters [1,300 feet] away have registered complaints."

The decision was made to pattern the front end of the bullet train after the kingfisher's beak. The result? The bullet train now travels 10 percent faster and consumes 15 percent less energy. In addition, the air pressure produced by the train has been reduced by 30 percent. Thus, there is no large boom as the train passes through the tunnel.

What do you think? Did the kingfisher's beak come about by chance, or was it designed?

The Secrets of Planet Earth Special Features

What Makes Earth Special Compared to Other Planets
By Clara Moskowitz, Livescience
Earth is one special planet. It has liquid water, plate tectonics, and an atmosphere that shelters it from the worst of the sun's rays. But many scientists agree our planet's most special feature might just be us.
"It's the only planet we know of that has life," said Alan Boss, a planet formation theorist at the Carnegie Institution of Washington in Washington, D.C.
Though other bodies in our solar system, such as Saturn's moon Titan, seem like they could have once been hospitable to some form of life, and scientists still have hope of eventually digging up microbes beneath the surface of Mars, Earth is still the only world known to support life.
"So far, we haven't found it anywhere else," said Alex Wolszczan of Pennsylvania State University, who co-discovered the first planets beyond our solar system. He agreed that life was Earth's single most impressive characteristic.
None of this is a revelation, but understanding what's special about Earth is crucial for finding other planets out there and predicting what they might be like.
The fact that Earth hosts not just life, but intelligent life, makes it doubly unique. And the planet's intelligent life (humanity) has even developed rockets that enable travel beyond the planet, said Gregory Laughlin, astrophysicist and planet hunter at the University of California, Santa Cruz.
"During the last half century, the planet Earth has fashioned together tiny pieces of the metal in its crust, and has flung these delicately constructed objects to all of the other planets in the solar system," Laughlin said.
To enable life, this most special of attributes, planet Earth has a number of ideal features. It is unique among planets in our solar system for having water in its liquid form at the surface, in an amount conducive to life evolving.
"The most impressive attribute of the Earth is the existence and amount of liquid water on its surface," said Geoffrey Marcy, an astronomer at the University of California, Berkeley who has helped discover dozens of extrasolar planets. No one knows why Earth has the exact amount of water it does, which is relatively small considering that water molecules outnumber silicate molecules in the galaxy, he said.
"The Earth is remarkable for its precisely-tuned amount of water, not too much to cover the mountains, and not so little that it's a dry desert, as are Mars and Venus, our 'sister' planets," he said.
Earth's water is also special in that it has remained liquid for so long. How has Earth been able to hold on to its oceans while those on other planets freeze or fry?
"Many details as to why Earth is the only planet with liquid water in our solar system need to be worked out," said Diana Valencia, a graduate student in Earth and Planetary Sciences at Harvard University. "Certainly the distance to the sun has made it possible. A planet much farther in would receive too much energy from the sun, and a planet too far out would quickly freeze."
Our planet's Goldilocks-like "just right" location in the solar system has helped, as has its system of plate tectonics--the slip-sliding movements of Earth's crust that are thought to have created the planet's towering mountain ranges and plummeting ocean depths.
"The fact that Earth has plate tectonics allows for the carbon-silicate cycle to operate over geological timescales," Valencia said. "With the carbon-silicate cycle, the levels of carbon in the atmosphere get regulated to keep the surface temperature around that of liquid water."
Plate tectonics and water are inextricably linked. Not only does plate tectonics enable liquid water to exist by way of regulating the temperature, but many scientists have argued water enables plate tectonics to happen.
"Without water the planet would be geologically dead," said Caltech's Mike Brown, discoverer of the newly reclassified "plutoid" object named Eris, which lies beyond Pluto in our solar system. "Water is what lubricates plate tectonics, which is what leads to the extreme difference between continents and seafloors, the large amount of earthquakes and volcanoes, fresh mountain-building. Venus has no water, no plate tectonics, no deep sea floor, no steep mountains, no continents, probably few earthquakes or volcanoes. A much less geologically interesting place!"
Another "just-right" aspect of Earth is its size: If it was much smaller, it wouldn't be able to hold on to our precious atmosphere, but much larger and it might be a gas giant too hot for life.
The presence of our big brother planet, Jupiter, farther out in the solar system blocking Earth from much of the incoming debris, has also helped Earth become a safe haven for life. Jupiter acts like a giant broom, sweeping the solar system of debris--rocks as small as cars and as huge as moons--that could snuff out life in one fatal blow.
Life on Earth may also owe a debt to our nearest celestial neighbor, the moon. Earth's moon stabilizes our planet's rotation, preventing drastic movements of the poles that could cause massive changes in climate.
All of these features make Earth special among known planets near and far.
So far, we haven't seen any planet outside the solar system come very close to Earth either.
Of the nearly 300 new worlds glimpsed elsewhere in the galaxy, most are "hot Jupiters"--large planets that orbit close to their stars, on which life and liquid water are unlikely to exist.
"I doubt that in our galaxy typical stars have planets just like Earth around them," Brownlee said. "I'm sure there are lots of planets in the galaxy that are somewhat similar to Earth, but the idea that this is a typical planet is nonsensical."