Tag Archives: Life Science

Arctic Seed Vault

Work begins on Arctic seed vault:

More than 100 countries have backed the vault, which will store seeds, packaged in foil, at sub-zero temperatures.

The vault’s purpose is to ensure survival of crop diversity in the event of plant epidemics, nuclear war, natural disasters or climate change; and to offer the world a chance to restart growth of food crops that may have been wiped out.

At temperatures of minus 18C (minus 0.4F), the seeds could last hundreds, even thousands, of years. Even if all cooling systems failed, explained Mr Riis-Johansen, the temperature in the frozen mountain would never rise above freezing due to the permafrost on the mountainside.

Microbes

photo of T4 bacteriophage

Photo: T4 bacteriophage, middle, is a virus that invades bacterial cells. Courtesy of the MicrobeLibrary.org

The MicrobeWorld web site includes an introduction to microbes – Microbes: what they are and what they do:

Microbes are single-cell organisms so tiny that millions can fit into the eye of a needle.

They are the oldest form of life on earth. Microbe fossils date back more than 3.5 billion years to a time when the Earth was covered with oceans that regularly reached the boiling point, hundreds of millions of years before dinosaurs roamed the earth.

Microbes types:

Archaea
These bacteria look-alikes are living fossils that are providing clues to the earliest forms of life on Earth.

Bacteria
Often dismissed as “germs” that cause illness, bacteria help us do an amazing array of useful things, like make vitamins, break down some types of garbage, and maintain our atmosphere.

Fungi
From a single-celled yeast to a 3.5-mile-wide mushroom, fungi do everything from helping to bake bread to recycling to decomposing waste.

Protista
Plant-like algae produce much of the oxygen we breathe; animal-like protozoa (including the famous amoeba) help maintain the balance of microbial life.

Viruses
Unable to do much of anything on their own, viruses go into host cells to reproduce, often wreaking havoc and causing disease. Their ability to move genetic information from one cell to another makes them useful for cloning DNA and could provide a way to deliver gene therapy.

Symbiotic relationship between ants and bacteria

Study reveals classic symbiotic relationship between ants, bacteria

Ants that tend and harvest gardens of fungus have a secret weapon against the parasites that invade their crops: antibiotic-producing bacteria that the insects harbor on their bodies.

“Every ant species [that we have examined] has different, highly modified structures to support different types of bacteria,” says Currie. “This indicates the ants have rapidly adapted to maintain the bacteria. It also indicates that the co-evolution between the bacteria and the ants, as well as the fungus and parasites, has been occurring since very early on, apparently for tens of millions of years.”

Furthermore, Currie says, the fact that the species have coexisted for so long means there might be a mechanism in place to decrease the rate of antibiotic resistance – which could help address a significant problem facing modern medicine. “We can learn a lot about our own use of antibiotics from this system,” he says.

Read more about the overuse of antibiotics

Fossils of Sea Monster

Fosil of extinct sea creature

‘Godzilla’ Fossils Reveal Real-Life Sea Monster, National Geographic news:

Researchers have unearthed fossil evidence of a 135-million-year-old “sea monster” they’re calling Godzilla.

A large skull of the animal was found in southern Argentina in an area that was once part of the Pacific Ocean.

Named Dakosaurus andiniensis, the creature is an entirely new species of ancient crocodile. It had a head like a carnivorous dinosaur and a tail like a fish. With its massive jaws and serrated teeth, it preyed on other marine reptiles.

Totally unique among marine crocodiles, “it is one of the most evolved members of the crocodilian family and also one of the most bizarre,”