Zig-Zags

In past posts I’ve used the term zig-zag to describe certain track patterns. In this article I’d like to delve more deeply into how zig-zags arise and what they can tell us about the animals that make them. When we humans walk in a relaxed, natural manner we place our feet in a zig-zag pattern because each foot falls to its own side of the line made by our moving center of gravity, the center line of the trail. It’s easy to verify this: Just walk naturally in snow or mud or on a dry surface with wet feet and then look at your tracks. The same logic applies to birds, so we often see patterns like the one in the next photo, made by a turkey walking from left to right. Each print angles inward, which helps to distinguish right from left. The sequence, starting at the left, is right, left, right, left, right.

Two legged zig-zags are pretty straightforward, but four-footed animals also create zig-zags, and it’s not as easy to understand how a four-footed animal can do that. Watching animals helps, but it’s hard to follow foot placement when animals are moving in real time. Fortunately for us twenty-first century trackers, there’s a tool that can bridge the gap–the internet. So let’s take a look at a video of a horse. If you click on this link: Bing Videos, then click on horses walking youtube and start the video, you’ll see a horse walking in slow motion. Notice that as each front foot leaves the ground the rear foot on the same side comes down in the spot just vacated by the front foot. The video doesn’t show the pattern on the ground, but it’s easy to see how the horse leaves a series of double impressions, each one a front track overlaid by a rear track. And since the feet on each side fall to their own side of the center line, the overall pattern is a zig-zag. The trail in the next photo, made by a deer walking from bottom to top, is a good example of a zig-zag made by a four-footed animal.

But all zig-zags aren’t the same. The physical characteristics of animals vary, and this affects the kinds of patterns they leave when they walk. There are also different types of walks, with differing relative placement of the front and rear tracks. In the photo above the walk is an almost perfect direct register gait, meaning that the rear feet fell almost exactly on top of the corresponding front tracks. The next photo shows tracks made by a woodchuck walking from lower left to upper right (and just below the second impression, tracks of a squirrel bounding toward the bottom). The trail is more variable but the tracks are mostly in indirect register, meaning that the rear tracks fell partly but not completely on top of the corresponding front tracks. Starting at the lower left the track sequence for the woodchuck is: right rear on right front, left rear on left front, right rear, right front, left rear on left front. Even in this more irregular trail the zig-zag is apparent.

The width of the zig-zag, known among trackers as trail width, varies from one species of animal to another. To measure trail width, find a relatively straight part of the trail and imagine or draw out two parallel straight lines that just touch the outsides of the alternate sets of tracks. Then measure the perpendicular distance between the lines. This is diagrammed in the next photo of the indirect register track pattern made by a walking opossum heading toward the upper right.

In the next photo you see a trail made by a gray fox walking from right to left. The trail has a different look from the opossum and woodchuck trails, both because of its narrower width and also because the fox’s step lengths are longer. But the zig-zag is still apparent. Trail widths, combined with step length, can be helpful in identification, since chunky animals like woodchucks and possums make wider trails and take shorter steps than slimmer, longer-legged animals do. And trail widths are especially important when you’re considering animals with similar step lengths. For example, trail widths for a walking coyote are generally between 4 and 5 inches while trail widths for deer moving at a walk range from 5 to 10 inches. Even when the tracks are degraded or obscured by collapsing snow it’s usually possible to differentiate between a coyote trail and a deer trail.

Animals find it harder to move in deep snow, but when they’re walking their trails still show the zig-zag pattern. In the photo below a red fox walked from bottom to top leaving a zig-zag arrangement of deep holes in the snow.

All of the gaits discussed above (and the one the horse was doing in the video) fit into what I call the regular walk–also called the diagonal walk in the tracking literature. But that’s not the only kind of walk animals can do. A common variant is the overstep walk. To see a dog doing the overstep walk click on this link: Bing Videos and then click on dog gaits youtube and start the video. The recording shows a dog walking at actual speed followed by the same sequence in slow motion. If you keep your eye on the spot just vacated by a front foot you’ll see the corresponding rear foot come down a little past it. (This video also does a nice job with the amble, equivalent to the pace-walk of the raccoon, and the trot.)

The interesting thing about the overstep walk is that the pattern of tracks on the ground also makes a zig-zag, but the points of the zig-zag consist of sets of two prints, front and rear from the same side, rather than the impressions of two superimposed tracks. In the next photo you see an overstep pattern made by a house cat moving from lower right to upper left. Because a cat’s front tracks are wider and shorter than the rear ones we can see that in each set the front track is behind the rear. The sequence, starting at the lower right, is: right front, right rear, left front, left rear, right front, right rear. Among animals that are habitual walkers, overstep walks are common.

Another variation you’ll come across is the understep walk. The next photo shows the trail of an opossum doing an understep walk, heading from the lower left to the upper right. Again, the prints are arranged in sets of two, each set the front and rear from the same side. In each pair the hand-like hind track, with its thumb pointing inward, lies behind the front track with its more evenly spread toes.

We sometimes find zig-zag walking patterns in the trails of animals that aren’t habitual walkers. Fishers move mostly in bounds or lopes, but they walk when extra caution is needed or when the footing isn’t secure. The trail in the photo below was made by a fisher walking, mostly in direct register, from lower right to upper left.

Walking trails are less common for minks than for fishers, and for minks it seems to be mostly about the animal’s dislike of unstable surfaces. In the next photo a mink walked from right to left through mud (looking pretty dry in the photo but probably much wetter and slipperier when the tracks were made), leaving sets of paired tracks. But which walk is this, overstep or understep? We can tell because the middle toe in the mink’s hind print usually angles a little to the outside. So the sequence, starting at the right, is: left rear, left front, right rear, right front, left rear, left front, right rear, right front, and this is an understep walk.

White-footed mice are even less likely to walk than minks, but the next image attests to the fact that they do it on rare occasions. A white-footed mouse walked from bottom to top, leaving sets of paired tracks. The four-toed front prints lie behind the five-toed rear prints in each set, so the mouse was doing an overstep walk. The trail both before and after the walking part was on drier footing with normal mouse bounding patterns, so it was the wet mud that made the mouse shift to a walk.

Many animals get around mostly at a walk, and zig-zags abound in the tracking world. The details of the patterns can tell us a lot about the nature of the track maker. But the sight of a zig-zag for an animal whose default gait is not the walk is an even more compelling call to investigate. In addition to their help in species identification, zig-zags can tell us how animals interact with each other and with their surroundings. In this post we’ve only made a start. There are other kinds of zig-zags, and even patterns that look like zig-zags but aren’t. I’ll keep these topics for a future article. In the meantime, follow the zig-zags wherever they lead.

Seeing the Forest And the Trees: Lessons from Raccoons

Details versus the big picture–in tracking we need both, but sometimes one can get in the way of the other. We can focus too closely on the small details and miss the overall view, or we can see a larger pattern but miss the crucial fine points. The tracks of the raccoon present challenges on both levels, so they can be helpful for balancing both perspectives.

In the photo below you see two raccoon tracks, a left rear (on the left) and a right front (on the right), oriented toward the top of the frame. Both tracks have the five finger-like toes characteristic of the raccoon. Indentations made by the claws can be seen ahead of each toe, and the undivided middle pads show behind the claws. There are also heel impressions in both front and hind tracks. They’re not as deep as the impressions of the toes and middle pads, but they show up because their texture matches the texture of the other parts of the tracks.

Compare the left rear track shown above to the left rear print in the next photo. In the image below the toes are also finger-like, and they’re held even more tightly together, but the middle pad looks different–it’s shaped like a trapezoid rather than a C. There’s also no heel impression.

The next photo shows a right front print. It’s toes are similar to the toes of the right front in the first photo, but they spread less. And the middle pad is not quite the same; instead of being symmetrical it extends farther back on the outside of the foot. Another difference is the lack of a heel impression.

In general front tracks are smaller than rear tracks and have more spread in the toes. The middle pads of front and rear prints also differ: those of the rear tracks are generally broader with more gently curved front edges than those of the front tracks. Because of these differences it’s usually possible to tell front from rear prints in the raccoon.

It gets trickier when the tracks are incomplete. In the photo below of a right front raccoon track (oriented toward the left) only four toes show, and they’re not very finger-like. The middle pad impression is faint, and you need to look closely to see the curved leading edge. This kind of track could easily be mistaken for that of a different animal.

But we don’t want to miss the forest for the trees. The arrangement of a series of tracks is as important as the details in the individual tracks. The image below shows the typical pattern of a raccoon moving at a pace-walk from right to left: tracks in sets of two, each pair composed of a front from one side roughly next to a rear from the opposite side. This is different from the regular walk commonly seen in deer, house cats, dogs, and wild canines, in which the superimposed front and rear tracks from the same side form a zig-zag pattern. In the raccoon trail shown below the details of track structure that were covered in the preceding paragraphs allow us to distinguish front from rear prints. For instance, in the pair of tracks at the upper right the rear print (larger with a broader middle pad) is above and a little ahead of the front print (smaller with a narrower middle pad). The sequence of tracks, starting from the right, is left front, right rear, right front, left rear, left front, right rear. In each pair the rear print is a little ahead of the front. This position isn’t a constant–the relative placement of the two tracks in a pair can vary, but is usually maintained unless the speed or attitude of the animal changes.

With that pattern established, let’s look at an interesting variation. The photo below shows a similar pace-walk pattern, again proceeding from right to left. Although the track details aren’t as clear the relative sizes suggest that the sequence, starting from the right, is right front, left rear, left front, right rear, right front, left rear, left front, right rear. But what are those extra marks? In each of the left rear prints ( the ones in the first and third pair) there’s a deep gouge behind and some light claw drag marks ahead of the actual track. And the right rear tracks (the ones in the second and fourth pair) seem to be connected by continuous drag marks. Grooves and drag marks like these are not usually seen in raccoon trails and indicate that the animal was injured.

This close-up shows the details better.

By the way, you may have noticed a few gouges in the snow in the first pace-walk photo. These aren’t foot drag marks because they don’t connect with the tracks. The best explanation is that the raccoon was carrying something, probably a prey animal, that hung down and touched the snow at every other couplet of tracks. We see this kind of evidence more often in canines and felines, but raccoons will take small mammals if the opportunity presents itself .

Now that we’ve explored raccoon tracks at both detailed and big-picture levels, here’s a final example. When thaws or seasonal changes create seeps in the winter snowpack, raccoons are quick to explore them for edible items. In the photo below a raccoon made two trips between seeps, leaving muddy drips and beautiful mud tracks on top of the crusted snow. The upper trail goes from left to right and the lower one from right to left. In each trail the pace-walk pattern is clear, with the larger rear prints falling slightly behind the smaller front prints. The track details show nicely: the finger-like toes, the narrower middle pads of the front tracks, and the tighter arrangement of the rear toes.

The forest and the trees–both the big picture and the fine details are necessary in tracking. And it’s even more complicated, because there are more than two levels. There are details within details, and larger views beyond large views. The ability to move among many levels is not only essential for effective tracking. It adds depth and excitement to any tracking experience.