Anyway, I accept that I'm probably wrong but it was just an idea I had
No, no! This subject is too interesting.Let's discuss it controversially.
I just answered to your scattered thoughts with my own scattered thoughts. What I say is probably not the ultimate answer!
Does this not make sense? If reproductive ability is one of the most strongly selected characteristics then why is it so easy to increase this ability artificially? Would you say it's simply that resources in the wild are not as plentiful? That would make sense I guess...
Is it easy to increase reproductive ability? I don't know if this is general true.
In the industrial nations men nearly live under "laboratory conditions". No contact to nature necessary. Enough food and no natural enemies. The life span is raising, yes!
But we can not reproduce any more. The birth rates are sinking every year. At the moment in our country the birth rate is at 1,3 children per woman.Tendency sinking.
Different from this in the third world countries we have still a high birth rate. But why? Any explanation? I would expect high birth rates rather under good conditions than under bad conditions.
So if it is so easy to increase reproduction: My gouvernment would be grateful for a solution. How could we increase reproduction in industrial nations?
And even so, do you think that genes which are deleterious in early life but beneficial in late life could be selected for in these experiments just as much as genes that are deleterious in late life are selected against? It makes sense to me that they could but Im struggling to find anything written about this (which probably means I'm an idiot ). Of course it would probably take longer as you have to wait for the right mutation/allele to appear which would take a while. This could also explain the reduced early fecundity maybe? (deleterious early on).
I generally would agree to the hypothesis but it is not universal.
Well, the antagonistic pleiotropy hypothesis gives us an example:
The good/bad testosterone hypothesis.
An example of this is testosterone levels in male humans. Higher levels of this hormone lead to increased fitness in early life, while causing decreased fitness in later life due to a higher risk for prostate cancer.[11] This is an example of antagonistic pleiotropy being an explanation for senescence. Senescence is the act of ageing in individuals; it's the failure over time of the individual's life processes by natural causes.
Example taken from wikiI don't know if this example is a good example. We can not say that testosterone is generally bad in aged individuals. There are some "side effects" like prostate cancer which limit lifespan. But according to scientific research I can not see a general problem with testosterone. Maybe DHT (dihydrotestosterone) would be a problem, but there are other ways to control ist. There are other solutions for the prostate problem than stopping the testosterone. Testosterone is important for aged persons.
I would rather say that the
sinking DHEA level and the
sinking melatonin level could be a problem leading to a DHEA/testosterone imbalace?
Am I going to much into details?
General hypothesis are easy made but the devil is in the detail.
Edited by Hedrock, 25 April 2010 - 09:17 AM.