Evolution Can Occur Much Faster Than Previously Thought

An anonymous reader writes: An Oxford study on chickens discovered that evolution can make significant changes to a genome in as little as 15 years. "For a long time scientists have believed that the rate of change in the mitochondrial genome was never faster than about 2% per million years. The identification of these mutations shows that the rate of evolution in this pedigree is in fact 15 times faster." Professor Greger Larson, senior author on the study, said, "Our observations reveal that evolution is always moving quickly but we tend not to see it because we typically measure it over longer time periods."

Old

[Smiddi]

See the Earth is only 4,000yrs old :)

Not a huge surprise

[The Real Dr John]

The long term changes in DNA didn't always get there in a straight line. So measuring over a shorter time would indicate a faster rate of change. But interesting nonetheless.

Re:Not a huge surprise

[Michael Woodhams]

There are two issues here. One is that a single DNA site could mutate several times. If we only see the end points, it looks like only one mutation has occurred (or even zero, if it mutates back to where it started.) This is pretty easy to correct for. E.g. if you compare two sequences and they differ in 10% of sites, it is reasonable to think that 1% of sites have actually mutated twice. (That is a little oversimplified, but not by much.)

The other issue is that a DNA mutation can spread through part of the population, but then go extinct. If you measure over short time periods, you see these mutations, but over long time periods you don't. There are mathematical reasons to think this does not affect your measured mutation rates if the mutations are neutral (neither helpful nor harmful.) Look up "neutral theory of molecular evolution" for details. However, if they mutations are slightly deleterious, this can be an issue, but there are limits to what you can achieve with this mechanism. (I wrote a paper on that once.)

Re:

[Mr Z]

Let me see if I understand. By measuring over a long period, we're measuring the long term rate of mutation survival after applying selection pressure, and that could be noticeably different than the raw rate of mutation. Is that a correct summary?

Please go slowly with me. I'm an engineer, not a biologist, and I admit biology is not my strongest subject. I am actually curious, though.

I remember hearing that there are large sections of DNA in many living things that are effectively "junk DNA," or at least

Re:Not a huge surprise

[Michael Woodhams]

Let me see if I understand. By measuring over a long period, we're measuring the long term rate of mutation survival after applying selection pressure, and that could be noticeably different than the raw rate of mutation. Is that a correct summary?

Yes, that is correct. The technical term for 'mutation survival' is 'fixation'. A mutation is 'fixed' once the entire population carries it. It is 'extinct' (unsurprisingly) when it no longer exists in the population. When it exists in part of the population it is 'segregating'.

There are huge amounts of DNA that have no known purpose and appear to be junk. This is over 98% in humans, but varies a lot between organisms. The junkness of this is under debate. My feeling is that much of it really is junk, but some of it has a function we don't yet understand. (Also, sometimes the function is simply "we need a certain amount of space between these two bits of non-junk". This has a clear purpose, but is 'junk' in that the DNA letters don't matter.)

This particular experiment is about mitochondrial DNA which has very little 'junk', and that which it does have probably at minimum has something like 'need this amount of space' function.

Yes, scientists do like using 'junk' DNA for phylogeny (making family trees of organisms) because it is (we think) not subject to selection. On the other hand, you need to find the corresponding junk regions in all your critters and sequence them. It is easier to identify corresponding genes, and often someone else (who cared about the genes themselves) has done the sequencing work for you. Often the choice is doing phylogeny on genes using only a computer, when phylogeny on junk DNA requires samples and a molecular biology lab. Another issue is time scale: the junk DNA mutates faster, so it is good for closely related species (e.g. 'apes') but for distantly related species (e.g. 'vertebrates') you need highly conserved sequences (genes). The junk DNA will have mutated so much that it is all noise, no signal.

Is there a way to measure the mutation rates for different sites in the overall genome of a given organism, so that: (a) we can determine if some regions are actually junk because mutations to them do not affect organism fitness

Yes, if we have diverse organisms and a good alignment of their DNA, we can look for 'junk' regions by how much mutation occurs where. (Actually it tends to be the other way around - we see islands of conserved sequence, and deduce therefore that they have a function. This isn't how genes are detected, as there are more sensitive gene-specific ways of doing this.)

and (b) can distinguish between the rate of mutation and the rate of mutation survival?

Only I think by comparing mutation rates over pedigree time scales (a few generations) with mutation rates over long time scales - which is what this paper addresses.

Re:

[Mr Z]

Thank you for the thoughtful and detailed response. I think I have a better understanding. (But, I'll always stay mindful of the Dunning-Krueger effect... ;-) )

BTW, this statement captures something I was trying to express more clearly than I stated it:

(Actually it tends to be the other way around - we see islands of conserved sequence, and deduce therefore that they have a function. This isn't how genes are detected, as there are more sensitive gene-specific ways of doing this.)

What I was trying to get

Re:Not a huge surprise

[Michael Woodhams]

What I was trying to get at was that if a section of DNA performs some useful function, even if we don't know what it is, it'll tend to be preserved...

Yes.

Would such cyclic shifts meaningfully affect the assumptions underlying the multiple mutation rate?

I'd expect it to be a very minor effect. I'm not aware of anyone getting worried about this. It is a matter of statistics: if you're comparing 100,000 DNA sites, you don't care much if 50 of them behave weirdly in some fashion. If you successfully target 'junk' DNA for the comparison, it is not an issue.

A related effect is convergent evolution. Say two species of bacteria each colonize high temperature environment. Then certain mutations which are favoured in high temperature will likely occur in both of them. When we compare their DNA, this can make it look like they are more closely related than they really are. This is more of an issue in morphology (Darwin's finches, for example, or cormorants, which look very similar all around the world but turn out often not to be closely related) but it can happen at the DNA level too.

Re:

[Mr Z]

I'd expect it to be a very minor effect. I'm not aware of anyone getting worried about this.

Got it. With everything else you've explained, that makes sense.

A related effect is convergent evolution. Say two species of bacteria each colonize high temperature environment. Then certain mutations which are favoured in high temperature will likely occur in both of them. When we compare their DNA, this can make it look like they are more closely related than they really are.

Ah, that also makes sense.

I thank yo

Re:

[Michael Woodhams]

I could have spent the effort debating the creationists. This was much more fun.

Re:

[The Real Dr John]

Great discussion. I don't want to over-complicate, but we would be remiss if we didn't bring up the fact that some "junk" DNA is not junk at all, even if it is "non-coding" (does not encode for a protein product). The original concept of genes is that they have "exons" and "introns", where the exons code for parts of a protein product, and the introns get snipped out during the process of generating RNA from DNA. But some of the so-called junk DNA generates different kinds of RNA rather than standard "messe

Re:

[Anonymous Cow Ward]

In addition, some DNA that doesn't make RNA at all (as far as we know, anyway) is important for regulating other pieces of DNA, which can be pretty far away.

Fossils

[The Evil Atheist]

Well considering that for the longest time, fossils were our main source of viewing evolution through time, of course it would seem to be slow. Who knows how many speciation events happen and die off before being able to leave a mark in the fossil record.

Re:

[Michael Woodhams]

Fossils are not relevant here. The methodology of this study, and of the studies over long time periods it is comparing to, are both from DNA sequencing, not fossils.

Re:

[The Evil Atheist]

Try reading again:

Senior author Professor Greger Larson said: 'Our observations reveal that evolution is always moving quickly but we tend not to see it because we typically measure it over longer time periods. Our study shows that evolution can move much faster in the short term than we had believed from fossil-based estimates. Previously, estimates put the rate of change in a mitochondrial genome at about 2% per million years. At this pace, we should not have been able to spot a single mutation in just 50 years, but in fact we spotted two.'

The reason why mitchondrial measurements used long time frames was because of the mindset carried over from fossil estimates. The senior author himself says so in this quote from the article.

Re:

[Ol Olsoc]

God knows.

Leave the Flying Spaghetti Monster out of this, lest ye be smote by his noodly appendage.

Re:

[Ol Olsoc]

And he reached out towards me with his noodley appendage and ..... SLURP .... ahh well, so much for that....

Your reward of beer volcanos and fine hookers awaits you, brother. Rejoice!

Re:

[Ol Olsoc]

Is "besmote" etymologically related to "bespoke?"

It is derived from the early Sumerian endearment "Cacasmacked".

Re:

[Ol Olsoc]

As you mock, He laughs at you, and STILL loves you, LOL. No, God is not Cuthulu, he doesn't have appendages. Myself, I don't have problem with believing in the theory of evolution and believing in God. See, God, is outside of time, and hence He sees beginning, now, and end. A second to God is a thousand years... God can use the laws of nature, He made them! So when you read Feynman's Lectures, you know what, God made those laws and He doesn't change. So, when the preacher online starts harping about science, remind him that the same God that created all also created the physical laws that allows that internet stream of his Sunday service, and that God is constant. The same physical laws apply everywhere, because God made those laws, and God doesn't change!

My parents and grandparents might accuse you of apostacy, but they would be certain that you sir, are going to hell. And that's the problem.

So whic of the thousands of Gods is the right one, and how were you lucky enough to be born to the right group that knows the right one? He doth work in mysterious ways it would seem. So you can rejoice at your good luck.

Re:

[Barsteward]

aaahhh,,, isn't delusion delusional.....

Re:

[Ol Olsoc]

If one can wrap their mind around an ever present NOW encompassing past, present, and future, then one can start to perceive the operating sphere of God.

As well as develop a sense of personal incredulity.

You are welcome of course, to your own beliefs. But really, it's only manufacturing your god in your own image. There are billions of others in this world who believe quite fervently in their version of god, and they are equally as likely to be correct as you are. People who have violent tendencies tend toward a god of violent tendencies, people who are materialistic opt for a god that rewards them with material goods. People who enjoy forcing others to d

Re:

[The Evil Atheist]

Irrelevant to the point I'm making.

Re:

[Rei]

Yes it is. It's data about where there is no data. Example:

Bob: I firmly believe there is rabid gorilla loose somewhere in this city..
Jane: I just searched my home. There's no evidence of a gorilla.
Bob: The absence of evidence is not evidence of absence!
Jane: I just searched 100 homes. Still no evidence of a gorilla.
Bob: The absence of evidence is not evidence of absence!
Jane: I just searched 10% of the town. Still no evidence of a gorilla.
Bob: The absence of evidence is not evidence of absence!
Jane: I just

Re:

[Michael Woodhams]

How did Jane search the town? How does she know that when she moved from one area to another the gorilla didn't move into the area she just searched and is now claiming is gorilla-free?

It is still evidence. If Jane's search and the gorilla's location are uncorrelated, then if there exists a single gorilla, having searched 95% of the town once, the number of gorilla sightings Jane would get would be a Poisson distribution with mean 0.95. In this case, she will have zero sightings about 40% of the time, so the evidence is not yet very convincing, but once Jane has searched the town all over 5 times and not sighted a gorilla, the evidence is strong that there is no gorilla (p value 0.007.)

Re:

[Barsteward]

the gorilla would have shat somewhere or probably in a few places

Re: Fossils

[Michael Woodhams]

OK, Jane has evidence for the absence of a certain class of gorilla (highly visible gorillas.) She has placed constraints on the properties of any gorillas in the town (that they not be highly visible.) She can't say anything useful about presence or absence of ninja gorillas.

Re: Fossils

[Dragonslicer]

She can't say anything useful about presence or absence of ninja gorillas.

Great, now I won't be able to sleep for a week.

Re:

[The Evil Atheist]

Still not relevant to the point I'm making.

Nothing new here

[BarbaraHudson]

Nobody has thought for decades that evolution is a slow continuous process. Rather that it has periods where nothing much happens, then there's a spurt of changes, then another period of calm.

Pick the right time interval and duration and you can see either one or the other, as you want. Great way to make data fit your favorite theory :-)

Re:

[Michael Woodhams]

I think you're talking about punctuated equilibrium, which is about phenotypic change (change in body shape/size/colour/function etc.) I think punctuated equilibrium is somewhere between controversial and discredited, but it is not my field so I'm not sure.

In this case, we are talking about evolution at the level of DNA, which is commonly thought to be a continuous process with rate being nearly constant. https://en.wikipedia.org/wiki/... [wikipedia.org]
The limitations of the molecular clock are what are being argued about

Re:

[BarbaraHudson]

Any change that doesn't result in a "change of body shape/size/colour/function etc" isn't going to be selected for or against unless and until the environment changes. Then it may prove to be either beneficial, detrimental, a bit of both, or neutral. Even then, it's a crapshoot. Blue eyes are a recent recessive mutation that carries with it a three-fold increased risk of glaucoma, as well as other diseases. Being left-handed comes with its' own problems, such as increased risk of ptsd and psychosis (weird f

Re:Nothing new here

[Rei]

According to something I read on Slashdot, since then we've all become cows. Which would now that I think about it be pretty compelling evidence of rapid evolution.

Also, moo.

Re:

[BarbaraHudson]

Consider that the average human has between 60 and 200 mutations. And that even traits that are harmful, such as juvenile diabetes and sickle cell anemia, are successfully passed on. Sure, sickle cell anemia provides some protection against malaria, but what possible advantage can type 1 diabetes confer, aside from high sugar content fractionally lowering the freezing point of blood? Kind of outweighed by kidneys and eyes going bad, nerve damage, and extremities developing ulcers that turn gangrenous if not

Re:

[BarbaraHudson]

Mutations that are neutral in one environment will "pop out" when the environment changes. When there's a drastic environmental change, all these environmentally-neutral changes that have accumulated can suddenly be selected for or selected out due to the new environment.

Go back in time and take a selection of dogs and dump them in Newfoundland. Very quickly, those that are less able to handle cold will be out-bred, and those who do not have thick black coats with two layers, so that they can even get war

This needed proving?

[Dereck1701]

Domesticated animals have changed significantly in the past few few decades let alone the past few thousand years. Modern broilers (meat chickens) can't even self procreate due to the changes but also grow from chicks to food in a couple months. Dairy cattle are another example, Today 9.3 Million dairy cattle produce 59% more milk than 25.6 Million cattle produced in the 40s. This isn't limited to animals, grain producing plants have significantly changed since the 30s, corn specifically has went from around 25 bushels per acre in the 30s to over 140 bushels per acre today. Anyone with even a passing knowledge of farming could have told you this. It should be noted though that while these plants/animals work well for modern farming, most would almost certainly go extinct after a few years without human care due to their extreme specialization (grain production, milk production, meat production, egg production etc).

Re:

[burtosis]

The article is about mitochondrial DNA, which to use a computer analogy, is closer to the operating system than features of software as you describe.

Evolution is an optimization algorithm

[tempmpi]

The mechanisms for Evolution itself should also be under selective pressure. I would expect that traits, that allow for a quicker adaption to a changed environment, are a huge improvement of fitness. One example seems to be sexual reproduction as this allows for mixing of different sets of traits and allows sexual selection. But there should be other mechanisms as well. Random mutation seem to be quite ineffective, mechanisms that cause more specific mutations with a higher likelihood of increasing the fit

Re:

[Opyros]

https://en.wikipedia.org/wiki/Evolvability [wikipedia.org]

Wrong measure

[AK Marc]

There's a common misconception that fear can cause your hair to turn white. It's wrong, but true. What happens is that your hair us going white. It's 10% white, and nobody notices. 30% white and people can see it clearly, but don't point it out. But when you are at 30% white and have a strong fear event, you can have some hair fall out. The hair that falls out is disproportionately non-white. So it gives the appearance of a sudden whitening of your hair, caused by fear.

And my first thought on this was the same thing. Random mutation is long-term. But when a selection event happens, the "hidden" trait isn't created, but selected for. There is no "evolution", but a selection pressure that reveals the previous mutation as a preferential trait, making it appear to happen suddenly and revealed by the "cause" but not actually caused by the "cause".

Re: Wrong measure

[mbeckman]

That's a great analogy!

Re:

[dotancohen]

And my first thought on this was the same thing. Random mutation is long-term. But when a selection event happens, the "hidden" trait isn't created, but selected for.

Based on that logic, the elephant statue was already in the marble block before Leonardo began carving, and he just removed everything that wasn't elephant.

Re:

[dotancohen]

Actually, my comment was based upon a quote from Leonardo himself, in which he stated that he simply removed everything that wasn't elephant. It was my way of agreeing with the OP even if his argument sounds ridiculous.

Re:

[The Evil Atheist]

Random mutation is long-term. But when a selection event happens, the "hidden" trait isn't created, but selected for. There is no "evolution", but a selection pressure that reveals the previous mutation as a preferential trait

That IS evolution. What else do you think is meant by evolution by natural selection?

Re:

[AK Marc]

Most people speak about it like the new mutation dominates much quicker. Why would they say that they are finding evolution happens faster than they thought if they already thought what you assert?

Re:

[The Evil Atheist]

There's nothing about evolution that says any trait must "dominate". The very minimum it needs to be is non-recessive.

Re:

[AK Marc]

You seem to be arguing with the implications of the article, not me. Yet you contradict me because you feel the need to argue about it with someone.

Re:

[The Evil Atheist]

No, you have clear misconceptions about evolution. The article is fine.

So..

[willworkforbeer]

Their understanding of this phenomenon is slowly... well, you know.

Background information, link to paper.

[Michael Woodhams]

The paper is here [royalsocie...ishing.org] but it is probably paywalled. (I have institutional access, so I'm not sure what that link will do to people who don't.)

This is part of an ongoing debate about rates of evolution. To a large extent it was kicked off by a 2005 paper by Simon Ho et al. (Ho is second author on this paper.) They observed that estimates of mutation rates derived from studies over short time periods are much higher than mutation rates derived from studies over long time periods. Short time periods are up to a few thousand years, e.g. comparing populations that have been separated by for a few thousand years, or ancient DNA compared to modern DNA in the same species, or multigenerational studies over a few years or decades such as this one. Long time periods are from comparing species whose common ancestor is typically millions of years ago.

This apparent acceleration in mutation rates is controversial.

I'm going to read the paper now, so I may have more to say later.

Re:

[Michael Woodhams]

I've read the (mercifully short) paper now.

A long-running experiment started with a single population of chickens, and has been selectively breeding half for high body weight and the other half for low body weight. The full pedigree is known (mothers and fathers) over 40-50 generations. In addition, the two populations have been cross bred, for 8 generations.

Two mitochondrial mutations were detected in the low weight half of the population, both in one maternal lineage out of four major maternal lineages in

Re:

[RichMan]

Have they factored in epigenetics into this? Where the gene is there but not expressed. Seems to me a lot of generation to generation adaptation can be explained by epigenetics and simply brining out already present factors.

The whole "15 years" thing in the summary should be in generations. That is like forever in botfly generations, yet nothing in land tortoise generations.

Re:

[Michael Woodhams]

No, the paper has nothing about epigenetics. They are looking only at mitochondria which I believe is not affected by epigenetics. I don't think mitochondria can function without all of their genes. They are actually looking directly at the DNA - the mutations really did happen, because they are observing them at the most fundamental level. There is nowhere for them to 'hide'.

The experiment covers about 50 generations. (Or, more accurately, they are piggybacking off an existing experiment that has been runn

Re:

[140Mandak262Jamuna]

I'm going to read the paper now, so I may have more to say later.

Pontificating without reading the paper with a mere cursory glance at the title and guessing what the paper ought to say based on my prior biases produces very interesting threads of conversation.

Already known in humans

[gringer]

We have already observed recent mitochondrial evolution in the human population, with a few mutations specific to Polynesian populations that must have arisen during radiative settlement a few hundred years ago:

http://dx.doi.org/10.1371/jour... [doi.org]

Re:Mutation only, not evolution

[viperidaenz]

The chickens with mutations were kept for further study and their genes live on.
The other chickens are thrown away.

There appears to be a survival advantage.

Re:

[Barsteward]

Thrown away? not KFC'd?

Re:

[viperidaenz]

I assumed there was a rule against using medical experiments as food, but I could be wrong.

Re:

[Oligonicella]

Not one single biological trait conferring a survival advantage was detected.

That's not the criteria for evolution.

Re:Mutation only, not evolution

[the gnat]

We've never observed evolution yet

Wrong [talkorigins.org]

some scientists only assume it from observed differences in the fossil record.

Not "assume", "infer", and anyway decades of molecular biology, genetics, and genomics have proven at least as useful as fossils. My favorite example here [stackexchange.com].

Re:Mutation only, not evolution

[DRJlaw]

We've never observed evolution yet -- some scientists only assume it from observed differences in the fossil record.

Who is "we," kimosabe? Because the repeated emergence of antibiotic resistance, for example, is observed evolution. Then, if you're going to hang your hat on supposed horizontal gene transfer for antibiotic resistance, there's that niggling problem of emerging resistance to antimalarial drugs...

You-we may never have observed evolution, but medical-we certainly has.

Re: Mutation only, not evolution

[the biologist]

https://en.wikipedia.org/wiki/E._coli_long-term_evolution_experiment

E. coli evolved to eat a new chemical (citrate). It developed a new enzyme to do it. E. coli was previously defined as not being able to eat citrate. By the former definition, it has evolved into a new species.

How is antibiotic resistance a loss of function? Troll better, please.

Re:

[DRJlaw]

However, mutation and natural selection have only been seen to result in bacteria with defective proteins that have lost their normal functions.

Citation needed. Antibiotic resistance plasmids do not cause the normal proteins of the bacterium to become non-functional. They add capabilities to organisms that did not have those capabilities before.

Also, producing more of a protein [nih.gov] does not equal "defective proteins." Genetic upregulation of protein expression is still a mutation.

You honestly have no idea wha

Re:

[mbeckman]

Another name-caller! This behavior just weakens your argument. I suggest you stick to facts in evidence.

Science has closely studied two genera of bacteria to gain an understanding of antibiotic resistance: Escherichia and Salmonella. While driven by expediency -- many people become ill from these organisms, so antibiotic resistance can be easily observed -- researchers have looked for, but not found, the smoking gun of evolution in antibiotic resistance. In speaking about Escherichia in an evolutionary c

Re:

[rahvin112]

We have better than 2 dozen scientifically confirmed speciation events fully documented and available in the literature in the less than 200 years we've been watching.

Evolution is a fact. There are entire branches of biological sciences based on it that would not be viable sciences without the existence of evolution. Those branches of science have a direct effect on you several times a year and one day they might cure your cancer. To deny evolution denies the reality around us every day.

Re:

[the biologist]

Name one of your tons of failed predictions of evolution. Be careful, I'll be able to tell if you're blaming a failed prediction of some not-evolution theory on evolution.

Re:

[mbeckman]

I'm not the one asserting that evolution is a fact. The person making the positive assertion has the burden of proof. The challenger is not obligated to prove the negative (e.g. evolution is not a fact).

I always get to this point with evolutionists. They claim proof, but never deliver. That means they lose.

Re: Mutation only, not evolution

[the biologist]

Several of them are listed here: http://www.talkorigins.org/faq... [talkorigins.org]

Re:

[Barsteward]

"evolution is a religion" you must be one of the potential Republican presidential candidates.....

Re:

[Anonymous Cow Ward]

Speciation in a vertebrate [berkeley.edu]. You may also find this website [talkorigins.org] educational.

Re:

[Michael Woodhams]

Not one single biological trait conferring a survival advantage was detected.

True, but that wasn't what they were looking for.

The authors surmise "paternal leakage", but nobody really knows the source of the mutations.

False. The paternal leakage was as well as detecting the mutations (and detection was enabled by the mutations.) It is not put forward as an explanation.

We've never observed evolution yet

False. Evolution in HIV adapting to evade drug therapy can be seen in time series of samples taken from a single patent (and this has been replicated many times.)

Re: Mutation only, not evolution

[mbeckman]

HIV is a virus. It's not alive, and hence can't "survive". Viruses are DNA clockwork mechanisms that can't reproduce without hijacking a host cell, and thus can't enter the realm of biological evolution, which aims to explain the origin of life, not clocks.

Re:

[Michael Woodhams]

Viruses meet all the requirements needed for evolution to apply to them.

Re:

[the biologist]

There is no requirement for something to be alive for it to evolve.

The requirements for a system to evolve are pretty simple:
1. Some aspect of it must reproduce.
2. During reproduction, a "child" is similar to the "parent".
3. Sometimes traits change randomly.
4. Death happens.

Systems well outside the domain of conventional biology can experience evolution.

Re: Mutation only, not evolution

[mbeckman]

By that definition, a quartz crystal evolves.

Evolution requires adding information content. There is no evidence that viruses (or any actually living things) increase information content between generations. Mutations have only been observed to reduce complexity, and thus information content.

Re:

[the biologist]

Also... evolution does not in any way seek to explain the origin of life. You're thinking of abiogenesis, a distinctly not-evolution area of study.

Re:

[Barsteward]

Have you been playing with your name to create a handle for /. Is your name really Michelle Bachmann?

Re: Mutation only, not evolution

[mbeckman]

Name-calling is the last bastion of the man without an argument.

Re:

[dave420]

And your childish misrepresentation of the facts, frequent confusion of "evolution" and "the theory of evolution", and willful ignorance of the accurate prediction made by the theory of evolution are the first bastion of an idiot with an axe to grind. Were you abused by a biologist as a child? Maybe one killed your Pa?

Re:

[labnet]

What I don't understand, is if it takes so many generations for a mutation that may or may not do anything, how do you explain complex functions that require thousands of beneficial mutations before the new functionality actually causes a survival benefit. I can't see how it would ever happen.
It's like throwing match sticks on a floor hoping one day it makes a sentence. You may after billions of attempts get a letter, but you will never achieve a whole sentence when those partial non beneficial mutations th

Re:

[burtosis]

What I don't understand, is if it takes so many generations for a mutation that may or may not do anything, how do you explain complex functions that require thousands of beneficial mutations before the new functionality actually causes a survival benefit. I can't see how it would ever happen. It's like throwing match sticks on a floor hoping one day it makes a sentence. You may after billions of attempts get a letter, but you will never achieve a whole sentence when those partial non beneficial mutations that are yet to form a beneficial structure are mutated back out again.

You understand correctly. It is extremely rare if non-existent for even small non functional changes. All changes have some intermediate functional state. You can have horizontal transfer in some cases, but this does not imply you get a free lunch, nor does an inactive or 'junk' sequence acquiring an advantage.

It's also beneficial to note that with organisms like bacteria, over long periods of time, it's not billions of attempts, not trillions, not quadrillions. It surpasses quintillions of attempt

Re: Mutation only, not evolution

[mbeckman]

Wolves and dogs are the same species. Wolves and dogs are interfertile, meaning they can breed and produce viable offspring. In other words, wolves can interbreed with any type of dog, and their offspring are capable of producing offspring themselves. While it's likely true that men domesticated dogs from wolves, no additional functions were added to create a dog. Rather, functions were subtracted from wolves to produce dogs.

An essential aspect of evolution is that it is a random processing, not the resu

Re:

[the biologist]

An essential aspect of evolution is that it is a random processing, not the result of conscious decisions by another organism.

What you've just described is in no way an essential aspect of evolution. It isn't even part of evolution. If some change in a population is the result of concious (or unconcious) decisions by another organism... evolution has still happened.

Re:

[the biologist]

The authors of the paper are talking about evolution, not "Darwin's evolution". We don't hold Darwin as a figurehead. He had some good ideas, but we've learned much since then.

Re:

[NoOneInParticular]

I think you've got your emphasis wrong. Darwinian evolution explains the origin of species, not the origin of life. Given that life exists, Darwin explains that adaptation, speciation and the diversity of life we witness on Earth will necessarily happen. From a Darwinian perspective it truly doesn't matter whether there is "conscious" control or not, species interacting with each-other lead to differential survival rates in these species, and therefore evolution of traits that help with survival.

Humans a

Re: Mutation only, not evolution

[mbeckman]

When Charles Darwin published The Origin of Species he avoided discussing the origin of life. However, reading other texts by Darwin, and correspondence he exchanged with friends and colleagues, reveals that he took for granted the possibility of a natural emergence of the first life forms. As shown by notes from pages he pulled from his private notebooks, Darwin was convinced that âoethe intimate relation of Life with laws of chemical combination, & the universality of latter render spontaneous ge

Re:

[Anonymous Cow Ward]

And yet, regardless of what Darwin did or did not believe, the modern theory of evolution does not address the origin of life. Abiogenesis is its own thing, and involved substantially less evidence and more guesswork.

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[Anonymous Cow Ward]

No - Darwin's title is more properly interpreted as "how species came about", which does not mean "how life came to be". Oftentimes, organisms grow more complex over time, but not always.

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[Anonymous Cow Ward]

Evolution does not cover the origin of life. It covers life's diversification after life existed.

Re: Evolution is more general

[mbeckman]

But teleology is just a wishful philosophy, like the selfish gene. It's not causation and adds nothing to cause-and-effect empirical science. .

Re:

[mbeckman]

Also from Wikipedia (https://en.wikipedia.org/wiki/Teleology):

"Contemporary philosophers and scientists are still actively discussing whether teleological talk is useful or accurate in doing modern philosophy and science."

If they're still discussing whether teleology is "useful or accurate", it seems doubtful that it actually is essential to biology.

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[blue trane]

"it's not random and undirected, a requirement for evolution."

Counterpoint, by J. B. S. Haldane [wikipedia.org]:

"Teleology is like a mistress to a biologist: he cannot live without her but he's unwilling to be seen with her in public."

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[the biologist]

Selective breeding is not evolution. First, it's not random and undirected, a requirement for evolution. Second, it creates no new traits. Selective breeding can only select among traits already existing in the genome.

Evolution isn't random and undirected. Random mutation paired with non-random selection results in evolution in the way it is conventionally thought of. Selective breeding changes the populations being selected, so does result in evolution.

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[rossdee]

When did chickens get to the Americas then?

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[AK Marc]

http://lmgtfy.com/?q=chickens+... [lmgtfy.com]

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[NoOneInParticular]

Apparently, civilization is part of the chicken's environment now. To compare: ants have selectively bred greenfly to the point where the greenfly cannot poop unless an ant milks them. Have the greenfly not evolved? Have the ants?

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[myowntrueself]

15 years? The researchers observed 2 SNPs in a population of chickens over 50 years; which is "15x faster" than the previous estimate of 2% evolution every million years. There also wasn't much selection on these chickens, as they were lab chickens, so even less-fit mutations would persist. One SNP was non-synonymous (meaning it results in a codon change), and one SNP was synonymous (no codon change).

I'm not seeing where they got "Significant changes in 15 years" out of the article.

Interestingly, theropods (which Chickens evolved from) evolved very rapidly themselves.

Also, bird (and probably dinosaur) DNA and chromosomes works a little differently to mammals. Birds can be split down the middle with one half being male, the other female. Mammals can't do that (because hormones). Also female birds can produce offspring without males. Turkeys do this fairly regularly, all the offspring are male.

Birds work differently to mammals.

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[PopeRatzo]

Here's a better summary for you, after the chili I ate last night, there are now 80% less bacteria in my gut but those that remain are entirely new species never before seen.

If you ate the same chili I did, they won't be in your gut for long.

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[PPH]

Within 15 years

We've told you a million times: Don't exaggerate.

Re: Happens even among human populations

[mbeckman]

But they will still be people.

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[The Evil Atheist]

How do you measure whiteness of people (not necessarily skin colour)?

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[Michael Woodhams]

So this seems to just be another study showing the trickiness of using that 'clock'.

I agree except for the word "just". Yes, very much one of the things they are saying is that the molecular clock may have quirks, and failing to account for them will lead to error. (Whether this quirk is one which can be accounted for accurately isn't addressed in this paper, they are trying to establish that the quirk does in fact exist.) But it is more interesting that that, being a pedigree study over a large number of generations, and having a well documented case of paternal leakage. The only pedigree