He missed an apostrophe that you didn't catch: "important person's cat", i.e. a cat owned by someone who would be vocally unhappy their pet was killed.
This assumes that the dosage of aspirin is fatal to cats, which is not something I'm sure of (or care about enough to research).
Effects on cats were discussed in a USDA risk assessment of a similar program in 2002 (http://www.aphis.usda.gov/wildlife_damage/nwrc/publications/...) -- basically, it looks like cats are likely to die if they eat the poisoned mice, but cats didn't seem interested in them.
Also, if I'm reading the report correctly, then (at least in the 2002 program), the baits were prepared by inserting (somehow) acetaminophen tablets into mouse carcasses. I think a cat that began to eat one of these mice would be likely not to swallow the pills (just based on the fact that I've never managed to get a cat to take a pill hidden in cat food).
Wikipedia has some useful information, http://en.wikipedia.org/wiki/Brown_tree_snake. In the invasive species section notice that the islands where the snake is spreading to all have US military bases of some form - the snakes seem adept at hiding in the undercarriage of the planes. The snake has the potential to devastate a lot of unique ecosystems across the Pacific and if it ever gets to Hawaii there will be endless opportunities for it to spread far and wide.
So... when will we see Tylenol-resistant snakes emerge? If some of the snakes on the island are already resistant, they're just selecting for them with this air-drop.
The mode of action is not relevant. Look at the antibiotics and how they all work. They have different modes of action and the resitance mechanisms are quite varied too.
So however acetaminophen works, you can imagine a resistance mechanism.
Actually I don't exactly understand your reasoning on this.
Given that the method of delivery is all-or-nothing and nearly immediate, I don't see how a resistance could be developed.
We are not discussing e.g. XDR-resistant TB, where the levels of delivery of antibiotics to the TB mean that some of the bacteria die and some live.
The snake is a single organism in this case, and the liver metabolizes the drug, and the results of that metabolism are what cause the liver damage. As long as 80mg is enough to kill the largest snake that would swallow the bait.
Can you explain how a lethal dose of say, cyanide, delivered individually to humans, would eventually result in cyanide-resistant humans?
Take the snake example: imagine the dose delivered is ingested by most (if not all) the population. Now imagine that some snakes have a mutation that render this dose non-lethal, either making it completely harmless or just sub-lethal. The snakes carrying the mutation would survive.
The key part here (and in evolutionary theory) is that there is a pre-existing mutation to select for. If there isn't one, then we should see a local extinction.
Right, however, I find it vanishingly small in terms of probabilities that the combination of (liver metabolism mutation concerning this drug) and (snake still able to reproduce) exists.
If anyone is curious, as I was, apparently brown tree snakes are venomous (neurotoxin), but because of their rear-facing fangs in the back of their mouths, humans only get a trivial dose if bitten. So they're not considered dangerous to adults.
Yeah, that was what I thought too!
I remember snakes having something more akin to heat vision - and thus meaning no dead prey.
My facts might be outdated or just simply wrong.
Better check my facts.
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[ 0.28 ms ] story [ 45.9 ms ] threadHopefully it'll work better than attempts at rabbit control in Australia.
This assumes that the dosage of aspirin is fatal to cats, which is not something I'm sure of (or care about enough to research).
Also, if I'm reading the report correctly, then (at least in the 2002 program), the baits were prepared by inserting (somehow) acetaminophen tablets into mouse carcasses. I think a cat that began to eat one of these mice would be likely not to swallow the pills (just based on the fact that I've never managed to get a cat to take a pill hidden in cat food).
If an adult human takes 4g (4000mg) or more liver damage can occur. Obviously much less is needed for a snake.
So however acetaminophen works, you can imagine a resistance mechanism.
Given that the method of delivery is all-or-nothing and nearly immediate, I don't see how a resistance could be developed.
We are not discussing e.g. XDR-resistant TB, where the levels of delivery of antibiotics to the TB mean that some of the bacteria die and some live.
The snake is a single organism in this case, and the liver metabolizes the drug, and the results of that metabolism are what cause the liver damage. As long as 80mg is enough to kill the largest snake that would swallow the bait.
Can you explain how a lethal dose of say, cyanide, delivered individually to humans, would eventually result in cyanide-resistant humans?
The key part here (and in evolutionary theory) is that there is a pre-existing mutation to select for. If there isn't one, then we should see a local extinction.