The woolly bear caterpillar is one of the most recognizable insects found in North Amer ica. This is partly because of its large size and relative abundance, but also because of its legendary connection to weather forecasting.
Measuring about 1.5 inches long, its body has 13 segments that are covered with fur-like bristles called setae (si-ti). The setae are arranged in bands of two colors, reddish brown around its middle, sandwiched between black bands on either end.
It has been said that if the brown band is wide, the coming winter will be mild, but if it is narrow, we are in for lots of snow and cold.
Unfortunately, there is no scientific evidence to back up this old husband’s tale.
As helpful as it may seem to rely on observations of nature to predict the weather, animals and plants have no way of forecasting the conditions of a coming season. Their appearance or behavior is more likely to reflect what has been, rather than what is to come.
However, the width of the woolly bear’s bands does indicate the age of the caterpillar. The young woolly bears have more black, and the brown color expands with each of six molts, or sheddings, that occur as the caterpillar grows and develops.
During late fall, the woolly bears, which are the larval stage of the Isabella tiger moth, have likely found a nice place to hibernate for the winter. They usually hide under leaves or bark, and I’ve found several in my woodpiles lately.
If it survives the winter, the larva will wake up and nibble some green plants such as grass, dandelions or plantain. Then it will form a cocoon with the setae from its body and silk which it produces.
This pupa stage will last about two weeks, during which the caterpillar will be transformed into the adult Isabella moth.
When the adult moths emerge, they have heavy bodies and 2-inch wings that vary in color from tannish-yellow to orange-brown. They are called tiger moths because they have stripes or spots on their wings.
Isabella tiger moths are common but nocturnal, so they often go unnoticed as they flutter about on spring evenings.
The moths live just long enough to mate. The females lay clusters of eggs on plants that the larvae will eat. The eggs hatch in about four or five days. The caterpillars eat and grow for three to four weeks, pupate, emerge as adults and begin a new generation. Those adults will lay the eggs which hatch and grow into the woolly bears that we see at this time of year.
If you find a woolly bear and pick it up, it will probably curl up into a ball. This is one way it protects itself and conceals its naked and vulnerable underside. The setae act as a deterrent to predators, who generally don’t like to eat things with bristles. Skunks are one of the few predators of woolly bears. They remove the bristles before they eat the caterpillars.
So why does the woolly bear have a reputation for being a forecaster of weather? This legend goes back a long way, but it has been tested.
Starting in 1948, Dr. C.H. Curran, curator of insects at the American Museum of Natural History in New York, conducted observations on woolly bears. During nine autumns he gathered as many of the caterpillars as he could find, measured the length of their color bands and compared them to the following winter weather conditions. There did seem to be a slight correlation, but Dr. Curran admitted that his sample size was small, and most scientists discount the band width theory as just folklore.
Still, the woolly bears are on to something. They are preparing themselves for whatever weather the next season brings by finding a safe place and hunkering down. So if, like me, you disturb any while moving your wood pile, raking leaves, or putting your gardens to bed, be sure to put them in a place that seems well protected, so they will survive the winter and be able to take wing as an Isabella moth next spring.