Of course they did. Anyone on the internet about a year - 2 years ago remembers every time you mentioned monsanto they would send shills in to defend them and call you a tin-foil hat conspiracy theorist.
It's been really frustrating trying to have any nuanced stance on GMOs with proponents doing the "durr all modern crops are genetically modified by human selection" and such. Like no shit, it is still possible to acknowledge that and believe that there are legitimate concerns about intellectual property, or with modifying a crop to be resistant to a carcinogenic poison farmers are going to dump all over it.
A lot of the pro-GMO people seem to argue in really bad faith if they're not paid shills.
The organic food industry is just as, if not more guilty of astroturfing, but in any case it's impossible to have a nuanced conversation with those whose level of argument never goes beyond "baa baa monsanto evil GM poison" It's quite telling that most of them have never even heard about Sygenta.
>modifying a crop to be resistant to a carcinogenic poison farmers are going to dump all over it
This is purely speculation at this point. I recognise the ecological harms of massive monoculture enabled by GM but again, opponents seems fixated on unproven health effects and miss the bigger picture.
> the ecological harms of massive monoculture enabled by GM
What is "monoculture" and why is it GM that enabled it? Didn't monoculture exist before GM? Could you describe to me a field where non-monoculture is used.
Exactly this. Every thread on GM quickly polarizes into useless for and against sides, when we need to be selective about it.
And I've never bought the characterization of breeding/selection as a form of GM. Breeding is selection of a pathetically tiny set of modifications, but GM is on a whole other level. With GM we can write arbitrary binary strings of code into any organism. That's simply not comparable with breeding -- the space of realizable phenotypes is orders of magnitude larger with GM.
Modern breeding involves actively mutating known species with DNA-altering chemical mutagen and ionising radiation. Think fuzzing vs. static code analysis, which one would you do first when it comes to debugging?
>Breeding is selection of a pathetically tiny set of modifications, but GM is on a whole other level.
The truth is probably closer to the opposite of this: most GM species in the pipeline are rather unimaginative ones improving one phenotype at a time, and the vast majority of them focus on pest or herbicide resistance. There is a couple of near commercial crops aimed at improving nutritional content such as golden rice and high-lysine corn, but they are more exceptions than the rule.
The kind of totally disruptive GM e.g. introduce C3 photosynthesis in C4 plants, has not left the drawing board yet for a good reason.
The point wasn't how long it would take for the organism to gestate, it was how long it would take for the trait to be introduced into the organism.
We can do that precisely for fluorescence and many other traits with GM today, but good luck trying to breed a fluorescent horse, it could take millions of years if at all.
I agree that the polarization is useless. However what you said about selective breeding vs GM is just wrong. Selective breeding introduces numerous mutations, including ones often not even related to the desired traits. In contrast human directed genetic modification often changes a single gene, the state of the art in research universities for specific modifications is only in the tens of genes. You can only say they are not comparable in the sense that selective breeding introduces far more changes than GM and also in the sense that with GM we know what changed where in selective breeding we do not necessarily know how the change was produced or what the extent of it was.
Also I understand that this is a computer centered site but thinking of DNA as binary is a often used but terrible analogy. Living organisms were designed through complete randomness, try refactoring that. If you wanted to turn teosinte into corn without any random mutations and selection I think that would be far beyond our abilities for 100 years at least.
Sorry but I didn't compare evolution with computer programming - it's very different to human code, but it is code and it is a computation.
In evolution there's no design, which implies prediction and a model of function. But evolution is far from "completely random". In fact evolution goes to great lengths to correct mutations and only allows mutation in certain carefully controlled sequences of the genome where variation is potentially useful. There are sequences in our genomes that are identical to those of yeast, having been faithfully copied, and error-corrected, for billions of years.
> In contrast human directed genetic modification often changes a single gene
Even CRISPR-CAS9 is not perfect and introduces a lot of unwanted genetic changes when used. Further the big advantage of GM compared with selective breeding is that you can inject Transgenes. This makes them totally incomparable.
Guess I and most of the people in my department are "those people"!
Isn't your comment self-defeating? You have legitimate concerns about corporate abuse of IP law and a specific crop product- not with the scientific field of genetic modification. So why do you insist on villifying the term GMO instead of using accurate language to describe what you're talking about? From the other perspective, I cannot begin to understand how you are the one not acting in bad faith.
It's been really frustrating trying to have any scientific stance on GMOs with opponents doing the "durr all GMOs are bad and are going to kill us" and such. Like no shit, it is still possible to acknowledge gaps in research and believe that there are legitimate concerns about intellectual property, or with not modifying a crop to increase its nutritional content to save starving people.
A lot of the anti-GMO people seem to argue in really bad faith if they're not paid shills.
To be fair, I think a good portion of those 'shills' were organic (no pun intended). To this day, a lot of the popular "anti-monsanto", "anti-gmo" groups (e.g. David Avocado Wolfe) are pretty nutjob and have a large community of people who dislike them.
>lot of the popular "anti-monsanto", "anti-gmo" groups (e.g. David Avocado Wolfe) are pretty nutjob
It's worth noting that having such groups is a commonly used counter intelligence tactic: create a loud and incoherent pseudo-strawman opposition to distract from those who are actually asking legitimate questions.
An effective astroturf campaign calls for both pro-x and anti-x shills.
A lot of the pro-GMO people seem to argue in really bad faith if they're not paid shills.