My take away from this is that letting the small fish go under the premise that they are juveniles that will later grow to be bigger lets the adult midgets go, ruining the gene pool. I wonder if this finding will have any impact on conservation rules against taking small fish when fishing.
magicalhippo · 10h ago
> My take away from this is that letting the small fish go under the premise that they are juveniles that will later grow to be bigger lets the adult midgets go, ruining the gene pool.
I read about this being tested in large fish tanks using either cod or trout some 20+ years ago, where they removed fish either randomly, or let the small ones go. They came to the same conclusion: letting small fish go results in reduction of average size of mature fish after a few generations.
The authors of the submitted paper references this[1] article, which points out the following:
Despite a theoretically strong conceptual basis, evidence of genetic change unequivocally attributable to wild-capture fisheries has been elusive. Among the top five threats to biodiversity, evidence for genetic trait change is strongest for studies of pollution and weakest for studies of overexploitation (and habitat change). Determining whether phenotypic change in declining populations is the result of evolution, as opposed to other influences on growth, survival, and fitness, or gene flow from adjacent populations, has proven challenging.
So this paper seems to provide evidence that the lab results holds up in the wild.
> Size obviously matters when it comes to mating for salmon. However, being a small male can also succeed when it comes to scoring a female. The so-called "jacks" that are found in chinook and coho salmon are male individuals that return to their natal streams a couple of years earlier than expected.
> Although they are much smaller than a fully grown male, they are also sexually matured when they reach the spawning ground. What advantages do these smaller fish have? It is obvious that they will not win when confronted by a fully grown male. Behavioural biologists believe that these jacks are "sneaker males". Their duty is to simply stand by when larger males are fighting for territory, and sneak in while unnoticed to mate with the females that are also waiting for the fights to end. As you can see, being big does not always have all the advantages, sometimes being small can be very beneficial too.
IIRC the female already laid the eggs, and the big males start to fight. During the fight the small one sneaks a fertilice them. "Waiting" and "Mate" are misleading.
kulahan · 7h ago
It's kind of hilarious to me that the female watches the males fight to the point that she doesn't even watch her own eggs. I wonder how long these jacks have been around?
gus_massa · 6m ago
IANAB IIRC salmons lay the eggs is swallow holes in a quiet part of the river. She is problably thinking that those idiots are going to spill the eggs and they will be drafted by the water and die, so she has to try to keep the fight away.
xbmcuser · 9h ago
Being small is an evolutionary advantage in this case so that is understandable outcome. On the other hand for maine lobsters they let large males and egg laying females go with the large life spans of lobsters would be hard to compare if they getting larger
ruined · 11h ago
trawlers historically haven't really discriminated by size. development of decent selective trawling equipment, and introduction of a minimum size is fairly recent
>Data quality for stock assessments has deteriorated, discarding of cod has not decreased despite a reduced minimum size and there are no indications of increased gear selectivity in the fishery
kbutler · 10h ago
...haven't /INTENTIONALLY/ discriminated by size...
The article says smaller fish could more easily escape the nets. Though it doesn't cite studies documenting that, it does seem reasonable.
fny · 9h ago
Id think the small fish are let go more often because they aren't good eats. No one is trying to cheat the warden for a six incher.
londons_explore · 23m ago
A good chunk of fish caught are ground up and fed to chickens/other fish.
The grinder doesn't care what size the fish are.
twelve40 · 11h ago
maybe, but how can you possibly tell - in bulk - if you are dealing with a midget or really a young fish that had no chance to spawn? (which is the point here)
thaumasiotes · 12h ago
> ruining the gene pool
In what sense? Is being bigger Platonically better than being smaller?
p1necone · 11h ago
Presumably the optimal size for survival when humans aren't applying pressure via fishing is bigger. Perhaps "ruining" is hyperbolic, but this is making the fish less fit for their environment.
Scarblac · 3h ago
Their environment is one where humans prey on them, especially on the large ones. It's a selection pressure like any other and becoming smaller on average makes them more fit for that environment.
tzs · 10h ago
It is making them less fit for their environment? I can see how it is making them less fit for the environment they used to be in before they were subject to large scale human fishing, but that's not their environment now.
mattmaroon · 8h ago
If that’s the case it should return if we stopped fishing.
heavyset_go · 6h ago
Not always the case. Any number of things can happen that could prevent that from happening, like extinction, as an extreme example.
kbutler · 10h ago
...less fit for their environment excluding human fishing pressure.
kulahan · 7h ago
In the sense that the gene pool is being unintentionally manipulated by humans, when the original goal was to try and leave it undisturbed to an extent.
hungmung · 12h ago
> Is being bigger Platonically better than being smaller?
Maybe, most animals evolve towards larger sizes. Except on smallish islands, where they tend to become smaller.
thaumasiotes · 7h ago
> Maybe, most animals evolve towards larger sizes.
This is not even a little bit true.
ruined · 10h ago
if you're interested in maintenance of the fishery, size reduction is a primary indicator of failure. so yes
wiseowise · 4h ago
Yes. It is.
thatguy0900 · 12h ago
It's better if you want to eat them lol
bluGill · 12h ago
Small fish generally taste better in my experience. Small of course implies younger, so we let the biger ones go as well as small ones - there is a too small to eat point.
No comments yet
yard2010 · 24m ago
This is why I'm afraid of mosquitoes. Fighting them means creating a superhuman (super mosquito?) version that will be resistant to everything. When they find new diseases to obliterate the human race with, we are done.
Personally, I believe that mosquitos are far more concerning than any other impending environmental disaster.
rr808 · 9h ago
I'm sure I read somewhere that Maori fishermen used to eat small-mid sized fish and left the largest ones because they were the best breeders. I can't find a reference now but has logic.
robocat · 7h ago
That is for eels.
I met a fella whose income came from going up coastal streams (canoe? Dingy with outboard?) to catch eels to sell. He definitely left the largest (queens?).
I don't like how this is worded. Makes it sound as though the cod are actively reducing their size. But this is very straight forward Darwin's Theory, survival of the fittest, in action. In this case, the "fittest" cod are the ones with the propensity to be small, since they can escape the nets and survive to breed and pass on that propensity.
And it follows that there won't be a "bounce back" of the larger cod any time soon, as it takes thousands of years in a minimally interrupted state for such diversity to come about in nature. Of course this applies to all other living creatures as well.
littlexsparkee · 16h ago
Had to truncate the title to fit 80 char limit
Pertains to Eastern Baltic cod, not all
Aardwolf · 13h ago
Scientists Find why Eastern Baltic Cod Shrank for Decades
Or, still fitting:
Scientists Find Eastern Baltic Cod Shrank due to Overfishing Affecting Genepool
chasil · 12h ago
Eastern Baltic Cod Shrank due to artificial selection
mhb · 13h ago
Eastern Baltic Cod Shrinking for Decades; Scientists Have Answer
lambdasquirrel · 9h ago
Reminds me of a line that Philip Glass co-opted for his 5th Symphony:
“Therefore the land mourns, and all who dwell in it languish, and also the beasts of the field and the birds of the heavens, and even the fish of the sea are taken away.”
A very poetic and spiritual take, however IMHO he missed the elephant in the room for the compassion argument: breeding is much more cruel than killing by the harsh, prolonged condition. The killing in comparaison is nearly instant and arrive as a relief of that condition. Both comes together though and only considering the quicker and "natural" one isn’t fair.
It might sound like a boring topic, but it's one of the best books I've read and something I recommend a lot.
jbaber · 9h ago
By the author of Salt and interesting in the same way for the same reason. Much shorter!
ivanbalepin · 11h ago
What's impressive is that somebody, somewhere keeps collecting a nice stash of Eastern Baltic cod otoliths in hopes that somebody else would come along and invent a new way to use them.
shellfishgene · 4h ago
These types of time series are super important, but hard to finance as they often only yield cool papers after decades.
PicassoCTs · 1h ago
We need to make certain parts of the world- unfishable- as in drag-net destroying pylons on the sea-floor, the waters mined with drones that attack any boat entering with the intent to fish. Its the only thing working against the international lawlessness picking the planet clean.
blueflow · 1h ago
How are the drones going to recognize intent?
jongjong · 10h ago
I've often made the argument that evolution can happen very quickly within a few generations and doesn't necessarily take millions of years. It's interesting to see some cases in nature where rapid changes in a predator's behavior (in this case humans) can radically alter a visible trait.
cortesoft · 9h ago
Is this really an argument or just fact? From what I understand, the modern accepted view of evolution is that it happens in a sudden step wise manner... there will be an equilibrium, where the ecosystem is fairly stable and species don't change much, and then some shock or change will happen and evolution will be rapid, over a relatively short period.
This makes sense if you think deeply about it; evolution will only happen when the 'normal' genetic expression stops surviving, otherwise the random variations will even out.
kulahan · 7h ago
I assumed most of the actual genetic variation comes in during times of plenty, when you can have lots of offspring without worrying about them being perfectly tuned for their environment. Then a shock comes along, straining the population in some way, and whoever happens to have the right genes simply survives. The "millions of years" thing is probably for becoming a whole separate species, no? Like our ancestors turning into homo sapiens.
point being: I imagine it's sorta the opposite - evolution happens when things are stable, but the species is only shaped towards it during hard times
edit: This is reflected in the mammalian explosion - while dinosaurs ruled the earth, things were stable. asteroid comes, hard times arrive, mammals suddenly explode because they were most-ready to take over new environments thanks to their already-developed genes. Millions of years of honing all that led to H. Sapiens, the hot new species
cortesoft · 3h ago
I think the genetic variation you get when times are plenty will only hover around the mean, though, until some restraint pushes it a specific direction.
Here is a simplistic example of what I am trying to say:
Imagine you have a population of creatures, and they have some gene (or combination of genes) that controls how much cold they can tolerate. Some can tolerate very cold weather, some can barely tolerate any cold weather, and some are in the middle. They all can live happily, and mate randomly, meaning the individuals who have a high cold tolerance will (on average, since most other individuals by definition will have lower cold tolerance) mate with an individual who has lower cold tolerance. In other words, the next generation will genetically regress to the mean.
This continues on as long as all the individuals can survive at basically the same rate.
Now, imagine there is suddenly a very cold winter, and the individuals who can't tolerate cold die off. Now, there aren't any (or many) individuals with low cold tolerance for the higher tolerance individuals to mate with, meaning it won't regress back to that mean (or more accurately, it will regress back towards the new mean based on a population without the susceptible to cold individuals). Now, that genetic variation you get from generation to generation might reach new extremes that it never would have gotten to during times of plenty.
maxbond · 10h ago
I knew someone who started a farm of Spirulina (a microscopic, edible algae [cyanobacteria]) in a very different climate from where the seed culture originated. They did really poorly for the first few days, they were the wrong color and the culture wasn't growing. But eventually they adapted to the new climate and bounced back, and he was able to scale the culture up to multiple greenhouses and harvest it on an ongoing basis.
heavyset_go · 6h ago
Evolution where genetic drift results in distinct species would take generations and necessarily some time
bpodgursky · 8h ago
It really depends on whether you can select from variation within the existing population, where the genetic variants already exist, in which case it can happen very fast, or if you are evolving net-new functionality (opposable thumbs), which can take anywhere between millions of years and eternity.
morkalork · 9h ago
The one that gets me is the Soviet experiment in domesticating foxes that worked after a few dozen generations. How many generations have humans been around with tools and technology? We've been domesticating ourselves.
thaumasiotes · 12h ago
The traditional approach to this problem is to harvest males and let females go. You're not going to select them out of sexual reproduction.
You will see males evolve to resemble females more closely, though.
netsharc · 11h ago
The fish trap will have to be quite elaborate... maybe hang Playcod centerfolds in them?
arusahni · 7h ago
Thanks for this cod piece.
macinjosh · 13h ago
Are there any 'old fashioned' cod in captivity or maybe stored DNA samples? Maybe Collosal could splice the missing genes back in and bring them back into the gene pool.
shellfishgene · 4h ago
This is about Eastern Balic cod, so theoretically genes from, for example, Norwegian cod could be spliced in. However body size is usually a polygenic trait with potentially hundreds of genes involved, so that's not possible.
eMPee584 · 11h ago
Or, instead of wooly mammoths, bring back fishy ones.
SoftTalker · 13h ago
If there is a survival advantage to larger cod (presumably there is, or they would not have developed) and if fishing is tightly regulated, they should return eventually.
gcanyon · 12h ago
Not necessarily — the “large” genes could literally have been extracted from the gene pool.
It’s possible for them to mutate back into existence, but that’sa lower-probability, much longer proposition than if the genes are still available and just selected against.
mscavnicky · 13h ago
Regression?
cratermoon · 15h ago
Spoiler: because overfishing altered their genes
LarsDu88 · 10h ago
The overfishing altered the allele frequencies of certain genes.
Actually directly altering the genes would have to involve mutation or direct engineering which is a bit more involved.
I think a good way to think about this is with human dwarfism. Many humans with achondroplasia get it through de novo mutation, but some get it by a combination of having two recessive loss of function genes that get transmitted by both parents (often of normal height)
Now imagine a laser beam that went and killed every human above a certain height. Young people would be spared along with adults with dwarfism. Over many generations, previously rare genes for dwarfism would increase in frequency shifting the average height of the population lower and lower.
It is the change in frequency that matters here more than the underlying explanation of what changed the genes.
delfinom · 13h ago
Overfishing didn't alter their genes. It altered the genepool.
3eb7988a1663 · 13h ago
To be fair, that is the subtitle, "Eastern Baltic cod grow to much smaller sizes than they did just 30 years ago, because overfishing altered their genes, according to new research"
thriorruii5785 · 10h ago
Modernity/Capitalism supercharges the hate Christianity has for nature, and well take out the earth with ourselves in the process soon.
I read about this being tested in large fish tanks using either cod or trout some 20+ years ago, where they removed fish either randomly, or let the small ones go. They came to the same conclusion: letting small fish go results in reduction of average size of mature fish after a few generations.
The authors of the submitted paper references this[1] article, which points out the following:
Despite a theoretically strong conceptual basis, evidence of genetic change unequivocally attributable to wild-capture fisheries has been elusive. Among the top five threats to biodiversity, evidence for genetic trait change is strongest for studies of pollution and weakest for studies of overexploitation (and habitat change). Determining whether phenotypic change in declining populations is the result of evolution, as opposed to other influences on growth, survival, and fitness, or gene flow from adjacent populations, has proven challenging.
So this paper seems to provide evidence that the lab results holds up in the wild.
[1]: https://www.pnas.org/doi/full/10.1073/pnas.2105319118
> Size obviously matters when it comes to mating for salmon. However, being a small male can also succeed when it comes to scoring a female. The so-called "jacks" that are found in chinook and coho salmon are male individuals that return to their natal streams a couple of years earlier than expected.
> Although they are much smaller than a fully grown male, they are also sexually matured when they reach the spawning ground. What advantages do these smaller fish have? It is obvious that they will not win when confronted by a fully grown male. Behavioural biologists believe that these jacks are "sneaker males". Their duty is to simply stand by when larger males are fighting for territory, and sneak in while unnoticed to mate with the females that are also waiting for the fights to end. As you can see, being big does not always have all the advantages, sometimes being small can be very beneficial too.
IIRC the female already laid the eggs, and the big males start to fight. During the fight the small one sneaks a fertilice them. "Waiting" and "Mate" are misleading.
as a data point, a recent change in regulations regarding eastern Baltic cod had no statistical effect on reported catch https://link.springer.com/chapter/10.1007/978-3-030-03308-8_...
>Data quality for stock assessments has deteriorated, discarding of cod has not decreased despite a reduced minimum size and there are no indications of increased gear selectivity in the fishery
The article says smaller fish could more easily escape the nets. Though it doesn't cite studies documenting that, it does seem reasonable.
The grinder doesn't care what size the fish are.
In what sense? Is being bigger Platonically better than being smaller?
Maybe, most animals evolve towards larger sizes. Except on smallish islands, where they tend to become smaller.
This is not even a little bit true.
No comments yet
Personally, I believe that mosquitos are far more concerning than any other impending environmental disaster.
I met a fella whose income came from going up coastal streams (canoe? Dingy with outboard?) to catch eels to sell. He definitely left the largest (queens?).
Good article: https://ourwayoflife.co.nz/from-vermin-to-icon-new-zealands-...
Also interesting: https://www.1news.co.nz/2025/04/05/thousands-of-eels-found-d...
And it follows that there won't be a "bounce back" of the larger cod any time soon, as it takes thousands of years in a minimally interrupted state for such diversity to come about in nature. Of course this applies to all other living creatures as well.
Pertains to Eastern Baltic cod, not all
Or, still fitting:
Scientists Find Eastern Baltic Cod Shrank due to Overfishing Affecting Genepool
“Therefore the land mourns, and all who dwell in it languish, and also the beasts of the field and the birds of the heavens, and even the fish of the sea are taken away.”
https://tricycle.org/magazine/meat-eat-it-or-not-philip-glas...
https://web.archive.org/web/20250321203216/https://tricycle....
A very poetic and spiritual take, however IMHO he missed the elephant in the room for the compassion argument: breeding is much more cruel than killing by the harsh, prolonged condition. The killing in comparaison is nearly instant and arrive as a relief of that condition. Both comes together though and only considering the quicker and "natural" one isn’t fair.
It might sound like a boring topic, but it's one of the best books I've read and something I recommend a lot.
This makes sense if you think deeply about it; evolution will only happen when the 'normal' genetic expression stops surviving, otherwise the random variations will even out.
point being: I imagine it's sorta the opposite - evolution happens when things are stable, but the species is only shaped towards it during hard times
edit: This is reflected in the mammalian explosion - while dinosaurs ruled the earth, things were stable. asteroid comes, hard times arrive, mammals suddenly explode because they were most-ready to take over new environments thanks to their already-developed genes. Millions of years of honing all that led to H. Sapiens, the hot new species
Here is a simplistic example of what I am trying to say:
Imagine you have a population of creatures, and they have some gene (or combination of genes) that controls how much cold they can tolerate. Some can tolerate very cold weather, some can barely tolerate any cold weather, and some are in the middle. They all can live happily, and mate randomly, meaning the individuals who have a high cold tolerance will (on average, since most other individuals by definition will have lower cold tolerance) mate with an individual who has lower cold tolerance. In other words, the next generation will genetically regress to the mean.
This continues on as long as all the individuals can survive at basically the same rate.
Now, imagine there is suddenly a very cold winter, and the individuals who can't tolerate cold die off. Now, there aren't any (or many) individuals with low cold tolerance for the higher tolerance individuals to mate with, meaning it won't regress back to that mean (or more accurately, it will regress back towards the new mean based on a population without the susceptible to cold individuals). Now, that genetic variation you get from generation to generation might reach new extremes that it never would have gotten to during times of plenty.
You will see males evolve to resemble females more closely, though.
It’s possible for them to mutate back into existence, but that’sa lower-probability, much longer proposition than if the genes are still available and just selected against.
Actually directly altering the genes would have to involve mutation or direct engineering which is a bit more involved.
I think a good way to think about this is with human dwarfism. Many humans with achondroplasia get it through de novo mutation, but some get it by a combination of having two recessive loss of function genes that get transmitted by both parents (often of normal height)
Now imagine a laser beam that went and killed every human above a certain height. Young people would be spared along with adults with dwarfism. Over many generations, previously rare genes for dwarfism would increase in frequency shifting the average height of the population lower and lower.
It is the change in frequency that matters here more than the underlying explanation of what changed the genes.
Hail the great anthropocene.