winter – Discover-Nature

Tracks In The Snow, pt.2

In the last blog we explored many of the characteristics of tracking. In this blog, we’ll explore tracks, eating patterns, and scat from animals that are active in northern Illinois throughout our winters. Many of these species live elsewhere, as well, and the information here can be applied to other species with the same characteristics as those in Illinois.

White-tailed deer, Odocoileus virginianus, domesticated horse, and bison, Bison bison, can all be found and observed in many urban and agricultural areas of northern Illinois. These hoofed mammals all walk on their toes, making a deep print of two toenails split down the center. The pointed end faces the direction the animal was traveling.

^{White-tailed deer, Odocoileus virginianus, by mirceax, Getty Images}

^{Deer tracks by florathexplora, Mar 2008}

^{Bison, Bison bison, grazing by belfasteileen, Getty Images}

Hoofed species in this area are all browsers and grazers. Browsers feed on leaves, fruit, and soft shoots of woody plants. One browser in this area, the white-tailed deer, leaves a distinct bite pattern exhibiting a ragged tear from the lower teeth and a clean cut from the upper teeth. Deer also use their lower teeth to scrape away soft bark from trees such as cherry, apple, willow, and sumac. Grazers feed on grass and lower-growing vegetation. These species include horses and bison which bite grass off close to the ground.

^{Rabbit tracks by Lorianne DiSabato, Jan 2025}

^{Squirrel tracks in snow by Tracy Rolling, Feb 2010}

Rabbits, squirrels, and chipmunks all move with a hopping motion. The smaller front feet land first and the larger hind feet land immediately in front of the front feet. Squirrels and chipmunks have five toes on the hind feet and four toes on their front feet. Rabbits have furred feet, effectively hiding the distinct toes, and their tracks appear as a large oblong hind foot in front of a much shorter front foot. The spacing of the tracks indicates of how fast the animal was moving.

Eastern cottontail rabbits, Sylvilagus floridanus, have teeth on both the upper and lower jaw, leaving a clean, forty-five degree angle cut a few inches off the ground. They prefer sumac, maple, apple and oak. Other signs that may be present where rabbits have eaten are scat piles. Their scat is small ovals that come out one at a time, so a pile of scat indicates that the rabbit stayed in that one spot for an extended period of time. Squirrels and chipmunks both have continuously growing incisors that leave distinct, small parallel grooves on the ends of woody shoots they have chewed.

^{Perching bird tracks in snow by Jim Forest, Feb 2017}

^{Webbed trails, Raritan River Bank by joiseyshowaa, Jan 2009}

Woodpecker tracks show two toes pointing in each direction. Perching birds have one toe pointing backwards and three toes pointing forwards. Larger birds of prey such as hawks and owls may have tracks that are blurred indicating feathers covering their toes. Waterfowl, including ducks and geese, will make flattened tracks showing webbing between their toes.

^{Owl wing prints and attack point by Chris Fournier, Dec 2013}

Many larger hawks and owls in our area hunt by soaring on wind drafts while scanning the ground below for prey. When a mouse or other small animal is found, the predator will dive from overhead to snatch up the prey or pin it to the ground before killing it, then possibly taking the prey to another location to eat. Wing marks and depressions in snowy areas are clear indications of an attack.

^{Raccoon tracks by August Ride, Jan 2018}

^{Opossum track by Phil Myers, Univ of Mich, Ann-Arbor, Feb 2009}

The North American raccoon, Procyon lotor, and Virginia opossum, Didelphis virginiana, have alternating prints. Raccoons leave a round print with five long toes that distinctly resembles a human footprint. Opossums also have five toes, but the outer one is opposable, like our thumb, and leaves a distinctive print with four toes pointing forward and one pointing to one side. You may also observe a wavy line between the opossum tracks as it drags its tail along.

Canines and felines have padded feet. Clues to the specie’s identity come from observations of the general shape of the imprint, how many toes there are, if there are claw marks at the ends of the toes, and the general pattern left by the trail of prints. Canines including dog, red fox, Vulpes vulpes, and coyote, Canis latrans, walk on their four front toes. Each footprint will show a back pad, a small pad behind each toe, and a claw mark in front of each toe. The overall imprint will be longer than it is wide. Red fox trails exhibit direct registration, with the hind foot stepping directly into the track left by the front foot but other canine species show indirect registration with front and hind tracks slightly separated.

^{Coyote tracks in snow by David Merwin, Mar 2007}

^{Bobcat track by Frank D Lospalluto, Feb 2016}

Felines include domesticated cats and bobcats, Lynx rufus. These animals have similar prints from walking on their four front toes, but a feline track shows the back pad and four toe pads in a circular impression, and no claw marks because they withdraw their claws when walking.

When observing tracks, keep in mind these points: whether hind feet and front feet are different, how many toes are showing, are there claw marks, is there webbing, feathers, or fur between toes, which foot is in front, and the shape of the print. Consider a tracking field guide or a visit to the Jurica-Suchy Nature Museum or a natural history museum near you for more information.

Tracks In The Snow

As a naturalist and observer, a person can spend a lot of time and effort trying to get close to wild animals, while most animals are trying hard to remain hidden from our view. With the arrival of winter, observing animals directly becomes even more difficult. Many stay hidden in nests and burrows, out of the wind and weather. Others stay out of sight during the day when predators are able to more easily spot prey against a snowy, white backdrop, and only come out during the night to find food.

^{Deer hiding from photographer in winter woodland, by Nicolo Bonazzi, 2016}

^{Eastern chipmunk makes an easy target for a sharp eyed predator, by Tom Murray, Feb 2021}

When an animal does move around, it will often leave tracks in the snow and mud, providing clues for us to study. Who made the track? Where did the animal come from or go to? Were they walking, searching for food, exploring shelter, or running, possibly from a predator? Observing individual prints or groups of prints taken as an overall pattern in the habitats where they were made can reveal interesting facts about each one.

Field guides are an excellent source of information to supplement observations, and you should get to know the following six terms. A track is an imprint of one foot whereas a trail is many tracks strung out in a pattern. Direct registration, made by a fox, occurs when only one imprint is visible because the animal places its hind feet directly into the track left by the fore feet. Indirect registration, made by a domesticated dog, is when the hind footprint appears just outside the fore footprint. An alternating pattern made by a raccoon shows the left hind footprint next to the right front footprint and vice versa. A hopping or bounding pattern from a rabbit shows front feet and hind feet together, with the hind feet appearing in front of the set of four prints.

^{Clockwise from upper left: Bird track by Sharon James, Jan 2013; A trail of tracks by Denise Kitagawa, Feb 2018; Direct registration: Red fox tracks, by Kent Kanouse, Dec 2013; Indirect registration: Dog tracks in snow, by Jeanne Fox, Dec 2007; Alternating pattern: Raccoon prints in the snow, by Andrew, Mar 2017; Hopping pattern: Rabbit tracks in snow, by Ann, May 2019}

There are four general types of tracks made from feet. Birds leave small, hopping, four-toed prints with either one toe pointing backwards and three toes pointing forwards, or in the case of woodpeckers, two toes pointing in each direction. Hoofed animals including deer, horses, and sheep have larger, two-toed prints. Animals with padded feet including dogs and cats leave a print showing four or five toes in front of a large back pad. A non-descript category includes all of the tracks for animals that do not have feet or are not using their feet when the track is made. Naturalists may also observe imprints in the snow or mud from other body parts. These may include feather markings from tails or wings, wavy lines from dragging tails, or packed down areas from dragging bellies.

^{Bird tracks in snow by zenjazzygeek, Mar 2016}

^{Hoofed animal track by florathexplora, May 2008}

^{Padded tracks from bobcat by Placeuvm, Jun 2007}

^{Wing swoop in snow, by Drew Brayshaw, May 2008}

In addition to tracks, other evidence provides information on what the particular animal was doing at that spot. Scat is often distinctive for each animal, and the contents can show what the animal has been eating. This will give us further clues to provide species identification, the size of the animal, and where it might be finding its food. Toothmarks or claw marks on nearby vegetation can help to indicate a specific species. Be sure to observe individual footprints, the overall trail of imprints, and the type of terrain and vegetation in the area. Also note how wet or dry the snow or mud is, as this may make prints easier or harder to distinguish details.

Tracking can be a rewarding activity, providing many clues to help identify animals active in your area and what they are doing during this time of the year. Next time, we will take a more in-depth look at some of the animals in the winter habitats of northern Illinois.

Great Horned Owls

The great-horned owl, Bubo virginianus, is native to much of the Americas, including most of North America and Central America and about half of South America. It is the second heaviest owl in North America, right behind the snowy owl, Bubo scandiacus, weighing up to five-and-a-half pounds with a wingspan between three and five feet.

^{Great-horned owl, Bubo virginianus, by Andy Reago&Chrissy McClareen, Aug 2012}

^{Range and distribution of Great-Horned Owl, Bubo virginianus by BirdLife International, 2014}

Feathers cover the entire body, including their feet, and are varying shades of browns and grays. Their backs and heads are mottled or barred in several patches. This coloration, especially when coupled with mostly nocturnal activities, provides excellent camouflage. Their ‘horns’ are actually feathers sticking upwards on either side of their heads. These are called plumicorns, but their function is not well understood. The feather structure of the wing allows owls to fly silently and includes a serrated leading edge to disrupt turbulence and softer feathers behind to help deaden sound.

^{Great horned owl plumicorns by Jean-pol Grandmont, Aug 2013}

^{Great horned owl wing structure by Peter K. Burian, Aug 2015}

The owl’s ears are covered by feathers, but are not symmetrical with one being higher on the side of the head than the other. This arrangement provides the owl with the ability to triangulate sounds and precisely locate prey in the dark or when prey is hidden, such as when an animal is moving about under a layer of snow. Their flattened face, shaped as a round disc, also helps to direct sound to their ears. Like all owls, their eyes are fixed in the sockets, but the bird can swivel its head almost 180° to either side allowing it to see in all directions.

^{Great horned owl talons by Curtis Bouvier, May 2010}

Great horned owls hunt from a perch, observing the area below them before diving swiftly and silently from far above. Their diet consists of small mammals, birds, amphibians, and a variety of snakes. Their talons are powerful and deadly, with a grip comparable to much larger birds such as golden eagles. Most prey is killed by being pierced or crushed in the talons. Owls may hunt and kill for more than their immediate needs and will cache their kills for future meals.

Great horned owls are not migratory. When an owl is ready to mate, courtship occurs in late fall and pairs mate for life, establishing a territory together in which they will live their entire lives. Most territorial defense is through hooting at a transgressor, but rare physical confrontations have been observed. If an owl cannot establish its own territory, it will live in silence among the fringes of other territories.

^{Great-horned owl juveniles, Bubo virginianus, by Alan Vernon, Jun 2010}

^{Great horned owl female & juvenile on nest by John Kees, Apr 2012}

Males are responsible for picking a nest site, almost always taking over a nest constructed by another species. Mated pairs breed once every two to three years, laying from one to six eggs. Egg laying occurs between late February and early April. The female alone incubates the eggs, never leaving the nest, while the male hunts and brings her food. After about 33 days, the eggs hatch. Young owls will start to fly after seven weeks, but take a full month or more to become proficient.

^{Great horned owl calling, Bubo virginianus, by Michael & Katie LaTour, Jan 2019 (at 0:02, 0:10)}

^{Great-horned owl pair calling by Bushman, Dec 2013 (at 0:18, 0:41, 0:51, 1:22)}

Owls are more often heard than seen. Although the females are larger than males, females have a smaller voice box and thus a higher pitched hooting call ending with a slight rising note. Juveniles can make hissing or screeching sounds and are often misidentified as barn owls, Tyto furcata.

You can learn more about these magnificent birds at the Jurica-Suchy Nature Museum. Make a reservation to come see us by visiting our website at: https://ben.edu/campus-links/jurica-suchy-nature-museum/ (click on Register to Visit the Museum).

Bearing Up In Winter

American black bears, Ursus americanus, live in several habitats in North America including forests, beaches, and alpine regions. However, their diet, home range, and sleeping pattern are unique to each individual bear. Winter behavior is determined by temperature and available food in their immediate area.

Black bear on the shoreline on Vancouver Island, BC by Miharing, Getty Images Signature

Black bear in first snow by KenCanning, Getty Images Signature

Bears are omnivores, eating a variety of plants, insects, fish, small animals, carrion, and human garbage. In colder months, the lack of readily available food and falling temperatures drive bears into dens to hibernate until warmer temperatures return. Typical den sites include hollow logs, under tree root masses, and rocky crevices or caves. Black bears, especially in areas of the Smoky Mountains where extreme temperature drops do not occur, will make dens in tree cavities high off the ground. Bears are not true hibernators and may be awake or even leave the den on days with warmer temperatures.

Black bear in rock crevice den by
Nastasic, Getty Images Signature

Black bear den under root mass by
Blazer76, Getty Images

Once they move into a den, bears can lower their body temperature by eight to twelve degrees and burn body fat to satisfy all of their energy requirements. They do not eat, drink, urinate, or defecate while in the den, although they do wake occasionally to shift their resting position. Bears remain in hibernation while cold temperatures persist. In Alaska’s interior, this may be up to seven months, while in southern and coastal areas hibernation might last only two to three months. In late summer and fall, bears eat 50 to 80 pounds of food and add three to six pounds of fat each day in preparation for winter.

Black bears are solitary animals, coming together only in summer to mate, a bi-annual activity for adult females. Females are able to delay implantation of the fertilized eggs until after they are in the den for the winter. Cubs are born after eight weeks, in mid-winter. They weigh less than half-a-pound and are hairless and helpless. An average litter of one to three cubs will nurse from their mother for three to six months and will be nearly five pounds each as they emerge from the den in late spring. Cubs stay with mom for about 18 months, learning to fend for themselves, and will reach an average of 80 pounds by the end of their first year.

Black bear den with female and nursing cubs by National Park Service

Unless the bear is a pregnant female or the weather conditions are extreme, if there is food available, there is no need to hibernate. Zoo bears historically do not hibernate. However, many zoos are changing their practices by reducing meal sizes so their bears do enter hibernation for short periods. Studies show that this leads to fewer problems with overweight bears, and allows pregnant females the quiet time needed for cubs to develop naturally.

Black bear cubs in spring in Glacier Bay National Park by National Park Service

Black bear female nursing cubs by Alan D Wilson, 2010

Scientists are studying several health issues important to both bears and humans. Bears lose about 25% of their muscle mass during an extended hibernation, but emerge from the den with strong bones and good physical abilities. As humans become less active due to aging or other circumstances, they lose almost 60% of muscle and bone mass in the same period. Loss of bone mass, termed osteoporosis, accounts for over half of the bone fractures in adults over fifty years of age. Studies on how bears conserve and reuse proteins during hibernation, and use fat for energy, may provide insights into helping people to maintain their strength and health as they age or become less active.

At the Jurica-Suchy Nature Museum, you can learn more about black bears, grizzly bears, and polar bears.

Insects Over Winter

It is starting to get chilly in the Midwest as we head toward winter. Insects also recognize the shorter daylight hours and dropping temperatures. They use two main strategies to cope with winters: freeze avoidance and freeze tolerance. Avoidance may require travel or a dry place to stay warm. Tolerant insects can stay here and control their body’s response to freezing temperatures. Staying in place has several advantages including being able to emerge early in spring, allowing those insects to feed before predators are out.

^{Clockwise from upper left: Monarch butterflies on migration by Dopeyden, Getty Images; Cecropia moth cocoon by Sylvie Bouchard, Getty Images; Milkweed bugs by Rick Wood, Rick Wood’s Images; Four-lined plant bug, Poecilocapsus lineatus, by Heather Broccard-Bell, Getty Images Signature; Common pill-bug by Ines Carrara, Getty Images}

Those insect groups that opt for traveling to warmer climates often make a one-way trip. Monarchs are one of the best known insect migrators. Monarchs east of the Rocky Mountains leave in early fall to arrive at overwintering sites in the mountains of Mexico. Their offspring return to the southern U.S. in spring to breed, and this second generation returns to the East and Midwest over the following summer. Monarchs west of the Rockies overwinter in Baja, California, and many of the same individuals that fly south do return, but their trip is considerably shorter allowing time for breeding during summer months in the northwest U.S.

^{Honeybees in hive by OK-Photography, Getty Images}

Many different species of insects can control or stop ice formation in their bodies. Honeybees cluster together and shiver, generating enough body heat to keep the air above freezing in their hive. Other insects get rid of all the food and water in their bodies, becoming dehydrated and unable to freeze. Some species can control where ice crystals may form in their bodies, and prevent their formation inside cells that would cause harm to the insect. Insect species that retain some water use cryoprotectants, chemicals resulting from large amounts of sugar. One such chemical is glycerol, which lowers the freezing temperature of water and other liquids.

^{Dragonfly larva with fish by Mauribo, Getty Images Signature}

^{Fast running stream by Mburnham, Getty Images}

Some insects remain active throughout the winter. Aquatic insects in immature stages can easily spend the winter in fast moving or deeper water that does not freeze. Some insects move inside warm and protected places like attics, sheds, and gaps in house walls. They also overwinter in tree cavities, under bark, inside dead plants, and in old burrows. Allowing vegetation with hollow stems to stand through the winter will provide many populations a safe place to spend the season.

The insect version of hibernation is called diapause, when growth and development is halted until longer daylight hours prevail. Late winter weather patterns with warm periods interspersed with cold periods endanger many species. Another change we have experienced in recent years involves warm temperatures lasting later in fall and starting earlier in spring. These changes interrupt the historical natural cycles, causing insects and other animals to abort hibernation and actively look for food or mates. Food plants do not produce enough to support animal populations, or another cold period returns, and species are not able to adapt, and often perish.

^{A garden in winter by Vermontalm, Getty Images; Snag and deadwood in winter by BayDavn0211, Getty Images; Spring garden and returning insects by Anthony Lerma, Getty Images}

Insects are a vital part of healthy habitats, providing pollination services and food to many species. We can help overwintering insects by leaving dead stalks standing until late spring to provide safe habitat. Leaves left piled up provide nutrients, insulation, and a place of shelter. Uncovered soil can also host ground nesters such as native bees. Snags and logs provide lots of cavities protected from the weather. Selecting some plant species that bloom early or late in the year will provide additional food at those times. Growing plants in clusters enables insects to find all they need in one place. With a little planning, everyone’s backyard can be an inviting habitat for insects year-round.

Boreal Forest in Winter

The boreal forest is the largest tract of woodland on earth covering 11% of all land area, half again as large as the Amazon rainforest. It stores 30% of the sequestered carbon on earth. The area also contains a mosaic of wet meadows, ponds, lakes, marshes, and bogs interlaced among the trees. Tree species include many conifers, dominated by spruce, plus aspen, birch, willow and alder. The animal life is abundant, with every species that was there before European settlement still remaining.

^{Boreal Forest panorama by Mliberra, getty Images}

The boreal forest is distinguished by short, hot, wet summers and long, dry, cold winters. When the last glaciers retreated northward, many holes and fissures were left behind. As the ice melted, all of these depressions were filled with water. The underlying geology is mostly granite shield, a rock layer that holds the water in and contains few minerals that dissolve in water, yielding very clear water that does not promote algae or bacteria growth. Most lake life is found in the shallow, warmer edges which also provide support to nearly all of the land-based fauna.

^{From upper left clockwise: Alder tree by Mantonature, Getty Images Signature; Spruce trees by Hannu Koskela, Getty Images; Willow tree by smarko , Pixabay; Aspen trees by Adamisovitsch, Getty Images}

Winter time presents many challenges including less sunlight, colder temperatures, less available water, less food and shelter, and increased severe storms. Animals that are active daily have higher energy requirements in winter. They must often change their dietary sources to whatever is available in winter. Grey squirrels and beavers cache food during warmer periods. Birds eat foods higher in calories such as nuts, seeds, dried fruit, and insects found under tree bark. When changes are consistent from year to year, species develop adaptations to meet the requirements of each season and are able to live comfortably throughout the year.

Shelter becomes not only a place to hide from predators, but also provides protection from weather extremes. Snow of different thicknesses and weight covers the landscape. Snow is also a great insulator, keeping cold winds away from exposed skin. There is normally a layer of air between the ground and the snow cover immediately above. Temperatures in this space are warmer than the exposed air above the snow creating a winter habitat that is vitally important for many species. Mice and voles create burrows under the snow where they can huddle together for added warmth. Similarly, air pockets surrounded by a heavy growth of conifer needles create spaces above the snow cover for birds and some larger mammals to shelter. And many larger species will nestle into the snow pack to shelter from storms and wind.

^{Spruce grouse by Impr2003, Getty Images}

^{Willow ptarmigan by Alex Berger, Mar 2022}

Spruce grouse, Canachites canadensis, and willow ptarmigan, Lagopus lagopus, are not able to fly more than several yards. They grow feathers on their feet to insulate them and aid in traction. Grouse use the air layer at ground level to shelter in.

^{Portrait of a snowshoe hare by Jim Cumming, Getty Images}

^{Canada lynx by Carol Gray, Getty Images}

Ptarmigan, along with snowshoe hares, Lepus americanus, and short-tailed weasels, Mustela erminea, all change color to pure white to hide from predators. Snowshoe hare and Canada lynx, Lynx canadensis, have very large feet that aid in walking on snow without sinking in. Arctic fox, Vulpes lagopus, are winter specialists with compact bodies and short legs and ears that limit their exposure to cold, and large, furry paws that enable them to walk on top of the snowpack. With their long, bushy tails wrapped around their heads, they can withstand winds and temperatures to fifty below zero.

^{Stayin’ warm, Arctic fox by PEDRE, Getty Images Signature}

You can learn more about this cold but wondrous habitat by searching online for boreal forest, referring to the southern portions of the habitat, or taiga, referring to the northern portions. Also, look for information concerning seasonal adaptations for species in your own area, or visit a local natural history museum such as the Jurica-Suchy Nature Museum in Lisle, Illinois.

Junco Winter Adaptations

Juncos spend the winter spread across the United States. They spend summers at breeding areas in southern Canada, and in fall males migrate to the northern states while females migrate farther south. Males have several adaptations that allow them to more easily survive in colder climates, and allow them to return early to breeding areas to claim the best territory for attracting a mate among the females that come back a few weeks later.

^{Male dark-eyed junco, Junco hyemalis by Christian Gott, dec 2022}

^{Female dark-eyed junco, Junco hyemalis by Joseph Higbee, Dec 2014}

Junco males are small, round-bodied birds with a slate gray back and are larger and weigh more than females. According to Bergmann’s Rule, large bodies have a smaller surface area relative to their volume, and are therefore able to retain more heat than longer or skinnier bodies. Being able to retain more heat for longer periods, an average-sized male junco can go two hours longer without food than an average female, and a large male may go more than ten hours longer between meals. This can be an essential factor when living through a colder period.

^{A cozy tree cavity by Steve Valasek, Apr 2014}

^{Accommodations for one… by Hedera Baltica, May 2016}

Tree cavities provide excellent places to shelter in winter. At night and in severe weather, juncos seek a small, tight space big enough for a single bird that provides protection from wind and moisture. During daytime hours, while foraging, juncos can often be found in conifer trees whose year-round needles provide a windbreak and a place to remain out of sight of predators.

^{Male junco with fluffed-out feathers by Ken Gibson, Dec 2016}

Juncos have a normal body temperature of 107˚F, well above the average outside temperature on a winter day which could be between -10˚F and +20˚F. Maintaining body heat requires a high-caloric diet to create the heat and resources to not allow the heat to escape. Birds have muscular control over their feathers and are able to fluff them, trapping air next to their skin. Preening is a daily activity where oil secreted from a gland above the tail is rubbed on all of their feathers providing a moisture barrier that keeps water, snow, and cold winds away from their skin. Both feathers and trapped air make up two layers of insulation that work efficiently to retain body heat.

During extreme weather, it may be advantageous to remain sheltered and inactive when the amount of calories burned to get a meal is more than the calories in the meal. When sheltering for longer periods, juncos may intentionally lower their body temperatures a few degrees, entering a state of torpor. This state lasts for only a few hours, but saves enough energy so that the bird does not need to forage for an extended period during a day. Using muscular control, birds can generate body heat by contracting and releasing their muscles, similar to shivering in mammals, and bring their body temperatures back to normal and resume daily activities.

^{Juncos feeding on ground by mwms1916, Apr 2015}

^{Juncos feeding on ground feeder by synspectrum, Nov 2015}

Northern U.S. flocks of juncos in winter are 70% or more males, while most females spend winters in the southern U.S. This is also true for several other species that migrate with juncos including tree sparrows, song sparrows, and mourning doves. Juncos will be leaving in late winter to return to breeding grounds across Canada, but for the coming few months we will certainly enjoy their presence in our area.

Forest Litter, Hand Lens Views

This week we take a look at one other group of species found in the forest litter, those that we can best observe using a hand lens. Springtails are tiny insects colored gray, brown, and white. They are wingless with a worm-like body, and are named for a unique abdominal structure that allows them to suddenly jump. They are extremely numerous, ranging from 500 to 50,000 individuals per square meter. Springtails may form dense groups that come out in winter on top of new fallen snow earning them the nickname “snow fleas.” They are an important species of decomposer feeding on fungi, decaying vegetation, and live vegetation.

Springtail, genus *Isotoma*, by Ryszard, Aug 2009

Springtails, aka Snow Fleas, by mwms1916, Mar 2015

Soil mites are members of the arachnid family, the same as spiders. When viewed up close, they may look like tiny spiders having four pairs of legs, and a rounded, glossy abdomen in a variety of dark earth tones. Soil mites are decomposers, as well as predators. They feed mostly on decaying vegetation, but also eat springtails, round worms, and fungi.

Red velvet soil mite, *Trombidium sp*, by Alexey Nikodimov, Apr 2018

Pseudoscorpions, also called false scorpions, look like real scorpions without the dagger-like abdomen. They carry no poison, but have two large claw-like appendages in front. They are predators of springtails, soil mites, and certain worm species. Pseudoscorpions have no eyes or ears, living in the dark soil just below the leaf litter. Almost as numerous as springtails and soil mites, they depend on scent and vibration to locate their prey.

Pseudoscorpion by Philippe Garcelon, Mar 2021

Pseudoscorpion by Philippe Garcelon, Oct 2018

Other animal species that can be observed with either your eyes or a hand lends include ants and beetles. These two groups are quite diverse and can be found in all habitats and soil types.

Eastern Bess beetle larva, by Katja Schultz, Jul 2014

Ground beetles by Bernard DuPont, Feb 2006

Beetles make up the largest order of insects with over 300,000 known species. They can be found under decaying logs, under loose bark, and in the leaf litter. They are especially attracted to light sources at night. The larval stage of a beetle is called a grub, often found in shallow soil layers both on the forest floor as well as in our own backyards. Beetles feed on decaying vegetation, live roots, and other plant parts. They are a major food source for a variety of birds, mammals, arachnids, and other predatory insects.

Ants in bark by Michael Jefferies, Mar 2010

Ants are another insect group, forming vast colonies organized into social castes. There is a single queen in each colony plus thousands of workers and soldiers. Each individual has an appointed job serving the colony. Ants provide several ecological functions in any habitat: predators, scavengers, pollinators, recyclers, and soil aerators. Ant species are split into four groups identified as carpenter ants, little black ants, red ants and fire ants.

Forests are stopping grounds for many migrating species of birds, mammals, and insects. Forest litter is an excellent layer of insulation, and many of the species we have reviewed are active throughout the year, providing food for migrators and ecological services to the other year-round inhabitants. I encourage you to get out and observe this exciting habitat as you hike the forest paths this autumn.