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This is the title of an article in the most recent issue of Science, the magazine of the American Association for the Advancement of Science. I have added a link below, but it may be behind a paywalls and I can't copy the article. What follows is pretty nerdy but, at least for nerds, may be of some interest. Having said that, this research may also have an impact on hunters.
The gist of the article is that tusklessness in female African elephants is clearly a genetic matter (long known) but that it may also be an evolutionary adaptive response to certain types of harvest.
The researchers focused on elephants in Mozambique over a 28 year period, 15 years of which involved civil war. During that war, combatants, to raise money, poached elephants for their ivory (as one might expect). This "intensive selective killing" of tusked females caused a rapid increase in the proportion of the population which was tuskless. So far, this is simple math, and wouldn't be unexpected. The interesting aspect of the research was that the frequency of tuskless female births after the war ended was also higher than before the conflict, and beyond the numbers which would normally be expected, which they argue suggests an evolutionary response as well as the expected genetic response. Of course, there could be other explanations for this, but the scientists' modelling showed that the increase in tuskless female births after the end of the civil war was extremely unlikely to have been caused by genetic factors alone.
I will leave a critique of the statistical and genetic modelling to those who are more knowledgeable than I am, but it is interesting to think that hunting could provoke an evolutionary response away from the traits favoured by hunters, particularly in such a short period of time (evolutionarily speaking).
Of course, this argument has been raised against hunting for decades in North America, where many argue that by targeting males with the largest horns/antlers, hunters are 'degrading' the gene pool and that eventually, only animals with small horns/antlers will be left. And in fact, the article makes just this connection. Of course, anyone who reads or follows the record books knows that this is demonstrably not the case, at least not in North America.
Perhaps one reason is that the numbers of animals harvested from North American populations is strictly controlled and quite small in comparison to overall populations. This clearly wasn't the case during the Mozambique civil war, where tusked elephants of both sexes were hammered (a scientific term!). This provides support for the argument that well-regulated hunting, including what we call trophy hunting (a term I hate), doesn't have a negative impact on the physical traits of hunted populations.
In fact, it might be interesting to study the effects of well-regulated hunting on the genetic diversity of hunted populations. Given that many male animals hunted are likely breeding males (such as in elk herds in North America of zebra, impala, blesbok, etc. herds in Africa), is it possible that hunting, by allowing males to breed which wouldn't otherwise have had that opportunity, increases rather than decreases genetic diversity?
The link is https://www.sciencemagazinedigital....021002&utm_content=gtxcel&pm=2&folio=394#pg26
The gist of the article is that tusklessness in female African elephants is clearly a genetic matter (long known) but that it may also be an evolutionary adaptive response to certain types of harvest.
The researchers focused on elephants in Mozambique over a 28 year period, 15 years of which involved civil war. During that war, combatants, to raise money, poached elephants for their ivory (as one might expect). This "intensive selective killing" of tusked females caused a rapid increase in the proportion of the population which was tuskless. So far, this is simple math, and wouldn't be unexpected. The interesting aspect of the research was that the frequency of tuskless female births after the war ended was also higher than before the conflict, and beyond the numbers which would normally be expected, which they argue suggests an evolutionary response as well as the expected genetic response. Of course, there could be other explanations for this, but the scientists' modelling showed that the increase in tuskless female births after the end of the civil war was extremely unlikely to have been caused by genetic factors alone.
I will leave a critique of the statistical and genetic modelling to those who are more knowledgeable than I am, but it is interesting to think that hunting could provoke an evolutionary response away from the traits favoured by hunters, particularly in such a short period of time (evolutionarily speaking).
Of course, this argument has been raised against hunting for decades in North America, where many argue that by targeting males with the largest horns/antlers, hunters are 'degrading' the gene pool and that eventually, only animals with small horns/antlers will be left. And in fact, the article makes just this connection. Of course, anyone who reads or follows the record books knows that this is demonstrably not the case, at least not in North America.
Perhaps one reason is that the numbers of animals harvested from North American populations is strictly controlled and quite small in comparison to overall populations. This clearly wasn't the case during the Mozambique civil war, where tusked elephants of both sexes were hammered (a scientific term!). This provides support for the argument that well-regulated hunting, including what we call trophy hunting (a term I hate), doesn't have a negative impact on the physical traits of hunted populations.
In fact, it might be interesting to study the effects of well-regulated hunting on the genetic diversity of hunted populations. Given that many male animals hunted are likely breeding males (such as in elk herds in North America of zebra, impala, blesbok, etc. herds in Africa), is it possible that hunting, by allowing males to breed which wouldn't otherwise have had that opportunity, increases rather than decreases genetic diversity?
The link is https://www.sciencemagazinedigital....021002&utm_content=gtxcel&pm=2&folio=394#pg26
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