For many organisms, poisons are an effective means to keep from being eaten. However, making poisons can be costly. Depending on the compounds involved, poison synthesis can require a lot of nutrients that could be directed elsewhere. This is why some animals acquire poisons through their diet. Take, for instance, the monarch butterfly. As its caterpillars feed on milkweed, they sequester the milkweed toxins in their tissues, which makes them unpalatable into adulthood. Cases like this abound in the invertebrate world, but recently scientists have confirmed that at least one mammal has evolved a similar strategy.
Meet the African crested rat (Lophiomys imhausi). Its large size and bold color patterns make it look like the result of a passionate encounter between a porcupine and a skunk. However, it is 100% rat and it has a fascinating defense strategy that begins with a tree native throughout parts of eastern Africa aptly referred to as the poison arrow tree (Acokanthera schimperi).
The poison arrow tree is a member of the milkweed family (Apocynaceae), and like many of its relatives, this species produces potent toxins that can cause heart failure. The toxic nature of this tree has not been lost on humans. In fact, the particular strain of toxin it produces is referred to as ouabaïne or “arrow poison” as indigenous peoples have been coating their arrows with its sap for millennia. It turns out that humans aren’t the only mammals to find use for this sap either. The African crested rat uses it too.
The African crested rat grows highly specialized crest of hairs along its back. These hairs are thick and porous and when the rat feels threatened, it erects the crest and shows off its stark black and white coloring. It has been noted in the past that predators such as dogs that try to eat the rat run the risk of collapsing into convulsions and dying so the idea was put forth that that crest of hairs was toxic. Only recently has this been confirmed.
By studying a group of these rodents, scientists observed an interesting behavior. Many of the rats in their study would chew and lick twigs and branches of the poison arrow tree and then chew and lick their crest. What this behavior does is transfer the plant toxins onto those specialized hairs. The high surface area of each hair means they can soak up a lot of the toxins. Surprisingly, the rats appear to be resistant to the sap’s toxic effects. Perhaps they possess modified sodium pumps in their heart muscles that counter the effects of the toxin. Or, they may possess a highly specialized gut flora that breaks down the toxins. Either way, the rats do not show any signs of poisoning from this behavior.
The rats don’t have to do this very often to remain poisonous. By talking with locals that still use the poison arrow tree sap on their arrows, researchers learned that the compounds are extremely stable. Once coated, arrows will remain toxic for years. As such, the African crested rat likely doesn’t need constant application for this defense mechanism to remain effective.
As far as we know, this is the first example of a mammal sequestering plant toxins as a form of defense. It is amazing to think that a defense strategy evolved by a plant to avoid being eaten can be co-opted by a rat so that it too can avoid being eaten. Sadly, it is feared that this unique relationship between rat and tree is starting to disappear. Though more research is needed to accurately assess their numbers, there is growing evidence that African crested rats are on the decline. Hopefully with a bit more attention, these trends can be properly assessed and conservation measures can be put into place. In the meantime, please avoid putting any and all rats in your mouth.
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Further Reading: [1]