Lifeboat Foundation: Safeguarding Humanity
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Category: food – Page 320

The European Commission is getting ready to propose new legislation to protect machines from cybersecurity breaches, signalling the executive’s growing interest in encouraging traditional European manufacturers to build more devices that are connected to the internet.

A new plan to overhaul EU telecoms law, which digital policy chiefs Günther Oettinger and Andrus Ansip presented three weeks ago, aims to speed up internet connections to meet the needs of big industries like car manufacturing and agriculture as they gradually use more internet functions.

But that transition to more and faster internet connections has caused many companies to worry that new products and industrial tools that rely on the internet will be more vulnerable to attacks from hackers.

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Last week the U.S. corporation Monsanto, which holds a leading position in the global market of genetically modified organisms (GMOs), reached a licensing agreement with the Broad Institute, Cambridge, USA, on the commercial use of the innovative genome-editing technology CRISPR/Cas9 for agriculture applications. This news has led some experts to believe that Monsanto will now completely switch from producing ‘traditional’ GMOs to ‘genetically edited’ organisms, which are supposedly ‘safer and practically identical’ to their natural alternatives.

Let’s have a closer look at this technology which makes GMO supporters feel so enthusiastic and has been positioned by them as the universal panacea solving all of mankind’s problems. We will also delve deeper into some of the darker aspects of CRISPR/Cas9; the points that biotechnology lobbyists prefer not to discuss.

crispr

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Got a bee shortage? No problem, DARPA has you covered.

Following the news that the honeybee is now officially an endangered species as “colony collapse disorder” accelerates, it seems that a Harvard research team has the solution – robotic honeybees. Instead of attempting to save the bees by reducing the use of pesticides or revising safety standards for cell phone radiation, the focus has shifted to replacing the bees altogether. Harvard University researchers, led by engineering professor Robert Wood have been tweaking “RoboBees” since their initial introduction in 2009. The bee-sized robots made of titanium and plastic represent a breakthrough in the field of micro-aerial vehicles. The size of the components needed to create flying robots were previously too heavy to make a such a small structure lightweight enough to achieve flight. Current models weigh only 80 mg and have been fitted with sensors that detect light and wind velocity.

Researchers claim that the bees could artificially pollinate entire fields of crops and will soon be able to be programmed to live in an artificial hive, coordinate algorithms and communicate among themselves about methods of pollination and the locations of particular crops. In addition, RoboBees have been suggested for other uses including searching disaster sites for survivors, monitoring traffic, and “military and police applications.” These applications could include using RoboBees to “scout for insurgents” on battlefields abroad or allowing police and SWAT teams to use the micro-robots to gather footage inside buildings.

The RoboBees project originally began at the University of California at Berkeley in 1998 when neurobiologist Michael Dickinson, electrical engineer Ron Fearing, and then-grad student Rob Wood received a $2.5 million grant from DARPA to create an insect drone. Dickinson now continues his work at the University of Washington while Wood heads the principal RoboBee micro-robotics lab at Harvard. DARPA, the Defense Advanced Research Projects Agency of the US military, is best known for its role in helping create the internet, but a vast majority of their taxpayer-funded projects paint a decidedly dystopian picture of humanity’s future. Most of DARPA’s projects involve transhumanism, the merging of humans and machines to create a technologically governed populace.

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Still keeping my optics working looking for news to apply to your cyberpunk games and writings.

A way to defend against counterfeit drugs and maybe food too, miniature edible barcodes. Inexpensive, practical and readable with a slight modification of a smart phone.

For some reason, the idea of edible food wrappers just seems very cyberpunk to me. Full of advertising and nutrition!

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Please sign this petition to the NIH to help get more funding for aging research.

Every year about two million Americans die of illnesses doctors cannot cure. Cancer afflicts 50% of men and 30% of women. Five hundred and ninety five thousand Americans will die of cancer this year. Millions get heart diseases, strokes, etc. Every year 1,612,552 Americans die of the top 8 illnesses that doctors are unable to cure. Over a 30-year period, 48,376,560 United States citizens will die of the top 8 illnesses. Let us not forget other disabling and potentially curable illnesses. How much is it worth to save them? We have the resources and opportunity to cure age-related disease.

History has shown that medical research actually saves money. We now spend three trillion two hundred billion dollars yearly for health care. The health care expenditures will increase as our population grows with more senior citizens.

Every year we also spend hundreds of billions of dollars for services such as Social Security Disability, welfare, food stamps, special transportation, etc. Medical research will help cut down on the need for these services. It will also extend our lives.

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Just like checking your bag on a commercial airline, space travel comes with some pretty big weight restrictions. How big? According to estimates, reaching space costs a whopping $10,000 per pound, which means that every ounce saved has a big impact on the bottom line.

That’s where a group of Danish researchers comes in. The team is working on a synthetic biology project called CosmoCrops, which hopes to use bacteria to make it possible to 3D print everything needed for a respectable space mission, using a cutting-edge co-culturing system. And it could even make life better for those of us back on Earth in the process.

“We are trying to make space exploration cheaper, because many inventions we use in our daily life were invented because of space exploration, like Velcro and solar energy,” Joachim Larsen, one of the students working on the project, told Digital Trends. “The way we want to achieve this is to [be] able to produce everything from food to medicine and bioplastic for 3D printers out in space — making the space rocket a lot lighter.”

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