Perfect Perches

Perches–they’re important to wild creatures for many different reasons. The gray squirrel in the opening image (from yardandgarage.com) is using a perch as a feeding site. The next photo shows a Norway spruce whose dead lower branches provided feeding perches for a red squirrel. You can see how the piles of inedible cone cores and scales accumulated under the branches the squirrel perched on. These accumulations are called middens, and they can build up over time into substantial mounds.

Favorite perches often show signs of usage. The red squirrel that used the perch shown below left a cone scale and a number of opened seeds, some with wings still attached.

Red squirrels may mark perches by biting them. In the next photo you see a Norway spruce branch that bears the distinctive paired incisor marks made by a red squirrel. The lower branches of conifers are usually dead, so these marks don’t heal over and may last quite a while.

In the next photo you see a discovery I made during summer a few years ago. The Norway spruce cone crop that year was early and abundant, and a red squirrel had left a cone core, stripped of its supply of edible seeds, resting on the perch it had used. And in case you’re wondering, no, I didn’t put it there, it was all the squirrel’s doing. The scales that dropped as the squirrel fed can be seen on the ground at the base of the tree.

The photo below shows an unusually well elevated feeding perch used by a gray squirrel.

In the next photo you see what I found on top of the log: the remains of an acorn the squirrel had fed on.

Here’s a perch used not for feeding but for food storage. A gray squirrel lodged a black walnut in the crotch of a honeysuckle branch. I’m not sure what the squirrel’s motivation was–perhaps it was to keep the walnut away from other squirrels.

A perch doesn’t need to be overly high to be suitable. In the next photo you see a log used by a squirrel–it could have been a red or a gray–feeding on a white pine cone.

Rocks can also make good perches. Last August a red squirrel harvested young larch cones and brought them to the rock shown below for consumption. Where rocks or logs are available they are preferred over ground level feeding sites.

But food isn’t the only thing drawing animals to perches. A red fox balanced on the log in the next photo in order to deposit its scat. Scat is important in intraspecies communication, and wild canines prefer to leave their scat in conspicuous positions. Sometimes this requires a little acrobatic ability to position the scat just right.

One of my favorite spring experiences is hearing the drumming of ruffed grouse. Males in search of mates perch on logs or other raised features and beat their wings to produce a resonant booming sound. They prefer platforms that are unobstructed and raised well off the ground. You can see a spot in the center of the image where the bark was dislodged by the drumming bird.

Perches can also be used as observation posts. In the next photo you see a mound of earth thrown up by a falling tree. There were tracks–they were barely visible so I didn’t include a photo–going up the side. The size of the impressions suggested a fox.

On top of the mound (shown in the next photo) there were obvious signs of disturbance, showing that it had been used as a perch. The fox would have sat quietly while it listened, looked, and sniffed for signs of prey animals.

We seem to have circled back around to the topic of food, so here’s my last example of a feeding perch. A black bear climbed the beech tree in the photo below and pulled a nut-bearing branch inwards until it broke off. The bear consumed the goodies, pushed the branch aside and pulled another one inward until it broke. The discarded branches formed a tangled cluster, and the bear might even have stood on the growing mass of harvested branches as it continued to pull more branches in. These branch clusters are known by the somewhat misleading term bear nests, although they have more in common with squirrel middens than with nests. With healthy beeches becoming less abundant, bear nests in beech trees are harder to find than they used to be, but the same kind of sign occurs in apple, black cherry, serviceberry, and oak trees.

Wild creatures know their territories in minute detail, and they’re familiar with all the best perches. The attributes of a perfect perch vary somewhat with the specific animal and situation, but safety and accessibility are always important. The location also needs to be appropriate to the animal’s purpose, whether it’s to consume food, to find food, or to advertise its presence. If we stay alert for perches we can begin to understand what makes a good perch and what they can tell us about the lives of the animals.

Bears: Connoisseurs of Rotten Wood

Late summer is upon us, and along with the fruits and nuts that are ripening everywhere, insects are becoming more available. Insects are an important part of the late summer diet for black bears, and the animals seek out insect populations that are abundant and easily obtained. Decaying stumps, rotting logs, and standing dead trees often harbor large numbers of grubs, ants, and other invertebrates. With their highly developed sense of smell, bears can detect these creatures even when they’re hidden deep inside rotting wood. But if they’re protected inside wood, how easy is it for a bear to get at the goodies?

Just check out the photo below, which shows a tree that was ripped apart by a bear. Large pieces of wood lie scattered around, and the inner parts are broken up and exposed. Only a bear would have been powerful enough to pull a tree apart this way. Notice how the fragments were tossed in several different directions and how some lie quite far from the base of the tree.

Logs on the ground also harbor populations of insects. The next photo shows similar signs of bear activity: large fragments tossed to considerable distances.

Stumps may hide the same kinds of food as logs and whole trees, and bears tear into them in the same way. In the next photo you see large pieces of wood that were pulled away from the stump, some tossed impressive distances. Again, this is something that only a bear could accomplish.

A bear wouldn’t exert this kind of effort if there weren’t something really good–and abundant–inside, and very often it’s the fat- and protein-rich larvae of carpenter ants or wood-boring beetles. The holes and galleries you see in the next photo (a close-up of one of the fragments from the tree in the first image) could have been made by either. It’s often difficult to know what was occupying the wood before the bear tore it apart, because everything edible has been eaten and other clues–like frass–have been washed or blown away.

Bears aren’t the only agents that cause trees and logs to come apart. We usually think of woodpecker excavations as occurring on standing trees, but it’s common for birds to open up logs on the ground. Pileated woodpeckers can do quite a job on a log, as shown in the next photo. But notice the differences: there aren’t any really large fragments, and most of the scattered pieces are quite small and close to the log.

Logs can also disintegrate without any help from animals or birds. The log in the next photo fell apart of its own accord. If you look carefully you’ll see that there’s an order to the way the pieces are arranged. The ones that were originally on the surface (one with bark and another with moss) lie at the lower left. A little above those there are chunks that were originally in the interior of the log. With a little imagination you can reassemble the fragments as they were before they fell apart, and picture the way they collapsed from the main part of the log and landed where they did.

Sometimes the goodies lie underneath rather than inside a log. The photo below shows a log section that may have sheltered an ant nest. Again, only a bear could have moved such a massive hunk of wood.

It’s surprisingly uncommon to find claw or bite marks in the wood, but recently I came across an interesting exception. The log in the photo below showed the usual signs of bear work: sizable chunks of wood tossed far from their source. But there were also unmistakable claw marks.

A close-up of the log can be seen in the next photo. What the bear was after must have been in the cavity in the center of the photo, and in the wood above it you can see claw marks. There’s a clear set of five gouges on the right and another less well defined group just to the left. The animal must have stood roughly where the camera was positioned and raked its claws downward. The wood was rather tough, but the bear was able to rip off large sections. I didn’t find holes or galleries in the wood, but there was some finely divided granular material in the cavity, which suggests an ant nest.

Bears open up trees, logs, and stumps during late summer and early fall, when insect populations are highest and grubs and larvae are fat and abundant. The foods they find in rotten wood, along with the calorie-rich fruits and nuts of late summer, allow bears to put on weight and survive winter hibernation. Every time I find a log, tree, or stump that was opened up by a bear I appreciate the animal’s strength and dexterity, and imagine how it relished the tasty (to the bear) items it found inside.

What Goes In Comes Out

A big part of understanding animal lives is knowing what they eat. There’s lots of general information available in books and other publications, but to understand the dietary habits of the animals in one’s own landscape requires a few steps beyond that. We can observe animals when they’re hunting or feeding, and we can interpret chews, feeding sites, and feeding leftovers. But for many mammals, especially omnivores and carnivores, scat is the best tool. Scat contains the undigestible parts of everything an animal ingests, and it remains long after the creature has left the scene.

For herbivores, plant fibers make up the bulk of eliminations, so their scat has a grainy texture like the rabbit scat shown below. When herbivores eat foods high in water content their scat may be darker and softer, but the fibrous essence can still be seen.

Raccoons are omnivores, and their latrines often contain scats with a variety of contents. In the next photo you see raccoon scats with grape seeds and skins, apple seeds, ant parts, deer hairs, and the amorphous remains of deer flesh. An important safety note: raccoon scat may contain the eggs of a parasite that can infect humans, so it should never be touched with bare hands. To be on the safe side, it’s best to use sticks or other tools to manipulate scat, no matter whose it is.

The photo below shows river otter scat filled with crayfish shell fragments. In locations where fish are the main prey item, fish scales and bones will be the most common contents. In coastal marshes scats with crab shell fragments may predominate, indicating that crabs make up the bulk of the animals’ diet.

For many omnivores and carnivores scat contents vary with the changing seasons. The bear scat shown below was photographed in early May, and it’s made up of the remains of the newly emerging leaves and shoots the bear had been eating. Bears lose weight during hibernation and for many weeks afterwards because the grasses, sedges, and young shoots they must subsist on are energy-poor foods.

It’s only when higher quality edibles become abundant that bears begin to put on the pounds. The bear that left the scat shown in the next illustration had been feasting on black cherries. The summer diet of fruits and berries is often supplemented with insects, and you may find bear scats containing ant or yellowjacket parts.

Scats like that pictured below, full of fragments of acorns and hickory nuts, begin to show up in late summer. The seasonal abundance of acorns, nuts, and fruits, as well as increasing insect populations, provides a crucial, energy dense diet. At this time bears transition into a period of hyperphagia, and spend most of their waking hours seeking food or eating. The fat stores they put on will carry them through their winter hibernation.

The scat of canids reveals that their diets also follow seasonal cycles. Winter and early spring fare is mostly made up of animal prey and carrion. Signs of feeding on deer carcasses start to show up during the fall hunting season and continue through the winter. The coyote scat in the photo below contains deer hair and leg bone fragments. Foxes also feed on deer carcasses, but they aren’t powerful enough to crack large bones to get at the marrow the way coyotes do. Deer killed by hunters (and the carcasses resulting from the vehicle collisions that seem to spike during hunting season) may be preserved well enough in the cold to last through most of the winter. Carcasses of winter-killed deer also provide scavenging opportunities.

The red fox scat shown below (photographed in mid-March) contains the remains of a small rodent that was swallowed whole. There’s a leg bone in the chunk at the lower left, a molar in the piece at the top, and an incisor in the segment at the lower right. The bones are embedded in twisted masses of short hairs. Positioning its scat on the manhole cover was the fox’s way of signaling its presence to other foxes in the area. Small rodents and other small mammals are a winter mainstay for foxes and coyotes.

Like bears, canines graduate to summer foods as they become available. A sure sign that berries are in season are finds like the coyote scat shown below, filled with raspberry seeds. Note that the segments are tubular and blunt-ended rather than tapered like scats made up of animal remains.

As summer progresses, the menu widens. The red fox scat in the next photo (found in early September) contains acorn shells, apple skins, and fragments of field corn kernels.

Some scats lead to surprising discoveries. The next photo shows some gray fox scat containing the remains of a frog. Hollow leg bones are clearly visible, and when I pulled it apart I saw the still articulated bones of a rear foot. It’s a bit unusual to find frog remains in fox scat, but the really surprising thing is that I found this in early December. The weather had been mild, and apparently some frogs had not yet gone underground for the winter.

Food is central to survival, and scat can provide direct information about what animals eat and when they eat it. The many stories scat has to tell can illuminate not just feeding habits, but also interactions among animals, and interactions with the surrounding landscape. Each story adds to our connection with the animals around us.

Where Do The Bones Go?

Have you ever wondered what happens to all the bones? Animals are dying all the time, and when they die their soft tissues are eaten by predators and scavengers, picked off by birds, ingested by insects, and decomposed by microorganisms. This leaves just bones, like those of a rabbit shown below. But we don’t see bones littering the landscape, so what happens to them?

First let’s consider small animals. When a tiny creature such as a vole is killed by a predator, the catch is swallowed whole and the bones are crushed and partly assimilated. Undigested bone fragments are eliminated in scat (or pellets if the hunter was a hawk or owl). You can see small bone fragments in the red fox scat shown below–there’s also plant material, tiny hairs, and what appears to be a whisker. Scat like this will eventually be weathered and dispersed into the soil. Even if a small animal isn’t completely consumed immediately, its remains will be broken down, dispersed, and probably hidden from our view by its surroundings.

But what of larger animals whose carcasses would be more obvious? Deer immediately come to mind, but the question also applies to bears, coyotes, woodchucks, raccoons, and other similar sized animals. We do occasionally see the remains of recently deceased animals, like the deer carcass in the next photo, but why don’t we see piles of old bones lying around everywhere?

The answer has to do with the nutritional value of bones. The deer femur in the next photo was cracked open by a coyote to get at the marrow. (I say coyote because the only other animal in our region which is powerful enough to break a deer leg bone would be a bear, and there were no bears in the area where the bone was found.) Toward the upper end of the larger piece you can see some striations which were probably made by the coyote’s molars as it worked at the bone.

We sometimes see evidence of the utilization of bones this way in scat. The coyote scat in the next image contains an abundance of deer bone fragments and deer hair. The hair would have cushioned the sharp bone edges and prevented injury to the animal’s digestive system. It wouldn’t take long for bone fragments like these to be hidden in the upper layers of soil.

In addition to marrow, bones contain calcium, phosphorus, and other minerals which may be lacking in the diets of wild animals. Mineral deficiencies are especially likely for herbivores. Many animals supplement their nutrient intake by chewing on bones, and they usually choose less daunting ones such as scapulas, ribs, and vertebrae. The bones of birds, reptiles, and smaller mammals such as rabbits can also be utilized by less powerful animals. Even deer have been observed chewing on bones. This kind of chewing may not leave obvious signs–just ragged edges, missing ends, or random gouges.

Rodents also gnaw on bones, and the evidence of their activity is often more conspicuous. In the next photo you see a segment of deer leg bone lodged on a midden at the base of a Norway spruce tree. Middens, piles of discarded cone cores and scales, are created when a red squirrel repeatedly uses a favorite perch to feed on cones. The red squirrel that claimed this tree must have used the same perch to work on the bone.

In the next photo you can see the grooves made by a squirrel’s incisors as it chiseled off bone shavings.

Smaller rodents, like voles and white-footed mice, leave finer grooves like the ones in the next photo.

These creatures weren’t after marrow, since the bones were relatively old and the marrow had been removed long ago. This behavior is probably driven in part by the need to supplement their mineral intake, but rodents also chew on bones (and antlers as well) to maintain their teeth in good condition. Their incisors grow constantly, and are subject to malocclusion if not shaped and worn down with regular gnawing. The same is true for rabbits and hares, which are also known to gnaw on bones.

As time passes carcasses are pulled apart and bones are cleaned of soft tissue, scattered, broken, crushed, pulverized, chewed, and ingested by many different animals. Rather than piling up as useless cast-offs, animal bones gradually disappear as they are utilized by living creatures. Animals are part of the web of life both while they are alive and after they are dead.

Bears on the Move

[A note about last month’s post: you may have gotten a belated notification of the June blog; if so, my apologies. I had some trouble with my website, and the messages didn’t go out until the problem was fixed.]

Imagine you’re hiking on a sandy forest road, checking all the good spots for tracks. Suddenly you’re surprised to see what appear to be the barefoot tracks of a person. Could someone have been walking around way out here without shoes on? But as you look again, you realize that there’s something odd about the prints. Instead of the big toe being on the inside of the foot, it’s the outside toes which are larger and positioned farther forward. In fact, the big toe isn’t really very big. And ahead of each toe there’s the unmistakable mark of a claw. These tracks belong to a different creature altogether–a bear.

The black bear (the only bear we have in the east) that made the tracks above was moving at an indirect register walk, placing each rear foot on the spot just vacated by the front foot from the same side. The zig-zag pattern matches the pattern made by a walking person, but it’s a messy zig-zag because the coverage of the front prints by the hind ones isn’t precise. That’s a sure clue that the trail was made by a four-footed creature.

Another kind of movement often used by bears is the overstep walk, a gait in which the rear foot comes down just ahead of the front foot on the same side. In the next photo a bear moved from bottom to top at an overstep walk, leaving a sequence of tracks made up of sets of two. Each set is composed of a hind track trailed by a front track, and the pairs of tracks are arranged in the familiar zig-zag of a walking gait. Starting from the bottom, the sequence of tracks is: left front, left rear, right front, right rear, left front, left rear.

In the next image you see a left front and a left rear print taken from an overstep walk sequence. The direction of travel is toward the right, and the rear print with its fully impressed heel looks larger–and more human–than the heel-less front track behind it. In both front and rear tracks the outer toe (the upper one) is slightly larger than the others, but compared to human tracks the difference in size is less pronounced. The inner toes shows nicely in both tracks, and they’re distinctly smaller than the rest. There are a few claw marks, but they’re not easy to find because they’re not exactly in front of the corresponding toes.

Bears are classified as plantigrade creatures, meaning that their heels often touch the ground when they are moving at a normal walk. I’m hedging a bit here because heel registration in bears is variable. Rear tracks may show complete and well connected heels, as in the photo above, or partial heel impressions as in the upper sets of tracks in the preceding photo. And if you look at the first photo you’ll see heel marks that are separated from the middle pads by ridges.

Front prints commonly lack heel impressions, but there are times when the full length of the front foot, from heel to toes, does register in the track. The right front track in the next photo (direction of travel toward the left) is a good illustration. The middle pad forms a broad, slightly curved depression in the center of the photo. To the left the four largest toes and their claws show as clear imprints, but the smaller fifth toe (which would have been toward the bottom of the photo) didn’t touch firmly enough to register. To the right of the middle pad there’s a separated circular impression made by the heel pad.

Female bears which bore young over the winter are now travelling with their offspring and leaving tracks like the ones in the next photo. At the lower left you can see the mother’s print. The more delicate prints of the cub, with their prominent claws, are above and to the right. Young bears are active and playful, but they are also vulnerable to predation by coyotes, bobcats, and even adult male bears. Those sharp claws allow cubs to climb to safe refuges high in trees.

Bears are constantly on the move to access a variety of seasonally abundant food sources, often travelling miles as wild fruits and nuts ripen, colonial insects become available, or crop plants mature. Wherever they cross silt beds, sandbars, muddy forest roads, or other trackable surfaces they may leave prints for us to find. So when you find tracks that bear an uncanny resemblance to human tracks, look again. You may be on the trail of a roaming bruin.

Logs

Living creatures see the world in terms of significant objects. We humans are no exception–for us significant features would be such things as chairs, doorways, computers, streets, buildings, picnic tables, traffic lights….you get the idea. For wild animals rocks, thickets, streams, cliffs, and trees come to mind. And then there are logs–items that we usually ignore unless we’re looking for a place to sit. Downed logs are important to many animals in many different ways, and the evidence is often plain to see.

A chipmunk sat on the log in the photo above to eat a red oak acorn. In order to get at the edible meat, the animal tore narrow strips and small chunks from the outer covering. Logs serve as feeding platforms for many small rodents, including red and gray squirrels, and the leftovers often reveal who the diner was. When squirrels feed on red oak acorns, the shell fragments left behind tend to be larger than those discarded by chipmunks.

The log above was used by a red squirrel feeding on red pine cones. As the squirrel fed it dropped the cone scales and cores on the ground in front of the log to create a large midden. Red pines are self-pruning trees and don’t offer many branch perches, so although red squirrels prefer the safety of branch perches, they sometimes need to use more earth-bound objects. Logs, stumps, and rocks can offer a good view of the surroundings and allow the animal to detect danger.

And how do we know it was a red squirrel? Although gray squirrels do sometimes eat conifer seeds, they don’t store them the way red squirrels do, and they never feed on enough conifer cones to create middens the size of the one in the photo.

Tracks on logs tell us that they can also serve as travel routes. Of course we need snow to see this kind of evidence–the light snowfalls of early winter and early spring often show the prints of animals that walked on logs. The coyote that made the tracks in the photo above found the log to be a convenient route through an area obstructed by branches and undergrowth. Walking on logs may also be quieter since leaves and debris can be noisy, even under a layer of snow. Another advantage of walking on logs is a better view. The greater elevation helps prey animals to detect danger, and predators to detect prey. I’ve found many different tracks on logs–the list includes squirrels, white-footed mice, chipmunks, raccoons, bobcats, bears, red and gray foxes, coyotes, fishers, minks, and weasels.

Logs offer these same advantages when there’s no snow, so we can be sure that animals also walk on logs in warmer weather. Without snow their tracks are difficult to detect, but we may still find evidence of their passing. A long-tailed weasel left the scat shown in the photo above on a mossy log. The scat was not quite 1/4 inch in diameter and contained hairs from a small mammal.

The logs in the photo at the head of this article are ones I visit regularly, and they often accumulate the scat of several different kinds of animals. This suggests that they have some special importance, but I’m not sure exactly why. The log in the foreground bridges a low, rocky gully, but the more distant one lies on more level ground. Both logs are large, but there are other logs nearby that are as big or bigger and don’t accumulate scat. Whatever the reason, we can be sure that each species that travels those logs takes note of the messages left by other creatures.

In addition to serving as perches, travel routes, and bulletin boards, logs may be a source of food. This log was torn open by a black bear in search of the grubs that were living and feeding in the rotting wood. Bears are not the only creatures that find food in logs–skunks, raccoons, and woodpeckers also open logs in search of edible morsels. But the size of the fragments and the distance to which they were thrown could only have be the work of an animal as powerful as a bear.

Have you heard a grouse drumming this spring? At this time of year ruffed grouse are looking for mates. The males seek out large logs, and once they find a log that offers a stable and well elevated surface they send out a kind of drumming sound with their wings. The low sound travels long distances, and the elevation of the log gives it even more range. Females are drawn to the sound, and if they’re impressed they will mate with the male. In the photo above I’m perched on a grouse drumming log, taking a photo with my old SLR camera. In front of me on the log you can see several grouse scats.

Whether they’re dinner tables, highways, message boards, pantries, stages, or even just obstacles, logs are significant objects for inhabitants of the natural environment. The evidence they present can reveal unseen dramas in the lives of animals. So before you sit on that log, take a look at it. You might be rewarded with a message that opens a window into the life of a wild creature.

Black Bear Days

Black bears habitually cover great distances in search of food, moving from one source of edible treasure to another throughout summer and fall. The animals often find our trails and primitive roads to be convenient travel routes, and the muddy spots that develop in rainy weather are an ideal medium for capturing their tracks. I recently found these tracks on a forest trail used by snowmobiles and ATVs. The direction of travel is to the left; the left rear print is at the lower left and the left front is at the upper right. Bear tracks, especially those of the hind feet, may remind you of barefoot human tracks, but beware–the largest toe lies on the outside of a bear’s foot rather than on the inside.

But even when there’s no mud, you can learn a lot about the daily lives of bears by observing the sign they leave. Bears love fruits of all kinds. The bear that climbed the shadbush trees pictured below probably knew they wouldn’t support its weight. But no matter, it was easier to eat the berries while standing on the ground anyway.

When apples start to ripen, bears climb the trees to get to the sweet fruits in the highest branches. The gouges in the photo below show how the bear’s claws slipped downward before they caught firmly enough for the animal to move farther upward. When feeding on apples or other fruit, bears sometimes break branches and leave them hanging in the tree or on the ground below. Smaller animals like raccoons and gray foxes also climb trees in search of fruit, but their claw marks are narrower and do not show the separation distances of one inch or more that are typical of adult bears.

Insects are a much sought-after source of protein, and bears dig up nests and tear open logs and stumps to get at grubs and larvae. Even whole tree trunks are not too much for a bear’s power. The snag in the photo below was dismembered by a bear. No other animal would have been able to break out the large sections of wood and scatter the fragments in several directions.

It’s not always possible to determine exactly what a bear was after, but in the case of the tree above the evidence–the remains of carpenter ant galleries shown in the photo below–was still present in the large wood sections. Carpenter ants don’t actually eat wood. Instead they use trees as nest sites, and the tunnels and galleries they create in dead wood serve to house their eggs and larvae. Once an ant nest is exposed by a marauding bear the adult ants flee, but the eggs and larvae, and probably a fair amount of wood, are scooped up and consumed en masse.

Bears are also concerned with the movements of other bears, and they keep tabs on each other through various kinds of messages. The bites which decorate the balsam fir shown below were made by a bear standing on its hind legs. To leave such marks a bear sets an upper canine tooth in the bark and draws the lower canine in. This leaves dot-dash patterns like those to the left of the debarked area. The debarked area itself resulted from repeated biting, and the weathered appearance of the exposed wood tells us that the marking had been going on for a number of years when the photo was taken. Such marks may be visible to bears at close range, but more importantly, they hold the scent of the animal which made them, and bears are famous for their keen sense of smell.

This was a large tree, and it must have been a magnet for every passing bear. It stood about twenty feet off of a seldom-used hiking trail, and between the trail and the fir tree there was a narrow passage with distinct step spots. These step spots were created when approaching bears walked toward the tree with an exaggerated swagger, planting each foot deliberately as if they wanted to leave as much evidence of their visit as possible. In the photo below the step spots show as brown areas of bared soil.

Bear sign, and sometimes tracks, can be very abundant, but unless there’s an artificial attractant (such as garbage or handouts) they’re seldom seen. But fortunately for us their strength and resourcefulness can be observed in their tracks and sign. We can even read, albeit on an elementary level, their messages to each other.

Busy Bears

I just spent a wonderful week in the western Adirondacks, and I was able to indulge in one of my favorite activities: exploring the Independence River on foot–in other words, wading. Besides being breathtakingly beautiful, the Independence is small enough to be safely waded when water levels are low, and there are plenty of sandbars and silty edges where tracks can be found. These bear tracks were the find of the day. The bear was traveling from left to right, and my dog (she likes to explore rivers with me) left tracks below the bear’s,  going in the opposite direction. The first bear print at the upper left is the right front, and just to its right is the right rear. A little farther to the right is the left front print and to its left the left rear. The pattern of rear print ahead of front from the same side tells me that the bear was moving at an overstep walk–a gait often used for relaxed investigation or leisurely travel.

I was excited to find bear tracks because they’re not always easy to find, especially in late summer when the animals are spending much of their time in forests, overgrown clearings, or other relatively untrackable places. The bear may have visited the river to drink, or perhaps to use the shoreline as an easy travel route to a new food source. But even if there are no tracks to be found, there are usually plenty of other indicators that bears are in the neighborhood. Bears use a variety of marking techniques to communicate with other bears, and these marks are often prominent and long-lasting. A bear raked this white pine tree with its claws, leaving fresh claw marks which oozed with copious sap flows.

Man-made structures like signs and lean-tos are often targets of bear marking. On a different day during my recent visit to the ‘Daks I walked along a forest road where posts had been set to mark the locations of culverts. It was clear that bears were habitually using that road–many of the posts, like this one, were ravaged by bear bites. The brighter wood exposed by the bites stands out to our eyes, but for the bear the scent of the saliva-soaked wood is probably more important.

Teeth and claws aren’t the only things bears use to make their presence known. They often rub against trees or wooden structures leaving a personal scent signature from the oils and sebaceous chemicals in their fur. Another post along that same forest road was decorated with hairs left by a bear that had done just that.

And then there’s always scat. Piles of bear scat provide long-lasting samples of what bears are eating. This time of year in the Adirondacks black cherries are a favorite item, as demonstrated by this example. Elsewhere the skins and seeds of apples, grapes, viburnums and berries; squash and pumpkin seeds; corn kernels; or the shells of hickory nuts, beechnuts and acorns may show up in late summer scat. This is the season of ursine hyperphagia, the insatiable hunger that drives bears to eat almost 24 hours a day. The thick layers of fat they put on will allow them to survive their long winter hibernation.