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#1 Lowest temperature for life discovered

Posted: Wed Aug 21, 2013 9:29 pm
by rhoenix
phys.org wrote: Scientists have pinpointed the lowest temperature at which simple life can live and grow.

The study, published in PLoS One, reveals that below -20 °C, single-celled organisms dehydrate, sending them into a vitrified – glass-like – state during which they are unable to complete their life cycle.

The researchers propose that, since the organisms cannot reproduce below this temperature, -20 °C is the lowest temperature limit for life on Earth.

Scientists placed single-celled organisms in a watery medium, and lowered the temperature. As the temperature fell, the medium started to turn into ice and as the ice crystals grew, the water inside the organisms seeped out to form more ice. This left the cells first dehydrated, and then vitrified. Once a cell has vitrified, scientists no longer consider it living as it cannot reproduce, but cells can be brought back to life when temperatures rise again. This vitrification phase is similar to the state plant seeds enter when they dry out.

'The interesting thing about vitrification is that in general a cell will survive, where it wouldn't survive freezing, if you freeze internally you die. But if you can do a controlled vitrification you can survive,' says Professor Andrew Clarke of NERC's British Antarctic Survey , lead author of the study. 'Once a cell is vitrified it can continue to survive right down to incredibly low temperatures. It just can't do much until it warms up.'

More complex organisms are able to survive at lower temperatures because they are able to control the medium the cells sit in to some extent.

'Bacteria, unicellular algae and unicellular fungi – of which there are a huge amount in the world-are free-living because they don't rely on other organisms ,' Clarke explains.

'Everything else, like trees and animals and insects, has the ability to control the fluid that surrounds their internal cells. In our case it's blood and lymph. In a complicated organism the cells sit in an environment that the organism can control. Free-living organisms don't have this; if ice forms in the environment they are subject to all the stresses that implies.'

If a free-living cell cools too quickly it would be unable to dehydrate and vitrify; instead it would freeze and wouldn't survive.

This goes some way towards explaining why preserving food using deep freezing works. Most fridge freezers operate at a temperature of nearly -20 °C . This study shows that this temperature works because moulds and bacteria are unable to multiply and spoil food.

'We were really pleased that we had a result which had a wider relevance, as it provided a mechanism for why domestic freezers are as successful as they are,' Clarke says.

The scientists believe that the temperature limit they have discovered is universal, and below -20°C simple forms of unicellular life can grow on Earth. During the study they looked at a wide range of single-celled organismsthat use a variety of different energy sources, from light to minerals, to metabolise. Every single type vitrified below this temperature.

'When you have a single-celled organism and cool it until ice forms in the external medium, in every case we looked at the cells dehydrated and then vitrified between -10°C and -25 °C. There were no exceptions,' explains Clarke.
This is especially interesting to me lately, due to the hypothetical discussions I've seen regarding the possibility of life on places like Europa.

The fact that life to this degree of simplicity can effectively remain in a suspended state of animation until conditions become more favorable again alone suggests that we'll be finding at least a few simple-but-interesting somethings on Europa, when we finally are able to check.

#2 Re: Lowest temperature for life discovered

Posted: Thu Aug 22, 2013 7:59 am
by Comrade Tortoise
*snicker*

This is why non-biologists need to stfu with regard to biology.

Lactobacillus delbruecki--Yogurt
Pseudomonas syringae--plant pathogen
Corynebacterium variabile--ubiquitous soil bacteria
Arthrobacter arilaitensis--another ubiquitous little soil bacteria
Streptococcus thermophilus--Yogurt

Chlamydomonas nivalis--A cold adapted algae

Debaryomyces hansenii--wild yeast
Saccharomyces cerevisiae--Brewers yeast

There is only one cold adapted organism on that list, and it is an algae that lives in snow. It can live and reproduce, apparently, at -24 C, while Arhtrobacter can pull off -26. These are not lower limits on what life can handle on earth while still being able to reproduce. This is a very strange sample of model organisms, only one of which is particularly cold adapted, and at that, is not adapted to the coldest environments on earth. The authors of the original study do not indicate that these limits are universal, as the article posted claims. Instead:

http://www.plosone.org/article/info%3Ad ... ne.0066207
Although our data indicate that vitrification is inevitable for any free-living microbial cell cooled in the presence of external ice, the range of Tg values found in this study (Table 1) indicates that the exact value of Tg varies, presumably in response to changes in the balance between macromolecules (predominantly proteins) and small molecular weight compounds, including cryoprotectants. The relatively high value for Tg found in the ice-nucleating bacterium Pseudomonas syringae and the low value found in the snow alga Chlamydomonas nivalis suggest that Tg may be adjusted, within bounds, in response to the particular ecology of the individual organism. An organism such as C. nivalis would presumably gain a selective advantage from a low Tg that allowed it to continue metabolism to a relatively low temperature, since ice is usually always present in its natural habitat.

Of course, then the cellular biologists jump the shark a bit.
A wide variety of microbial cells has also been reported from glacial ice [42], [43]. Our data imply that microbial cells retained in glacial ice at temperatures below −25°C (that is, below Tg) must be vitrified.
Which is something they have no evidence for, save that their tiny sample of the world's bacterial fauna does not drop below that temperature on a regular basis.

#3 Re: Lowest temperature for life discovered

Posted: Thu Aug 22, 2013 11:20 am
by rhoenix
Wow. Even more trippy with that known, actually.