Prehistoric Life 18

March 21, 2011 at 6:29 am (birds, botany, ecology, mammals, paleontology, Prehistoric Life series)
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by Carl Strang

This year’s winter series is a review of the prehistoric life and geologic history of northeast Illinois. Each chapter will summarize current understanding, gleaned from the literature, of what was going on with life on Earth in a particular span of time, what we know about the local landscape, and what we can say about local life. I include some references, particularly to papers published in the journal Science which commonly is available at public libraries. Contact me if you need sources for other items. The Earth is so old that every imaginable environment was here at some point, from ocean depths to mountaintops, from equatorial tropics to tundra, and from wetlands to desert.

Pliocene Epoch (5.2-1.64 million years ago)

The Pliocene Epoch, literally “more recent,” originally was defined (1833) by the percentage of then known fossil mollusk species still living (35-95%). Its end is marked by the beginning of the glacial times.

Life on Earth. In the Pliocene, grazers became largely supplanted by more generalist herbivores as savannas became widespread in Eurasia and North America. The dominant groups were camels, antilocaprids (e.g., pronghorn “antelope”), and Equus horses (which, like most horses, originated in North America). Opossums diversified in South America, mammoths appeared in Africa (early Pliocene), the North American rhinoceroses vanished (middle Pliocene), and Sorex shrews appeared in the late Pliocene.

Sorex shrews like our short-tailed shrew of today made their evolutionary appearance in the Pliocene Epoch.

Land bridges finally allowed camels to spread into South America and Asia in the Pliocene (a camel survived in North America into late Pleistocene times). In the middle Pliocene, continued connection to Asia brought immigration of more carnivores, deer, and the elephant Stegomastodon. From North America to Eurasia went a rabbit, a squirrel, the beaver, and Equus.

The world’s lynx and cheetahs first appeared in North America, crossing to the Old World via the Bering Sea land connection.

In the late Pliocene, new appearances were pocket gophers, the white-tailed deer genus Odocoileus, raccoons, the giant beaver, bobcat (Old World lynxes, and also cheetahs, trace their ancestry to the New World where their groups first appeared), the New World porcupine family, eastern mole, and masked shrew.

Modern deer made their appearance in the Pliocene.

In the meantime, the first hominids were beginning to walk upright in Africa 3.8-4 mya (million years ago; Science 307:1545). Upright walking may have begun in the trees, as a hand-assisted way of negotiating thin, flexible branches (Science 316:1328 ). “Lucy,” Australopithecus afarensis (3-3.6my ago), regarded as a human ancestor or close to it, has been tied to the older A. anamensis (4mya), which in turn may have come from the still older Ardipithecus ramidus (4.4mya). Fossils of all three species were found in the same African river valley (Science 312:178). Ardipithecus significantly was a woodland dweller; apparently upright walking was not a product of a grassland habitat (Science 326: 64). Genus Homo had evolved by the late Pliocene, with species from Africa to Asia. Homo habilis and H. erectus are two earlier species which apparently overlapped considerably in time, so that it is uncertain whether the latter descended from the former (Science 317:733). Examination of limb structure points to habilis being arboreal while erectus was terrestrial, so a connection by descent is unlikely (Science 320:609).

The New World chickadees evolved from a single species that emigrated from Eurasia in the Pliocene.

Birds also were dispersing, and our modern species began to emerge. At least some modern songbirds had evolved by the early Pliocene (Auk 124:85). The chickadees and titmice, which had appeared in Eurasia originally, came over to North America in the Pliocene. The first crested species (titmouse) came over around 4 mya, and a single non-crested (chickadee) founder species around 3.5 mya. Subsequent evolution led to the 3 modern titmouse species and about 7 chickadees in the Americas. One terror bird species, in genus Titanis, reached North America from South America 2-3 million years ago, but was extinct by the end of the Pliocene.

Local landscape. Cooling and increased seasonality continued in the Pliocene (the middle Pliocene was the last time that Earth temperatures were warmer than at present).  Climate in the early Pliocene was significantly warmer than today; the major difference apparently was that the El Niño pattern of Pacific Ocean currents was permanent rather than episodic as it is today. The re-establishment of such a pattern is a possible outcome of global warming (Science 312:1485). Woodlands were more open in the Pliocene, perhaps savanna-like in places in our area. Elsewhere in North America, the continent developed its first near-modern boreal forest, as well as the first deserts, tundra and permafrost areas.

The Pliocene brought increasing seasonality, and extensive savannas replaced much of the Miocene grasslands.

The nearest Pliocene deposits are tiny areas in southern Indiana, and extensive areas in eastern Nebraska. By the Pliocene, much of northeast Illinois was draining eastward into the river that ultimately was enlarged by Pleistocene glaciation to become Lake Michigan. This happened when the relatively erosion-resistant and eastward-sloping Niagaran dolomite beneath us was brought close to the surface. Today, surface waters are directed by much more recent glacial deposits on top of that bedrock, and all ultimately flow into the Des Plaines-Illinois River system, ending up in the Gulf of Mexico rather than the North Atlantic.

Local life.  There is a likelihood that the camels, antilocaprids and horses (including Equus, the genus that includes modern horses) were represented locally. Deer, rabbits, beavers, raccoons, sabertooth cats (including Meganteron, an ancestor of the famous Smilodon), bears, the scavenging “hyaenoid dog” Borophagus, otters, and skunks are other likely species at that time.

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Prehistoric Life 17

March 14, 2011 at 6:23 am (birds, botany, ecology, geology, mammals, paleontology, Prehistoric Life series, Uncategorized)
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by Carl Strang

This year’s winter series is a review of the prehistoric life and geologic history of northeast Illinois. Each chapter will summarize current understanding, gleaned from the literature, of what was going on with life on Earth in a particular span of time, what we know about the local landscape, and what we can say about local life. I include some references, particularly to papers published in the journal Science which commonly is available at public libraries. Contact me if you need sources for other items. The Earth is so old that every imaginable environment was here at some point, from ocean depths to mountaintops, from equatorial tropics to tundra, and from wetlands to desert.

Neogene Period (23.3 million years ago-present), Miocene Epoch (23.3-5.2 million years ago)

The Neogene Period (named in 1853) defines a time when a significant portion of fossil species (or at least very close relatives of them) still are in existence. The Miocene Epoch (established 1833), literally “few recent,” originally was defined by the percentage of then known fossil mollusk species still living (17%).

Life on Earth. Warming but continued dry conditions prevailed through most of the Miocene, giving way to renewed cooling in the late Miocene. This cooling was caused at least in part by the continuing growth of the Antarctic ice sheet. The resultant drop in sea level established land bridge connections from North America to South America and Asia. Continental growth, and also the rise of major mountain ranges, increased the seasonality of climate, and changed ocean circulation patterns, with upwelling zones probably setting up the conditions favoring pinniped (sea lion, etc.) evolution in the middle Miocene.

Harbor seal. Pinnipeds underwent a significant radiation in the Miocene.

Grasslands spread in the Miocene. The Perissodactyla had been the dominant ungulates, with their diversity peaking in the Eocene, but in the Miocene they declined (though rhinoceroses remained prominent throughout the epoch), while the Artiodactyla increased. The latter ungulates’ advantage may have been their ruminant digestive tract and complex high-crowned teeth, good for grazers (this was true of the larger division of artiodactyls; the pigs and hippopotami lack these specializations). Camels were very diverse in the Miocene, a remarkable example being the 12-foot-tall, giraffe-like browser Aepycamelus.

Bactrian camels, Brookfield Zoo. The camels, which had their start in North America, were very diverse on our continent in the Miocene.

The deer family appeared early in the Miocene in the Old World. By the middle Miocene, the diversification and evolution of horses was represented in part by the first one-toed species, Pliohippus of North America. Horses did not develop high-crowned molars until 4 million years after the grasses replaced trees as the dominant vegetation in the Great Plains, but their limb structure changed more quickly, so that they were able to survive by efficiently traveling longer distances between suitable habitat patches (Science 306:1467). Ungulate diversity peaked in the mid-Miocene, perhaps because frequent disturbance by the large proboscideans (gomphotheres and mastodons, which migrated into North America at that time) diversified the grassland savanna that had developed. Toward the end of the Miocene, however, much of the savanna gave way to grasslands, and there were extinctions of many of these ungulates and proboscideans.

Prairies and other grassland ecosystems spread into North America and became important here in the Miocene.

The departure of forests from much of North America is associated with the vanishing of primates from this continent.  Miocene land connections to South America and Asia resulted in significant immigrations and extinctions. Sabertooth cats and other Felidae first immigrated from Asia in the middle Miocene (ending the so-called “cat gap”).  Other new Miocene arrivals from Asia included bears, skunks, and badgers; from South America, ground sloths. There was a diversification of canids (dog family), mustelids (weasel family) and amphicyonids, though in the late Miocene the amphicyonids became extinct. The American white-footed mouse genus Peromyscus first appeared in the Miocene, and Spermophilus ground squirrels in the middle Miocene. Flying squirrels had their start in Asia in the early Miocene, with the split between Old World and North American flying squirrels happening in the late Miocene. The dominant carnivores in South America were marsupials in the Tertiary through the Miocene. The first member of the opossum genus, Didelphis solimoensis, showed up in the fossil record of Brazil in the latter part of the Miocene. Marsupials went extinct in North America in the Miocene, however.

Bears evolved in the Old World, and crossed the Bering Sea land bridge into North America in the Miocene.

Modern bird families were established in the Miocene, and the land bird orders other than the passerines underwent their great diversification. The passerine (perching birds) explosion began in the late Miocene. The first modern genera of birds began to appear in the Miocene, as well.

Local landscape. Subtropical forest of the early Miocene gave way to warm temperate to cooler temperate forests. The Texas gulf coast was swampy, so our climate very likely was at least as moist as today. We were between known areas of forests in New England that were warm temperate (hickories, chestnuts, hollies, mulberries, gums, oaks, buckthorns, elms, grapes) and shrubland-savannas on the Plains (invaded by grasses and prairie forbs as the Miocene progressed). The closest Miocene deposits are in western Nebraska, south central South Dakota, central Mississippi and SW Maryland.

Local life. Throughout the Miocene, browser-grazer pairs of rhinoceroses were found all over North America in savanna environments (the most common genera were Aphelops and Teleoceras, respectively; Teleoceras appears to have been a herding, and possibly semiaquatic species). If our area was more forested, we may have had only a browsing species. Rhinos became extinct in North America at the end of the Miocene. It seems likely that our area witnessed the transition from perissodactyl to artiodactyl dominance. Forms of rhinos (5 genera), tapirs (2 genera), horses (14 genera), dromomerycids (an extinct group of deer-like woodland browsers with horned males) and camels (5 genera, including the giraffe-like Aepycamelus) probably were here. The oreodonts were a diverse group of pig-like herbivorous artiodactyls, with at least 4 genera probably here in the Miocene. Carnivora would have been the dominant predators (diverse dogs, weasels, the large bears Indarctos and Plionarctos, “bear-dogs,” large cats, and the saber-toothed nimravid Barbourofelis), but there was also the entelodont Dinohyus. The Miocene also saw the arrival of the first proboscideans, or elephant relatives. These may have had a significant impact, killing the trees that they fed on and thus disturbing the vegetation so as to create more habitat diversity. There likely were 3 genera here, including two that were relatively elephant-like, and one that had shovel-like lower tusks that it probably used both to scoop up aquatic plants and to scrape bark from trees.

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Snowmageddon Stories

February 8, 2011 at 7:16 am (birds, history (human), mammals)
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by Carl Strang

I’ve grown to like the term “snowmageddon” to describe our recent big winter storm. The fact that we had several days to anticipate its arrival is a tribute to meteorologists’ improved weather forecasting in recent years. Thanks to chaos theory, improved models, and advances in computational power, we have a much better ability to forecast the weather than existed in ancient times (my childhood). One consequence in the present case was the opportunity to build a scary, delicious anticipation of the inescapable coming calamity several days ahead of its arrival. I’ve adopted a humorous tone here, but I also pause as I type to remember that lives were lost.

I have two stories to share, the home story and a limited start to the Mayslake story. I work for an elite organization, the Forest Preserve District of DuPage County. We seldom are shaken by flood or storm. However, the wise decision was made to close the preserves on the day of the storm. As a consequence, I stayed home, working on an on-line guide to singing insects that I have begun to draft, and shoveling my driveway in stages.

I started by shoveling a simple path from the front door across the driveway, then from the garage door down to the street. Average snow depth was around 18 inches.

The snow had been pushed by winds that, in the open, hit 50mph and more. It was howling around the house, but I’m sure the surrounding neighborhood reduced the wind speed somewhat. Of course, a consequence of reduced wind speed is snow drifts.

Here you can get a sense of the drifted deposit in my driveway.

My back yard was not as picturesque, just a single drift covering all but the tops of the tall prairie plants in my flowerbeds. Looks like I won’t be grilling for a bit.

The back yard is pretty full. The brats in the freezer will have to wait.

 I got the driveway cleared, just a bit of exercise, so that’s the end of the home story.

Mayslake likewise is deep in snow. A few days before the storm I managed to pull a calf muscle while running, so I haven’t waded out to see the entire preserve. Here was one interesting double drift that formed close to the mansion.

This double drift reminds me of the crescent dunes that form in some sand desert areas.

This snow will help some animals. Many wintering insects benefit from the protection and insulation provided by deep snow. Voles and shrews are less in danger from larger predators as they tunnel beneath the drifts. Some, like raccoons and skunks, simply can wait out the thaw for a while. Others, like deer and winter-active mammals and birds, must cope.

Here a coyote waded through the snow, continuing a hunt made more difficult by the storm. It could be worse: at least the blizzard’s winds packed the snow somewhat.

I was especially interested in how the owls would react. Mayslake’s great horned owls started incubating on January 27, just before the storm hit. I am happy to report that the female seemed unperturbed, and continues to sit the nest.

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Burrows

October 19, 2010 at 6:00 am (mammals)
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by Carl Strang

Recently I found two relatively new burrows at Mayslake Forest Preserve.

This one, not far from the entrance drive, was excavated this past season. Its size is consistent with woodchuck or skunk. I haven’t seen the former species in that area, but I suppose one could have dug it and then moved on. The second, similar in size, is just outside the friary demolition exclusion fence.

It is in the same location as the coyote den that was covered in the run-up to the fence’s construction, and may access the same underground chamber.

I will be interested in learning what animals may be using these shelters in future months.

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Opossum Dossier

February 26, 2010 at 7:12 am (mammals, species dossiers)
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by Carl Strang

I like our native marsupial, as the length and content of this week’s species dossier may reveal.

Opossum

Common in DuPage County, IL, and around Culver, IN. Usually found around trees, though it more often uses burrows (dug by other animals) as daytime rest sites in DuPage. Strictly nocturnal most of year, but comes out for occasional daytime wanderings, especially in late winter. Has a prehensile tail. Female has pouch in which small young reside; older ones ride on her back. Highly variable in most physical characteristics, including facial appearance, color (black, white and gray offspring once in a single litter brought to Willowbrook). Breeding season varies, too; young babies with mother May-August. Climbs trees frequently. Tracks 5 toes front and back, usually walks in trot gait, with front foot’s toes spread widely, giving impression of a star. Hind foot of same side placed sideways, large thumb pointing inward, remaining 4 toes out, and placed against back of front foot so as to appear to be partly wrapped around it. Dead ones are so common along the road that auto accidents may be the major cause of death in DuPage. Opossums usually don’t snap or bite. They give an open-mouthed, hissing threat. Are the over-sized but weakly anchored canines more for bluffing than eating? Usually they can be carried by the tail, but this is not recommended because some will climb up and try to bite. I haven’t seen the “playing possum;” when this behavior is reported to Willowbrook, it’s usually in the context of the animal being bitten by a dog. The skull is characterized by a large cranial ridge and tiny brain cavity.

25JA86. Willowbrook. Heavy raccoon and opossum activity after snow fell but before a large, sharp drop in temperature.

18FE86. Tracks indicated much opossum (also skunk, raccoon) activity on a relatively warm night after a week of extreme cold and an ice storm.

10NO86. Young opossum making a nest in its aquarium at Willowbrook. Tore off pieces of newspaper from floor with mouth and carried them in tightly curled tail into folded towel, further shredding and incorporating them into previously gathered material. After initial tear, pushed paper with front feet underneath him, transferring or pushing it into partly curved tail with hind feet. Tail gripped paper. Hind feet appeared to grasp the material, even small pieces, and stretched the feet backwards to stuff them into the growing bundle.

11JA87. Waterfall Glen, in 6 inches of snow that fell 2 days before. No raccoon signs, but several opossums had been out (all from burrows in ground). One followed in young woods between railroad tracks and Des Plaines River, east of Sawmill Creek. It dug a hole and defecated skins and seeds of American bittersweet or something very similar at base of large tree. Went into and out of a second burrow distant from the first. Frequently and I believe nonrandomly brushed against large trees. Straddle wide (7.5 inches). Dug in 2 other places; couldn’t tell if it ate anything. Entire counterclockwise circular path ~300m long.

20JA87. No sign of opossums in the 3 nights since 4 inches of snow.

14MR87. Meacham Grove. Medium-sized opossum tracks on long, roundabout path through woods and on out of preserve. I picked up another, same size (same animal?), followed it to hollow-log den. Frequently turned to the side and dug shallowly in litter. Three times its path crossed similar thick (1/2-3/4″ diameter, ~2″ long segments) droppings med-dark brown with fibrous matrix and much seed content, looking like millet from bird feeder. I don’t think these were deposited by this animal on this trip, though. No frequent contact with trees, though the second animal seemed to prefer to walk along tops of fallen logs and sticks rather than walk on ground (1/2″ new icy snow on ground). Holes in litter mostly distinct from those dug by squirrels by being less focused, shallow scrapings. Typically wider than long, as opposed to squirrels’ longer than wide, and without nut-hole in bottom. Possibly a more circular, displacement of litter rather than the squirrels’ linear digging. I backtracked the original animal’s winding route until it went off the preserve on its north edge (entire ramble encompassed ~1/3 of the small western part of Meacham Grove). It dug out an old rabbit skin, fur still on, but apparently didn’t find anything edible left.

10DE87. One set fresh opossum tracks in Willowbrook’s Back 40, compared to lots of raccoon sets.

23DE87. In recent nights much opossum activity, some raccoon activity.

20JA88. Lots of raccoon and opossum activity last 2 warm nights, Willowbrook. Stream high, no crossings observed.

1JE88. An adult opossum out and quietly moving about at this hot noontime hour (>85 degrees F).

9MR89. Despite increased warmth over past 2 nights, no use of trails by opossums or raccoons.

9DE89. McDowell Forest Preserve. Half-grown opossum, foraging mid-morning. Nose very active, ate several small fruits among fallen leaves. Hackberries. It was unwary; I could approach closely. When walking it tends to trot, especially when it speeds up. 4 separate footfalls when slower, but they are departures from a diagonal walk or trot sequence rather than a pace. Later (11:30am) I saw him, or another of same size, go into a burrow about 1/4 mile away from the first site.

14JA90. Most of a roll of photos taken in the dried bed of McKee Marsh, of an opossum eating a dead fish, ~10:30am.

22JA90. Willowbrook. Lots of opossum activity above pond. One followed some distance: mostly a steady walk, centers of track-pairs 1 hand-span (8″) apart, and in a straight line. When a curving turn made, tracks became very close together; more erratic in appearance. Altered route slightly to get around sticks, tufts of grass, etc., that could have been stepped over with a little effort.

12FE06. McDowell Grove. I picked up an opossum trail in the snow, the animal having come up from the West Branch. Snow had fallen before its walk, and then during the opossum’s wanderings, as the tracks had less and less snow in them and ultimately none at all. It occasionally dug in leaf litter, was interested especially in areas around fallen logs and at the bases of large trees. Den in a rotted out cavity in the base of a standing tree, near the trail junction where a former bit of landscaping was done in the northern part of the preserve. Den entrance photographed.

24FE07. A large opossum walking through woods at Blackwell, far from any feeders, at 9a.m.

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Pressure Releases 1: A Slip & Slide

March 13, 2009 at 11:05 am (mammals, methods)
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by Carl Strang

 

Now that the snow season is ending and we are getting nice spring mud, we can take advantage of our wonderful clay-rich soil to begin to look at the information available in the fine structure of footprints. Here is an example from last week at Mayslake. A skunk on walkabout was traveling on the main trail just north of Mays Lake.

 

skunk-slip-slide-b

 

Compare the left hind foot in this photo to the right front foot (skunks have much more substantial toenails on the front feet). The right footprint is much more complicated in microtopography than the left footprint. I want to focus here on the combination of soil piled up just right of the track plus the big crack paralleling the left side. Can you see that the right track is on ground that is a little lower, and sloping more to the right, than the level ground where the left track was made? The soil collapsed when the pressure of the skunk’s weight was applied to it, the foot and its bit of soil sliding to the right down that tiny slope. That movement piled up the soil just to the right of the track and pulled away from the soil just to the left, opening the crack in this clay-rich material.

 

This example may seem trivial, but it points out that there is potential information in the details within the track. I’ll supply a somewhat more substantial example tomorrow.

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Aging Tracks

February 27, 2009 at 12:04 pm (mammals, methods)
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by Carl Strang

 

Yesterday  I made several references to how changes in weather conditions were affecting the footprints made by skunks over two successive nights. Awareness of weather is an important aspect of estimating the age of tracks, no matter what surface they are in. I’ll probably expand on this in the future, but for now let’s take a closer look at those skunk tracks. We’ll compare photos of skunk tracks that differed in age by one day. The first is of a footprint made the previous night (and thus a few hours old).

 

skunk-tracks-25fe-4b

 

It is an isolated track, made where the crust had not fully formed as explained yesterday. I hope you can see that, while the footprint does not have a lot of internal detail thanks to the large-grained, partly crusted snow, the track does have fairly sharp edges. The next photo is of tracks that had been made two nights before.

 

skunk-tracks-25fe-3b

 

Then, as explained yesterday, a crust had not formed, so all footprints show. But thanks to the sunny, relatively warm conditions the next day, some melting had occurred. Not only was the internal detail of the footprints lost, they had collapsed somewhat and their edges became rounded. These are events that mark the aging of footprints in any substrate. With experience, and keeping recent weather conditions in mind, one can become increasingly skilled at aging footprints. If you cannot see much difference in the photos, don’t be concerned. The differences were easy to see in the tracks themselves.

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Skunk Walkabout and Snow Crust

February 26, 2009 at 12:09 pm (mammals, methods)
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by Carl Strang

 

The cold front that came through over the weekend left us with some drifted snow and cold temperatures, providing for a few more days’ tracking. Monday night the skunks were on their mating season walkabout, and as best I could tell with the patchy snow cover, 4 individuals were active on Mayslake Forest Preserve.

 

skunk-tracks-24fe-1b

 

One, apparently the skunk whose den was featured earlier in the month, covered nearly all the preserve and overlapped trails with three others in different portions of Mayslake’s periphery.

 

skunk-tracks-24fe-4b

 

Though not yet crusted, the snow was not deep in most places, and was wind-packed, so the skunks did not have too much trouble (though as you can see in the next photo, the skunk had to down-shift to a diagonal walk gait where the snow was a little deeper).

 

skunk-tracks-24fe-2b

 

Tuesday was warm and sunny. As mentioned earlier, such days in February typically are followed by cold nights that freeze the partly melted snow surface to form a crust. The heat rises into the open sky, but where there is insulation above even from leafless branches the crust forms more slowly. The skunks were out again, this time on crust, but though they were supported in the open they were breaking through under the canopy.

 

skunk-tracks-25fe-2b-marked

 

In the above photo the skunk was moving under the edge of a willow’s thin cover, so that some steps (circled) broke through while others were supported. This is how you may find where an animal seemed to be drifting or skipping through the air, touching down only at intervals so as to leave isolated footprints.

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Coyote and Crust

February 10, 2009 at 12:10 pm (mammals, methods)
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by Carl Strang

 

When I wrote about the skunk walkabouts  of the mating season, I mentioned that their travel is made easier when a crust forms on the snow. That crust is not an all or none factor, however. The following image is the kind of thing one frequently encounters in February.

 

coyote-on-crust-2b

 

It looks like Super Coyote came in for a landing, cape a-flapping, after saving the day in Chicago. How else to account for the sudden appearance of the animal’s footprints? If we follow the animal we find that it was not able to maintain a smooth and graceful flow over the snow.

 

coyote-on-crust-4b

 

The edges and irregular shapes of its tracks demonstrate the presence of a crust on the surface. The top picture simply reveals where the coyote stepped from an area where the crust could support its weight to an area where it didn’t.

 

There’s a further aspect of this phenomenon I will share later when I get an opportunity to photograph it (which at the moment appears could be next winter).

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Groundhog Day Chapter 2

February 4, 2009 at 11:52 am (mammals)
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by Carl Strang

 

On Groundhog Day I inspected two holes in the ground at Mayslake Forest Preserve. One I had found in November, and had recognized it as a possible woodchuck winter den. It had a single, simple entrance, and was located in a wooded area, in contrast to the typical summer formula of multiple den entrances in the open. On the way to it on February 2 I found another hole with the same combination of qualities.

 

skunk-hole-1b

 

Rabbit runs passed by, and there had been regular comings and goings through the den entrance, but none of the footprints were those of a woodchuck (I prefer that name to “groundhog”). I continued to the hole I had seen in November, and the story was the same.

 

skunk-hole-2b

 

Apart from the ubiquitous rabbit tracks, there were a few distinctive footprints of a mammal that is capable of digging and living in a den with this size of entrance hole.

 

skunk-hole-3-tracks-b

 

This is a striped skunk track. Skunks don’t hibernate the way woodchucks do, but they sleep most of the winter away, at least until February arrives. Then these Pepe le Pews follow their amorous instincts, seeking mates in the month of Valentine’s Day. They can cover a mile or more in their wanderings at this time. I don’t think the skunk or skunks associated with these holes are traveling far, yet. The month is early, and the snow is deep. But one phenomenon of February that will help them in coming days is the formation of a crust on the surface of the snow. The days are getting longer, the sun higher each day. Commonly the surface of the snow melts a little during the day, then that concentrated water freezes in the cold evening to provide a crust that supports a skunk’s weight, making nocturnal cross country travel easy.

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