Algae First To Recover After Asteroid Strike

pickens writes "The asteroid that impacted earth 65 million years ago killed off dinosaurs, but microalgae bounced back from the global extinction in about 100 years or less. Julio Sepúlveda, a geochemist at MIT, studied the molecular remains of microorganisms by extracting organic residues from rocks dated to the K-T extinction (in this research referred to as Cretaceous-Paleogene), and his results show that the ocean algae community greatly shrunk in size but only for about a century. 'We found that primary production in this part of the ocean recovered extremely rapidly after the impact,' says Julio Sepúlveda. Algae leave certain signatures of organic compounds and isotopes of carbon and nitrogen; bacteria leave different signatures. In the earliest layers after the asteroid impact, the researchers found much evidence for bacteria but little for algae, suggesting that right after the impact, algae production was greatly reduced. But the chemical signs of algae start to increase immediately above this layer. A full recovery of the ocean ecosystem probably took about a million years, but the quick rebound of photosynthesizing algae seems to confirm models that suggest the impact delivered a swift, abrupt blow to the Earth's environment."

If there is another strike

[JohnHegarty]

If there is another strike I for one welcome our new microalgae overlords.

Re:If there is another strike

[eldavojohn]

You may want to welcome them already. Recent research shows now that phytoplankton were/are consumers of poisonous ammonia in our oceans. And they produced out of it what plants crave. 'Lytes! No wait, I mean Nitrogen. I'm not a biologist but this latest research seems to imply that our designation of bacterial nitrifiers as most important to the nitrogen cycle is wrong and should be given to Archaea. From that research:

The new experiments show that the organism can survive on a mere whiff of ammonia - 10 nanomolar concentration, equivalent to a teaspoon of ammonia salt in 10 million gallons of water. In the deep ocean there is no light and little carbon, so this trace amount of ammonia is the organism's only source of energy.

So I wouldn't be surprised that phytoplankton would be the first to recover after an asteroid strike. Not much needed for them to survive. Apparently if all of this is true, a lot of ecology is going to be rewritten. Exciting times if you're in that field I guess.

100 years? Now Way.

[140Mandak262Jamuna]

It definitely did not take 100 years. I saw the satellite footage of earth after being struck by the asterioid/comet in the Discovery Channel. It took less than 5 minutes. In fact mammals that survived evolved into full fledged humans by the end of the program, less than 25 minutes later. It would have been sooner, but the evolution took many breaks and went into statis to accommodate the advertisers. It was really kind of Stephen Jay Gould to have provided for punctuated equilibrium, otherwise the Discovery Channel would not have been able to insert these commercials.

Well, DUH!

[overshoot]

Anyone with a swimming pool could have told them about the ability of algae to come back from extinction.

Re:Good news for Microsoft

[Shakrai]

Well, if the scum are the quickest to recover ....

Shit, I guess that means we can't count on an asteroid to take care of our politicians and lawyers.....

Relevant paper in Science

I wish journalists would be more diligent about actually citing the relevant paper from which the news releases are derived. If it is on the web, is it *that* hard for people to stick a link in there?

Anyhow, I haven't read the paper because I can't get the full article yet, but if some of the recovery they are interpreting after the Cretaceous is related to dinoflagellates (which can be detected as dinosteranes in organic geochemistry work), it wouldn't be surprising that they bounced back fairly quickly: A) many of them form highly resistant cysts as part of their life cycle, and those cysts can survive for years before "hatching" and going back to business as usual, B) many dinoflagellates are heterotrophic or mixotrophic -- i.e. they eat things or they eat things at the same time as using photosynthesis. As a result they could probably survive better than many other planktonic "algae" that are exclusively autotrophs (i.e. photosynthetic). This expectation is confirmed to some extent by the observation of relatively few dinoflagellate extinctions across the K/T boundary compared to many other planktonic organisms.

Re:Wow, fascinating.

[Kingleon]

Hi, I'm a paleontologist. So, you actually are asking a very important question, but its a question that every scientist must answer practically every day. Why should we get paid to study what we life? Well, simply, we don't. There are plenty of great scientists out there who don't get grants or jobs because what they do isn't relevant to enough people. Maybe its relevant to 20 other people out there, but not enough of the general public. The mark of a bad scientist is a scientist who can't figure out a workable scientific project and sell public institutions (like NSF) on it. Good scientists, overall, only exist as long as they can find useful things to study.

But what makes paleontology relevant to our daily lives? The study of mass extinctions is really important: we can't do the experiment of killing 50% of the earth's biota or clouding the skies for ten years to see how life responds. But, as humans, we are radically altering ecosystems with negative effects which may not play out for thousands of years. We need to understand, having already killed off a massive number of species, how life on earth will respond. Furthermore, understanding the oceans, particularly unpreserved organisms like soft-bodied algae, is important to understanding the processes which control the atmospheric content and the supply of nutrients to larger sea creatures. For example, we know species richness recovery from the KT was delayed in some places for periods much longer than a century. Some thought that was due to a prolonged lack of food. Now we know that the algal production started up so quickly, we know that can't be due to a lack of food; maybe its something else (like a wrecked ecosystem structure).

If you need to know any reasons why understanding the past is important, look up the papers of Jeremy Jackson or David Jablonski. They'll set you straight.