Many bird lovers are irritated that their offerings of food to avian
visitors is regularly intercepted by squirrels and other small creatures. One
method to protect bird food is to mix hot red pepper seeds with other seed or
sprinkle the bird food with chili powder. Do this every time you add bird feed
and soon the squirrels will stop coming around. Squirrels (and other small
scavenging creatures) don't like hot pepper but it won't bother birds.
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Birds will happily eat the hottest of hot chili peppers, a fact so well known that some varieties are popularly known as “bird peppers.” The question is how can such tiny creatures consume such incendiary food and exhibit no sign of discomfort?
If you want to understand how birdies can safely eat chili read the
below information compiled by an ornithologist at the Smithsonian Tropical
Research Institute.
The chili (or chile) peppers, genus Capsicum, comprise about 25
species, of which five are regularly cultivated. Of American origin, native
peoples have grown them as a valued condiment for thousands of years. Red chili
pepper is unrelated to black pepper (Piper nigrum) of the Orient. The heat
engendered by chilies proved so popular that they rapidly became an integral
part of many Old World cuisines, including those of India, Southeast Asia,
southern China and parts of Africa.
All wild chilies contain varying amounts of the chemical capsaicin and
related compounds. (Sweet or bell peppers are cultivated varieties that have
been selected for low capsaicin content.) Capsaicin is not a protein, but a
nitrogen-containing lipid related to vanillin, the active principle in vanilla.
The compound has a powerful irritant effect on certain mammalian pain receptors
(nociceptors). The key receptor molecule, a protein on the outer surface of the
cell, was identified in 1997. When capsaicin comes into contact with it, a
cascade of intracellular reactions is triggered that is perceived by the brain
as pain. These reactions are very similar to those produced by damaging heat,
so it is no coincidence that we sense chilies as being hot. The effect can be
so overpowering that sprays containing capsaicin are used to repel grizzly
bears and even elephants.
The pepper sensation is not, properly speaking, a taste. There are only
five kinds of taste buds (salt, sweet, sour, bitter and MSG, the last only
recently identified). Capsaicin itself is tasteless and odorless. What we
describe as the “taste” of chili might better be described as the “pain” of chili.
One possible explanation for the appeal of chilies is that the body
manufactures painkilling endorphins, akin to morphine, to counteract the pain,
and endorphins themselves are pleasurable. In other words, we eat chilies
because it feels so good when we stop. The heat of chilies is traditionally
expressed in Scoville units, a subjective scale devised by the pharmacist
Wilbur Scoville in 1912. Jalapenos rate about 4,000 Scoville units, while the
hottest habeneros score up to 400,000. One variety in southeast Asia has
recently been evaluated at an incredible 850,000 Scoville units.
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The situation is entirely different for birds. While mammals will avoid
food containing as little as 100-1000 parts per million (ppm) of capsaicin,
birds will readily consume up to at least 20,000 ppm). The difference seems to
be that bird receptor cells are largely insensitive to capsaicin. Certain
chemical modifications can make capsaicin somewhat aversive to birds, which
shows that it is the structure of the molecule that is the key. Capsaicin
sensitivity is perhaps the most well known difference between bird and
mammalian receptors, although birds also seem to be insensitive to many other
substances that are irritating to mammals, including ammonia and naphthalene. This
difference is exploited by some commercial bird seeds, which add chili powder
or capsaicin to the mixture to deter feeder-raiding squirrels.
The reason chilies incorporate capsaicin in their fruits (and red/green
peppers are fruits in a botanical sense, not vegetables) seems to be to ensure
that their seeds are dispersed properly. When small birds consume the fruits of
wild peppers the seeds pass through the gut undigested and, due to the birds’
flight range, are deposited in distant places where they can grow with less
competition. If the fruits were consumed by larger mammals the seeds would
either be digested, or deposited much closer to the parent plant. Studies have
shown that the seeds of wild peppers are in fact dispersed almost exclusively
by birds.
Given that capsaicin is so aversive to mammals, one might wonder if
birds might not be able to protect themselves against predation by retaining
the compound in their flesh or feathers. But although many insects do this sort
of thing, it doesn’t seem to be common in birds. (One exception is the Pitohui—AKA
the P-tuh-hooey! of New Guinea, which contains a neurotoxin apparently picked
up in its food).
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| Pitohui Bird |
