Lifeboat Foundation: Safeguarding Humanity
Toggle light / dark theme

Blog – Page 1,811

The development of Transhumanism / Extropianism in the final two decades of the 20th century also set in motion the creation of digital cash, including the breakthrough killer app: Bitcoin.

The Austrian economist Friedrich Hayek wanted to denationalize money. David Chaum, an innovator in the field of cryptography and electronic cash, wanted to shield it from surveillance. Their goals were not the same, but they each inspired the same man.

Max O’Connor grew up in the British city of Bristol in the 1960s and ’70s. Telling his life story to Wired in 1994, he explained how he had always dreamed of a future where humanity expanded its potential in science-fictional ways, a world where people would possess X-ray vision, carry disintegrator guns, or walk straight through walls.

By his teenage years, O’Connor had acquired an interest in the occult. He thought the key to realizing superhuman potential could perhaps be found in the same domain as astral projection, dowsing rods, and reincarnation. But he began to realize there was no compelling evidence that any of these mystical practices actually worked. Human progress, he soon decided, was best served not by the supernatural but by science and logic.

Continue reading “How 1990s libertarians laid the groundwork for cryptocurrency” | >

Ubiquitous Potential

While many gene-editing therapies are focused on fatal genetic diseases, epigenetic editing’s safety profile may enable the treatment of more common diseases. The fact that no underlying changes are made to the DNA sequence “offers some additional safety assurances for this approach compared to some others where the risk/benefit [ratio] needs to be maybe a little different before you would employ those technologies,” Kane told BioSpace.

Additionally, because most common diseases are not driven by genetic mutations, epigenetic editing may be a better fit. “Most of those diseases are driven from expression levels being at an unhealthy level,” Kane said. “That is something that a tool like epi[genetic] editing is uniquely well-suited to address.”

Read more | >

How viewing the Sun in ultraviolet can uncover its secrets. Get a 20% discount on your next VisiSolar purchase when you use this link: https://bit.ly/49G6XhX

Astrum Podcast: https://www.buzzsprout.com/2250635/share.
Displate Posters: https://displate.com/promo/astrum?art
Astrum Merch! https://astrum-shop.fourthwall.com/
Join us on the Astrum discord: / discord.
SUBSCRIBE for more videos about our other planets.
Subscribe! http://goo.gl/WX4iMN
Facebook! http://goo.gl/uaOlWW
Twitter! http://goo.gl/VCfejs.

Astrum Spanish: / @astrumespanol.
Astrum Portuguese: / @astrumbrasil.

Donate!

Continue reading “The Deepest We Have Ever Seen Into the Sun | SDO 4K” | >

“Declining winter snow cover is one of the most obvious and pronounced impacts of climate change in the Alps. Its effects on the functioning and biodiversity of alpine ecosystems are a major concern for people living in Alpine regions and beyond,” said Dr. Michael Bahn.

How can the impacts of climate change alter biodiversity in vast mountain ranges throughout the world? This is what a recent study published in Global Change Biology hopes to address as a team of international researchers investigated how decreased levels of vegetation and snow cover in the Alps due to climate change are having adverse effects on the region’s biodiversity. This study holds the potential to help scientists, legislators, and the public better understand the short-and long-term impacts of climate change on regions across the globe.

For the study, the researchers examined variances in soil grassland microbial nitrogen cycling within the Alps during the spring and autumn due to their warming temperatures that are exceedingly more than twice the global average. In the end, the researchers discovered that nitrogen uptake by plant organics were reduced in the spring and autumn by 70 percent and 82 percent, soil microbial biomass was reduced by 19 percent and 38 percent, and the number of harmful bacteria that could have adverse effects on nitrogen production increased 253 percent and 136 percent, respectively. Collectively, the researchers determined that climate change is having an adverse effect on nitrogen cycling within the Alps’ grasslands.

Read more | >