Field Guide to Animal Tracks and Scat of California. Lawrence Mark ElbrochЧитать онлайн книгу.
Size
California Ground Squirrel (Spermophilus beecheyi)
Western Spotted Skunk (Spilogale gracilis)
Western Gray Squirrel (Sciurus griseus)
PLATE 5 Sooted Tracks : Actual Size
Ringtail (Bassariscus astutus)
Striped Skunk (Mephitis mephitis)
Toad (Bufo spp.)
All feet and body
PLATE 6 Sooted Tracks : Actual Size
Snowshoe Hare (Lepus americanus)
PLATE 7 Sooted Tracks : Actual Size
Domestic Cat (Felis catus)
American Marten (female) (Martes americana)
PLATE 8 Sooted Tracks : Actual Size
Gray Fox (Urocyon cinereoargenteus)
American Marten (male) (Martes americana)
North American Porcupine (Erethizon dorsatum)
PLATE 9 Sooted Tracks : Actual Size
Fisher (Martes pennanti)
Virginia Opossum (Didelphis virginiana)
PLATE 10 Sooted Tracks : Actual Size
Northern Raccoon (Procyon lotor)
PLATE 11 Sooted Tracks : 75% of Actual Size
Bobcat (Lynx rufus)
Yellow-bellied Marmot (Marmota flaviventris)
PLATE 12 Sooted Tracks : 75% of Actual Size
Cougar (female) (Puma concolor)
MAMMAL TRACKS AND TRACK PATTERNS
Mark Elbroch
To better visualize and understand tracks on the ground, we must study whole animals, starting with their feet. Feet make footprints, and footprints are the building blocks of track patterns. Here we begin with the morphology of mammal feet, then move on to study the morphology of mammal tracks, then look at how mammals move, and finally delve into the science and interpretation of mammalian track patterns on the ground.
Foot Morphology
Bones
Thousands of years ago, the first mammals had five toes on each foot (Hildebrand and Goslow 2001). Over great lengths of time, through evolution and specialization, feet and legs evolved and became more varied. The foot structure of extant shrews is believed to reflect that of the first mammals.
The skeletal structure of the forefeet consists of the carpal bones, metacarpal bones, and phalanges, while that of the hind feet consists of the tarsal bones, metatarsal bones, and phalanges. The original mammals were plantigrade, meaning that they were supported by all the bones of their feet while they were moving, whereas today's mammals have diversified in structure and function. In general, modern plantigrade animals have relatively short limbs and prefer to walk, because the construction of their feet is not well adapted for jumping or running for long distances. In contrast, long-distance runners have long limbs, and the area of their feet that is in contact with the ground is as small as possible. To obtain a firm grip on the ground, the foot must exert the greatest possible pressure to dig into it. Because pressure is equal to force per unit area, the contact area must be as small as possible to ensure the greatest possible pressure. For example, in deer the second and fifth toes are reduced to form dewclaws, and their weight is supported on the third and fourth toes; thus, they have long legs and small feet relative to their size.
Bears and humans are examples of extant plantigrade species. Digitigrade species, such as felids (cat family) and canids (dog family), support themselves on the distal ends, or heads, of the metacarpal bones and the phalanges of the forefeet, and the distal ends of the metatarsal and phalanges of the hind feet. Even-toed unguligrade species such as deer and bison, and odd-toed unguligrade mammals such as horses, walk on the distal phalanges of the third and fourth toes, the equivalent of our toenails.
In animals with five well-developed toes (or digits), they are numbered from 1 to 5 beginning with the innermost toe, that which corresponds with the human thumb (see the accompanying illustrations of woodrat and river otter feet on pages 33 and 34). The third toe in most mammals is the longest and largest, followed in order of size by the fourth, second, fifth, and first. In some mammals the first toe is tiny and only makes a weak impression, or none at all. If all five toes are showing and the shortest toe is on the left side of the footprint, the track was made by a right foot. If only four toes are showing and the shortest toe is on the left side of the track, then it was made by a left foot.
Big-eared woodrat feet.
With evolution, however, some species developed structures and gaits that required different foot structures. Bang and Dahlstrom (1972) note that many species, such as deer, began to evolve longer bone structures to aid in running, while at the same time losing toe 1 altogether to become more streamlined.
Pads
Tough horny layers of skin cover elastic masses of connective tissue that protect bones and other foot structures from rough ground. In most mammals these pads are naked (rabbits are an exception), and the spaces between these pads are filled with fur (some species have completely naked feet, like Striped Skunks). The thick toe and metacarpal or metatarsal pads that compose the “palms” of each track are covered in sweat glands and deposit scent with each step (see the accompanying illustrations of river otter feet on page 34).