Describe the appearance of a dry owl pellet.

Owl pellets are the undigested remains of prey ingested by an owl.  The owl swallows its prey whole, and during the process of digestion, the soft parts of the prey are dissolved and passed on to the intestine for absorption.  The hard, non-digestible parts-bones, teeth, fur, feathers, and chitonous remains of insects are compressed in the gizzard and passed on to the proventriculus where the pellet remains until it is expelled.  These pellets are not eliminated as feces, but are regurgitated through the mouth.
Pellets are not found exclusively within the owl families.  There are many species of birds known to regurgitate pellets; hawks, eagles, kites, harriers, falcons, and even robins are some of the more familiar ones.  Out of all types of pellet ejectors, the efficiency of the process is probably as high in owls as in any other bird.
The Common Barn Owl feeds in early morning and early evening and will usually produce one to two pellets per day.  Glossy black when fresh, the pellet remains smooth and dark in color when dry.  These pellets can provide valuable information pertaining to the diet of owls.  By studying the contents of owl pellets, one may discover seasonal, regional, and habitat differences and even differences in individual tastes between owls.  Also, pellets can be used to effectively illustrate the nature of food chains, to demonstrate the role of avian predators within the ecosystem, and to provide information about the presence and relative abundance of animals in a particular area.  As an educational tool, pellets can also be used to introduce students to skeletal anatomy and to teach others how to identify and animal by its skull and jawbones.
The pellets in this Pak are from one of the two owl families, Tytonidae or Strigidae.  Each pellet has been fumigated to eliminate the presence of any insects and then individually wrapped for preservation.  Unless otherwise stated, the pellets in this Pak are from the family Tytonidae and more specifically, the Common Barn Owl (Tyto alba).
PURPOSE
1.              To successfully extract prey bones from a barn owl pellet.
2.              To explain how pellets are made and how they can be used to do a prey study.
3.              To label and arrange bones on a chart.
4.              To explain the role of owls in a food web.

PROCEDURE
Go to this website link at the top of this page
When the site loads, be sure to read the sections labelled Pellet Directions and Pellet Directions.
Click on the pellet to remove the fur.  Fur will automatically move to a pile in the corner.
Click on the bones and drag them to the skeleton.  Match the bones correctly and they will snap in place.
Note: Be sure to have the sound on and turned up so you can hear it
At any time, you can click on the label button to turn the labels on or off.
When you have correctly matched you will have a chance to download a certificate that you can print.
In order to get credit for your dissection, you must save your certificate and upload it to the Dropbox.

Owl Pellet Dissection

Name___________________________

Answer the following questions from the introduction information.

What are owl pellets?

What happens to the soft parts of the prey?

What is the purpose of the gizzard in the owl pellet formation?

Where does the pellet remain until it is expelled?

These pellets are not eliminated as _________________, but are regurgitated through the ___________________.
List 6 other birds that are known to regurgitate pellets.

Of all the birds that are pellet ejectors, which type of bird is probably the most efficient at this process?

How many pellets does the common barn owl produce per day?

What color are the pellets when fresh?

Describe the appearance of a dry owl pellet.

The pellets are from what owl family?

Why are the pellets fumigated?

How do food webs and food chains differ?

Why does the number of organisms decrease as you move up the pyramid level?

In terms of energy flow in an ecosystem, why is the amount of energy passed from one trophic level to the next so small?  Since we know energy cannot be destroyed, account for the loss of energy that occurs between the prey and the owl.