Anticoagulant poisons for rats and possums Your questions answered
What are anticoagulants?
Anticoagulants are sometimes called “blood thinning agents”. They slow down the
tendency of the blood to clot. One well known anticoagulant, warfarin, is a drug (Marevan®) used to treat humans with clotting problems.
Other more potent anticoagulants used for pest control.
When used to kill pests the amounts used in baits cause bleeding and death. The main use of anticoagulants worldwide has been for rodent control. Poisons used for controlling rats and possums are classified as :
(i) anticoagulants -which include warfarin, pindone, diphacinone, coumatetralyl, bromodialone, flocoumafen and brodifacoum
(ii) non-anticoagulants -all others such as cyanide, and
cholecalciferol.
First generation anticoagulants warfarin, pindone, coumatetralyl and diphacinone were developed between the 1940s and 1960s.
Second generation anticoagulants such as brodifacoum, flocoumafen and bromodiolone were developed in the 1970s and 1980s.
Where do they come from?
Naturally occurring anticoagulants were discovered in the 1940s in mouldy sweet clover hay causing bleeding disorders in cattle.
Related compounds were then synthesized by pharmaceutical companies between the 1940s and 1980s to produce the range of anticoagulant drugs and poisons that are still used today.
How do anticoagulants work?
After baits are eaten the poison is absorbed and makes its way to the liver.
It interferes with the synthesis of vitamin K-dependent clotting factors to the point where no clotting occurs. This process
takes several days in rats and several weeks in possums.
What is the difference between first and second generation anticoagulants?
Second-generation anticoagulants are more potent than first-generation, related to their greater tendency to bind to the liver.
Unfortunately second-generation also persists and builds up in the environment, whereas first generation do not. The second generation anticoagulants were synthesized in response to rodenticide resistance in some parts of Europe and the US. Both types are effective at killing rats, and brodifacoum is also effective against possums.
What is anticoagulant resistance in rodents?
In a few areas in Europe and the USA where warfarin was used continuously for 20-30years new generations of rats and mice evolved that could eat poisonous bait without dying.
The biochemical response to the poisons did not occur.
This has not occurred to date in New Zealand and can be avoided by using different types of poisons and traps alongside anticoagulants.
What is the difference between bait shyness and resistance?
Resistance is nature’s response to continuous exposure. Just as antibiotic resistance can occur with over-prescription of drugs and doctors are encouraged to use antibiotics prudently,
“Environmental Doctors” should avoid over reliance on a single tool.
Bait shyness is a short-term effect
that is brought about by a negative response in an animal, for example to an unpleasant taste in bait, so not enough is eaten to be lethal and baits are avoided.
It differs from resistance and is not usually a problem with anticoagulant baits.
Should resistance be a concern?
Over-use of anticoagulants over several decades in Europe led to resistance in rats which in turn encouraged the development of more and more potent anticoagulants, such as brodifacoum, sometimes termed “Superwarfarin”. Resistance can be avoided by the use of a variety of baits and tools.
Are anticoagulants safe?
This depends on how they are used. No poison is completely safe. Good pest control minimises the risks to non-targets species. Your goal is “no pests, no hassles”.
Are there health risks to humans?
Follow simple precautions and there should be no risks to human health:
• Wear gloves
• Don’t expose yourself to dust from baits
• Don’t eat game from areas where poisons are used—particularly brodifacoum or other second-generation anticoagulants.
What are the risks to non-target wildlife?
These depend on the properties of the poisons used, bait design and their deployment, and what non-target species are present. The risk to non-target wildlife will depend on the inherent toxicity of the pesticide (i.e., hazard) and the potential exposure of the animal to toxic bait or residues. Second generation anticoagulants are more toxic than first-generation anticoagulants torats and possums, but also to many non-target species by both primary and secondary poisoning, and present a greater risk to wildlife.
What is primary versus secondary poisoning?
Primary poisoning refers to poisoning resulting from eating a bait. Secondary poisoning occurs when eating another animal that has been poisoned, such as an owl eating a rat containing residues of a rodenticide.
How do we reduce the risk of primary or secondary poisoning?
Primary poisoning can be reduced by the use of bait stations and smart baiting strategies. Secondary poisoning is prevented by choosing poisons that are non-persistent. Cyanide, cholecaliferol and diphacinone do not usually cause secondary poisoning. Brodifacoum does so special care with its application is important.
Does the place where poisons are used affect risk?
Yes, the use of toxic bait for rodent control in confined areas such as homes, factories, farmhouses, or grain stores, and their application in bait stations, reduces the risk of primary poisoning of birds, reptiles, or invertebrates. Field use of poisons potentially puts a wider range of non-target species at risk, but this can be managed.
How long does the poison take to work?
The period between the time of ingestion of anticoagulants by rats, the onset of symptoms and death is usually up to a week. However, in possums this may take between one and four weeks. Poisoned animals die of multiple causes related to anaemia or loss of blood.
What happens to anticoagulants in soil and water?
They are not mobile in soil and not very soluble in water. When baits disintegrate, the poisons will remain in the soil and degrade slowly over several months. Baits used in bait stations are most unlikely to contaminate waterways.
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