Animal Defense against Predators : Animal Defense against Predators TIP #2 for Chemical Ecology
Phyllis Robinson, Keith Murphy and Melissa Greene
Animal Defense Against Predators : Animal Defense Against Predators Throughout millions of years of evolution, animals
have evolved numerous ways of defending themselves
against predators. Obviously, being able to flee
a predator is the choice of many prey animals we
can consider.
However, there are some often overlooked but
interesting methods of defense which involve deception
and chemistry. These include using toxic chemicals,
camouflage, and mimicry.
Animal Defense Against Predators : Animal Defense Against Predators Presented here are several descriptions and
examples of animal defense.
1. Chemical Defense : 1. Chemical Defense There are two main ways animals can use chemicals to defend themselves.
Animals can synthesize toxin using their own metabolic processes, or they can accumulate toxin from the food they eat.
1. Chemical Defense : 1. Chemical Defense Animals which synthesize their own toxin are able to convert chemical compounds in their body to a poison.
There are many amphibians that produce skin toxins. The skin toxins are produced by special poison glands, usually located on the animal's back or throughout the skin. The poison dart frog has
poison glands scattered
all over its body. Photo courtesy of Dr. John Daly
1. Chemical Defense : 1. Chemical Defense In another example, the fire salamander makes a nerve poison, which it can squirt from glands on its back. Photo courtesy of Henk Wallays, Cal. Acad. of Sciences.
1. Chemical Defense : 1. Chemical Defense Many animals accumulate toxin from their food rather than synthesizing it from scratch.
For example, the larvae of Monarch butterflies accumulate toxins from the plants they inhabit. Birds that eat the Monarchs vomit and learn to avoid them in the future.
Their bright coloration allows birds to remember and avoid them. Photo courtesy of T. W. Davies, Cal. Acad. of Sciences.
1. Chemical Defense : 1. Chemical Defense Interestingly, many organisms which are distasteful advertise this fact to predators by having bright body colors or markings, as if to say, “Notice me! I’m dangerous!”
1. Chemical Defense : 1. Chemical Defense You can see this in the
bright colors of the Monarch and the poison dart frog. Photo courtesy of Dr. John Daly Photo courtesy of T. W. Davies, Cal. Acad. of Sciences.
1. Chemical Defense : 1. Chemical Defense This is called “aposematic
coloration”, and is widely used among the insects
and amphibians. The Cream-spot Tiger is aposematically colored.
2. Camouflage : 2. Camouflage Animals that camouflage themselves pretend to be something they are not. Either their coloration, marking patterns, or entire body resembles something else in their environment, here a leaf, an owl.
2. Camouflage : 2. Camouflage Here an aptly named walking stick pretends to be a twig, in an attempt to avoid being seen by a bird or other predator. This is an example of cryptic coloration. Photo courtesy of Dr. Lloyd Glenn Ingles, Cal. Acad. of Sciences.
2. Camouflage : 2. Camouflage In this picture, a four-eyed butterfly fish uses deceptive markings. The large spot near the tail resembles an eye. When predators attack the wrong end, the butterfly fish can swim away in the other direction!
2. Camouflage : 2. Camouflage Some predators also depend on camouflage, but this time it is in order to avoid being seen by their prey. Here, a frogfish resembles
a sponge. Small fish swimming nearby will be engulfed in the frogfish’s enormous mouth!
3. Mimicry : 3. Mimicry In mimicry, an organism (the mimic) closely resembles another organism (the model) in order to deceive a third, (the operator). The model and the mimic are not always closely related, but both usually live in the same area. This is similar to camouflage, but in mimicry the model is generally a similar organism rather than a static part of the background environment.
3. Mimicry : 3. Mimicry There are several types of mimicry. The two most common types are Batesian mimicry and
Mullerian mimicry.
3. Mimicry : 3. Mimicry Batesian mimicry occurs when an edible mimic resembles an
unpalatable or poisonous model. In this type of mimicry,
only the mimic benefits. An example of Batesian
mimicry is the scarlet king
snake, a non-poisonous
mimic of the extremely
venemous coral snake. Above: scarlet king snake
Right: coral snake John H. Tashjian Photo courtesy of John H. Tashjian,
Cal. Acad. of Sciences.
3. Mimicry : 3. Mimicry Another example of Batesian mimicry is the locust borer.
This insect not only looks like a bee or wasp, it sounds like
one, too!
3. Mimicry : 3. Mimicry By contrast, Mullerian mimicry occurs when two (or more) distasteful or poisonous organisms resemble each other. Both species benefit because a predator who learns to avoid one species will most likely avoid the other, too.
3. Mimicry : 3. Mimicry The two invertebrates on the left are different species
of sea slugs, while the one on the right is a marine
flatworm. All three secrete noxious substances and
are unpalatable. Notice their similar aposematic
coloring.
Review and Summary : Review and Summary Three types of defenses that animals can use
against predators include:
• chemical defense
including synthesizing toxins and
accumulating toxins from food;
Review and Summary : Review and Summary Three types of defenses that animals can use
against predators include:
• chemical defense
• camouflage
including cryptic coloration and
deceptive markings;
Review and Summary : Review and Summary Three types of defenses that animals can use
against predators include:
• chemical defense
• camouflage
• mimicry
including Batesian and Mullerian
mimicry
Review and Summary : Review and Summary Three types of defenses that animals can use
against predators include:
• chemical defense
• camouflage
• mimicry
Animals constantly evolve new and improved
characteristics to capture prey or evade predators;
the ongoing “arms race” has produced some of the
wonderful organisms you have just seen!