Tag: locomotion

Seaside

Shorelines of oceans, seas, and large bodies of water around the world are habitats for plants and animals that thrive in challenging conditions.  Tides occur twice each day when water levels rise over a six hour period to cover large areas before receding to leave those same areas open to the air until the next tide starts to move inland again.

Nearshore habitat zones by King County, WA; Littoral Zones by US Government

Shoreline habitat has been classified into zones often known by many different names.  The intertidal zone is the area affected by changing temperature and salinity conditions as water moves in and out with each tide.  The subtidal zone is the lowest and is exposed to air only during extreme spring tides or storms.  The backshore zone is the highest and is exposed to water only during extreme spring tides or storms. 

Starfish & anemone in tidal pool by Jonathan Levy
Sea urchin in tidal pool, Bahia de Banderas by Jim Hoffman, Mar 2017

Many species of animals live in each zone and are adapted to living completely submerged as well as completely uncovered by water for several hours each day.  They handle the change in temperature and salinity with exposure to air or water.  Tidal pools may keep some animals submerged for far longer periods.  Temperature, dissolved oxygen, and salinity change far less for these organisms. 

Bryozoans by John Turnbull, Sep 2021; Sea anemone by Barb Ignatius; Squat lobster, Glathea rostrata, by FWC Fish & Wildlife Research Institute, Aug 2013

Some species can be found in every zone in the ecosystem, but many are anchored to rocks or dug into the bottom.  Species may prefer one zone, but get washed into another zone by wave action.  Many organisms have tough outer surfaces to put up with battering waves and exposure to sun and wind.  All of the occupants are subject to a wide range of predators from those that move on dry land to underwater hunters.  Let’s take a look at a few of the creatures able to live in these ever-changing conditions.

The sea anemone clings to rocks and protects itself by drawing in its tentacles to become a jelly-like blob.  The squat lobster can be found under stones along the shoreline.  Its tail is fan-shaped and facilitates quick escapes when the animal is threatened by pulling the lobster through the water with powerful strokes.  Bryozoans are small filter feeding organisms protected by a hard exoskeleton that the animal can withdraw into for protection.

Dog whelk, Nassarius livescens, by Budak, Dec 2016
Starfish & anemone in tidal pool by Jonathan Levy

A mollusk called a dog whelk is a stealth predator often found on rocky surfaces.  It uses its tongue to drill through the shells of other mollusks, where it squirts a digestive juice into the prey’s shell which kills and partially digests the prey.  The dog whelk then uses its tongue to suck up the soupy meal.  The starfish is another fierce predator.  It wraps its arms around a shellfish and pulls it apart.  Upon opening the shell, the starfish pushes its stomach out of itself and into the prey’s open shell where it empties its digestive juices inside, and similar to the dog whelk, creates a tasty, soupy, meal.

Fan worm by Marta Terry L.
Sea urchin in tidal pool, Bahia de Banderas by Jim Hoffman, Mar 2017

Sea urchins can be found clinging to hard surfaces where they feed on algae and other small, encrusted animals.  Fan worms look like a leathery tube among underwater rocky crags.  Several feathery tentacles fan out into the water to filter out microorganisms flowing by.

Shorelines create a habitat that is constantly changing with tides moving in and out, inconsistent weather conditions, and a large variety of flora and fauna coming and going.  Learn more about this fascinating habitat at the Jurica-Suchy Nature Museum or a natural history museum near you.

Botanical beach at Port Renfrew by James Wheeler; Feather Boa kelp in the surf by Kqedquest, May 2007; Rocky intertidal zone in Oregon by Minustide, May 2015

Squirrels of Illinois

Squirrels are members of the family Rodentia, along with about 40% of all mammals species including mice, rats, voles, beavers, muskrats, guinea pigs, and hamsters.  Rodents are characterized by the two front teeth on both the upper and lower jaws that grow continuously their entire lives. 

Note incisors on left strike against each other to remain sharp; Molars grow in back of mouth

Rodent dental system by V. Leche, professor Stockholm hogskola

Guinea pig incisors by Morbakka, Oct 2024

Squirrels in Illinois can be found in forested areas as well as urban communities.  They all use their long tails for balance when climbing trees or resting on branches as well as running along branches, wires, and tops of walls.  Squirrels are excellent climbers and can jump up to ten feet.  They are able to gnaw and chew through almost any non-metal material.

Grey squirrel jumping to a fence top by AJ, Nov 2017

Most species are solitary dwellers, but not territorial, able to live on their own, but in close association with other squirrels, rarely fighting for territory, food, or mates.  They breed twice each year, once in winter and once in early summer.  Two to four young are typically born and can fend for themselves after about two months.  The young will often stay with the mother until the next litter is born. 

Squirrels use tree cavities for raising young and for protection from predators, but most of the time they live in nests built of twigs and leaves high up in a tree.  Nests are normally located near readily available water.  They eat a variety of foods including nuts, berries, acorns, fruit, buds, fungi, seeds, and insects. 

Fox squirrel by Corey Seeman, Jan 2023
Fox squirrel by Corey Seeman, Jan 2020

The fox squirrel, Sciurus niger, is the largest species in Illinois at about 22″ in length and weighing up to two pounds.  Their fur is reddish-brown, with lighter shades on ears, bellies, and tail edges.  They are common in urban areas, but are often found where there are no gray squirrels.  Fox squirrels are most active in the early morning and late evening and are excellent swimmers.

Grey squirrel by Zoblinski,
Getty Images
Leucistic (white) grey squirrel
by Pete Weiler, Pexels
Melinistic (black) grey squirrel
by Tom GV, Getty Images

The Eastern gray squirrel, Sciurus carolinensis, is slightly smaller at about 18″ long and weighs about a pound.  They have short, gray fur, but are often subject to genetic variations that result in different colored fur.  Common variants in Illinois include melanistic or black squirrels, leucistic or white squirrels, and albino squirrels.  Eastern gray squirrels are abundant in urban areas and large forested tracks.  However, there are very few forests left in Illinois to support these animals.

Red squirrel by Christopher Defalco, Pexels

Red squirrels, Tamiasciurus hudsonicus, are small, about a foot long, weighing about a half pound.  They have reddish-brown backs with white bellies and a dark orange stripe down their back in summertime. Red squirrels are found only in the northeast quarter of the state in large forested areas.  They are diurnal, active in early morning and late evening.

Southern flying squirrel by EEI_Tony, Getty Images

The Southern flying squirrel, Glaucomys volans, is the smallest species at about nine inches, weighing only two ounces.  They have gray-red-brown backs with white bellies and are nocturnal, making them difficult to observe.  Flying squirrels have large eyes to see better at night and a long, flattened tail that is used as a rudder when airborne.  A flap of skin runs between the front and back legs on either side of their body and is stretched taut when their legs are spread, providing the ability to jump from a high place and glide down to a lower place.  Unlike other squirrel species, flying squirrels share a communal nest during most of the year.

Northern flying squirrel by Dopeyden, Getty Images______While this is not the species found in Illinois, flight patterns are very similar…

Squirrels play an important part in forest and urban tree regeneration.  They bury acorns and other nuts in warmer months for winter food stores, but usually bury many more than they actually consume.  The remainder are left to germinate, resulting in many new trees each year.  Squirrels are fun to observe and can provide enjoyment and an opportunity to learn about wildlife behaviors.  Come down to the Jurica-Suchy Nature Museum or a nature center near you to learn more about these amazing animals.

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).

Ostrich

The ostrich, the largest and heaviest bird, is one of the handful of birds that cannot fly.  They live in arid and semi-arid habitats in Africa, as well as in a small population of once captive birds that were released into the wilds of Australia.  Several sub-species of the common ostrich, Struthio camelus can be found across most of Africa, while the Somali ostrich, Struthio molybdophanes, is only found in the far east around the Horn of Africa. 

Common ostrich, Struthio cameus, Tanzania by Patrick Gijsbers, Getty Images Signature; Female Somali ostrich, Struthio molybdophanes, in Kenya by Ninara, Dec 2013; Male Somali ostrich, Struthio molybdophanes, in Kenya by Christiaan Kooyman, Jan 2003

Ostrich males, called roosters, are predominantly black and can grow to 9′ and 180 pounds, while the slightly smaller females, called hens, have grayish-brown feathers and top out at about 6′ and 240 pounds.  They live 30-40 years in the wild.  Ostrich eyes, at almost 2″ in diameter, are the largest eyes of any land animal.  Their species, camelus, refers to their long necks, large eyelashes, long legs, and their ability to go without water for extended periods.

Ostrich portrait by Tatiana Maksimova

Birds that can fly have many strong flight muscles attached to their sternum, which is shaped like a keel, an elongated structure which is narrow at the top and flares out at the bottom.  However, the sternum of the ostrich is flattened and their wings are quite small.  They do have powerful legs that allow them to sprint over 40mph and run long distances at an average speed of 31mph.  Their long legs can cover 10-16 feet in a single stride.  They only have two toes with one having a long claw that can dig into the ground for extra traction.

Notice the flattened sternum on the lower right of the ostrich compared to a flying bird below with a much larger bone.

Above: Flying bird shows large keel for flight muscles by LeeLiyi, Jun 2006

Left: Ostrich skeleton, Museum of Veterinary Anatomy, FMVZ USP Wagner Souza e Silva, Dec, 2015

Ostriches live in small family groups called herds.  An average herd is about a dozen birds, led by one dominant male and one dominant female, called pack leaders.  When males are ready to breed, they make a booming sound using an air sac in their throats that can be heard over long distances.  When a female approaches, the male will puff out his chest, bow to the female, and do a dance that includes much tail shaking.  This is repeated several times until the female indicates whether or not she will mate.

Ostrich eggs in shallow sandy depression, Namibia, by Th Trede, Getty Images

A dominant male digs a shallow nest 9 to 10 feet wide and mates with several females.  Each mating results in 7-10 eggs laid together in the one nest.  Ostrich eggs are the largest of any egg in the world weighing about 3 pounds, equal to 2 dozen chicken eggs.  One male and one female will take turns incubating about 20 of the eggs, while the remaining eggs are ejected from the nest.  Babies hatch in six weeks and are the size of a chicken when born, but they will grow about a foot a month, reaching adult size in six months.

Ostrich toes & claws by Mirko Vuckovic, Getty Images

Ostriches are omnivores mainly eating roots, seeds, and leaves, but will also eat insects, rodents, and snakes.  They lack teeth; and as with many birds, they ingest small pebbles to help grind their food in the stomach.  They are most vulnerable when eating or protecting their nests, and predators include lions, cheetahs, hyenas, and jackals.  When threatened, an ostrich will not bury its heads in the sand.  The bird may lie down on the ground with its head and neck stretched out to present a lower profile.  They may run away, but if that is not possible, especially when protecting a nest, they will stand their ground.  Their legs and sharp claws are powerful enough to deliver a kick capable of killing an adult lion.  Many predators will not attack an adult ostrich, but their eggs are a delicacy for predators, vultures and other opportunists.

Many farms raise these birds, harvesting feathers and leather for clothing, plus meat and eggs for food.  Although they are not considered endangered, ostriches are still threatened by habitat loss and poaching.  At the Jurica-Suchy Nature Museum you can view an adult ostrich, nest and eggs, plus see our new display on the skeletal structure of birds including our adult ostrich skeleton.

Dinosaurs At The Museum

Dinosaurs roamed North America millions of years ago, and while they are no longer part of the wildlife, we are able to see, study, and learn from them at the Jurica-Suchy Nature Museum (JSNM).  Bones, skulls, teeth, and stomach contents unearthed at various sites are housed in numerous worldwide institutions.

Triceratops at JSNM by DonArnold, Oct 2023

Triceratops was a common visitor to areas of western North America in the late Cretaceous period, from 68 to 66 million years ago.  The name is Greek meaning “three-horned face.”  The animal’s distinctive skull has two long horns located above the brow line of each eye, and one shorter horn off the tip of the nose.  The brow horns, situated high on the head, may have exceeded three feet in length on the largest animals.  A frill, or bony structure surrounding the back of the head, makes the head seem larger than the skull alone.  In Triceratops, the frill could exceed seven feet from side to side.

Triceratops were large animals standing 10 feet tall with a length, from nose to tail, of about 30 feet.  Their teeth were long and intimidating, but these animals were actually vegetarians.  The teeth were used to shear through fibrous plant material that was difficult to cut and chew.  The horns were very strong.  They were used for defense against predators and when dueling for territory with other Triceratops individuals.

Tyrannosaurus rex half skull at JSNM by DonArnold, Oct 2023

Tyrannosaurus rex, Greek for “king of the tyrant lizards,” is another species from the western United States.  These animals moved swiftly on two huge rear legs.  The body weight was balanced over these legs by a long, heavy tail and a massive skull.  A full grown adult was estimated to be 13 feet tall, 41 feet in length, and weighed about 10 tons.

The skull cast at the Jurica-Suchy Nature Museum has several openings, thought to reduce the mass of the bony structure.  It is very wide at the back, tapering to a narrow nose in front.  The eyes are situated to provide excellent binocular vision, allowing the animal to accurately judge size and distance while running at a good pace.  This was helpful for trapping prey and avoiding attackers.

Artistic rendering of Edmontosaurus by DariuszSankowski, Pixabay
Edmontosaurus femur at JSNM by DonArnold, Oct 2023

Several other fossils found in North America are on display at the museum.  One is a femur from an Edmontosaurus, a genus of hadrosaurid or duck-billed dinosaur that lived alongside Triceratops in the western U.S.  This dinosaur was a plant eater that could move on either two feet or all four feet.  It is one of the best-studied species in the world due to the large numbers of bones that have been found.  The skull held several hundred teeth, although only a few were in use at any given time.  The rest were ready replacements for teeth that broke or wore down from the abrasive plant material in its diet.

images clockwise: Diplomystus analis; Diplomystus dentatus; Icthyosaur Stenopterygius Quadriscisius; Knightia alta; Mioplosus; Notogonius Oscuius; Perca obtusa; Phareodus testis; Priscacara liops; Pterosaur Phyllurus Ramphrhynicus; all images by DonArnold, Oct 2023, JSNM

Other fossils available to view at the Jurica-Suchy Nature Museum include several fish species from the Cretaceous period that can be seen in the gallery above.  Come on out to the museum to see these fascinating specimens and learn more, or take a trip to visit a natural history museum near you.

Puffins

Puffins are part of the Alcidae family of seabirds along with murres, guillemots, auklets, murrelets, and 25 recently extinct species.  All members of the family can fly and are excellent divers and swimmers.  Three species are found in the North Pacific Ocean including the tufted puffin, Fratercula cirrhata, horned puffin, Fratercula corniculata, and rhinoceros auklet, cerorhinca monocerata.  The Atlantic puffin, Fratercula arctica, is the only species found in the North Atlantic Ocean.

Images clockwise: Atlantic puffin, Fratercula arctica, portrait by stockomotion, Getty Images Signature; Horned puffin, Fratercula corniculata, showing horns over eye by webguzs, Getty Images; Tufted puffin, Fratercula cirrhata, on the water by Bruce Block, Getty Images Signature; Rhinoceros auklet, Cerorhinca monocerata, by nikkigensert, Getty Images

The rhinoceros auklet was thought to have been misidentified when it was first discovered and named. However, DNA testing has shown that all four puffin species have a common auklet ancestor.  Puffin species have short, stocky wings and tails, with darker gray-to-black plumage on top of their heads and backs and lighter whitish-to-brown plumage on their faces and underparts.  Their bills change color during breeding seasons to display several stripes of red, orange, yellow, and black.

Tufted puffin, Fratercula cirrhata, breeding coloration by MrDaz, Getty Images Signature

Short wings require the birds to beat them quite fast to fly, about 400 beats a minute, but they achieve speeds of 45 to 55 mph in flight.  Short wings are used as powerful flippers underwater along with feet used as rudders.  Puffins can dive to 200 feet or more catching a dozen or more small fish and invertebrates as they swim through the water.  A uniquely designed hinge on their bill allows the top and bottom bill to meet at several different angles so the bird can add more fish without losing its grip on any that are already caught.

Images clockwise: Horned puffin, Fratercula corniculata, with fish catch in Alaska by Gerald Corsi, Getty Images; Atlantic puffin, Fratercula arctica, with catch by Daniel Jara, Getty Images; Rhinoceros auklet, Cerorhinca monocerata, with seven fish Andrew Reding, Jul 2010

Puffins spend winters at sea, far from land, floating on the surface or pursuing prey.  Breeding season occurs in late spring, and most adult birds come together, forming large colonies containing breeding and non-breeding individuals.  Non-breeding birds spend hours each day exhibiting a behavior called wheeling flight – flying figure eights over the cliffs where the colony is located.  After finding a mate, puffins form long-term pair bonds.  After breeding, pairs may split up when out at sea, but often return the next breeding season to find the same mate and nesting site.  Puffins breed in large colonies on coastal cliffs of offshore islands.  Only one egg is laid and both parents incubate the egg and feed the chick.  Chicks fledge at night, and juveniles spend the first five years out at sea before returning to the breeding colonies.

Horned puffin, Fratercula corniculata, nesting on Latrabjarg Cape, Vestfirdir, Iceland by Nikolay Tsuguliev, Getty Images
Atlantic puffin roost by Shankar S., May 2016

Puffins are not considered endangered, but are starting to encounter trends affecting the continuity of their successful breeding.  Warming waters in the oceans are reducing populations of fish that breed and live in cold water areas, that are the favorite prey of the auk family.  Threats on the mainland of Iceland, historically one of the largest breeding colonies, include being hunted by mink introduced in the 1930s, so most colonies are now located on offshore islands.  Hunting for feathers, eggs, and meat has been sustainable on island ranges for hundreds of years.   However, hunting on the American mainland during the late 1800s and early 1900s eradicated the population at one point.  In the last 50 years, about 50,000 birds have returned to protected areas in Maine.  Their biggest natural predator is the great black-backed gull which dive-bombs and picks off birds near shore during breeding periods.

Tufted puffin, Fratercula cirrhata, spreading its wings by TiannaChantal, Getty Images

Puffins have an average lifespan of over thirty years, spending most of their lives out at sea.  Reproduction rates are low with only one chick born each year to a pair of puffins, but a breeding pair may produce twenty chicks in their lifetimes and threats from natural predators are small.  Puffins are favorite species in many zoos and some aquariums.  Learn more by visiting a local institution or take a virtual tour from a live webcam at: https://explore.org/livecams/puffins/puffin-loafing-ledge-cam.

The Ocean Deep

Seventy percent of the Earth’s surface is under the ocean, and only a small portion is in shallow water along continental shelf areas.  The ocean is divided into five zones; the sunlight zone, above 650 feet; the twilight zone, extending to 3300 feet; the midnight zone, down to 13,000 feet; the abyssal zone, down to 21,300 feet; and the hadal zone, extending to the bottom of the ocean.  Below 3,000 feet, no light penetrates from the surface; the water temperatures are freezing; and oxygen levels are very low.  The pressure exerted on any surface at sea level is 14.7 pounds per square inch (psi), and humans can withstand three to four times this amount, or 45 psi to 60 psi.  At 3,000 feet deep, the pressure is 1,345 psi.

Ocean zone chart by DonArnold, 2023
Delta submersible by Robert Schwemmer, CINMS, NOAA, Oct 2010

Pressure keeps sea water from becoming solid ice, even when it is at freezing temperatures.  It also makes exploring the ocean difficult, requiring special submersible vehicles.  Everything moves more slowly under pressure, and a submersible can take an explorer deep into the ocean given enough time and oxygen.  Deep sea creatures can survive because the structure of their bodies is lean and contain no air spaces.  Let’s take a look at a few of the wondrous creatures that live in these habitats.

Humpback anglerfish by August Brauer in Public Domain

In the darkness of deep areas, many species find food and mates by touch.  Others may use bioluminescent communication – the ability to create light from a chemical reaction between luciferin and oxygen within an organism’s body.  Lights show up as spots of various colors on different parts of the body and may be used for attracting a mate, confusing a predator, or attracting prey.  Lanternfish have several spots located on their heads, undersides, and tails.  Female anglerfish and dragonfish have a shaft that protrudes from their head out in front of their mouths with a glowing tip attracting prey within striking distance.  Gulper eel use the lighted tip of their tail as a lure to attract a meal.

Tripod fish by NOAA Okeanos Explorer Program, Public domain, 2010
Fangtooth fish by Sandra Raredon-Smithsonian Institution, Public domain

Tripod fish have two pelvic fins and a tail fin that are elongated and can be filled with fluid to stiffen them, allowing the fish to stand on the ocean bottom while conserving energy.  Two long, wavy pectoral fins act as  arms to detect prey floating or swimming by and push the prey toward their mouths.  Fangtooth fish is another species that can detect vibration and nearby movement.  This species is only six inches in length, but have the largest teeth in proportion to their body size of any fish in the ocean.  The long lower fangs fit into pouches in the roof of their mouths so their teeth do not pierce their brain cavity.

Dragonfish teeth array by UC San Diego Jacobs School of Engineering, May 2019

The dragonfish, another small fish about six inches long, has a frightening array of teeth located on its jaws and tongue.  Their teeth are transparent and their bodies are black, making them impossible to see even in depths where there may be some light.  The jaws are loosely hinged, allowing the fish to open its mouth wider than normally hinged jaws would allow.  Prey swimming nearby may not notice the wide opening, nor be able to detect the transparent teeth, making the dragonfish a top predator of invertebrates, squid, and shrimp.  In addition, when biting, they inject a highly toxic poison to paralyze and kill their prey.  This toxin can be dangerous to humans getting bitten or attempting to eat this species.

Giant spider crab by Michael Coghlan, Jan 2014; Gulper eel by Claf Hong, Mar 2005; Lanternfish, Myctophum punctatum1 by Emma Kissling

Some fish practice diel vertical migration, a pattern of movement where a species feeds near the surface at night and moves back into deeper waters to rest during the day.  Lanternfish come up to feed on zooplankton and fangtooth fish feed on squid in shallow waters.  Some species, including anglerfish and gulper eels, have elastic-like skin for their mouths and stomachs.  Mouths can be opened extremely wide to swallow prey larger then themselves.  The food is contained in a similarly elastic stomach which shrinks slowly as digestion progresses.  Several different species of spider crabs roam the ocean depths scavenging for meat or plant material that falls to the bottom.

Deep-sea animals are seldom seen, but are not immune from climate change and human impacts.  Scientists continue to study changes in deep-sea food webs caused by overfishing, ocean acidification, and expanding low-oxygen zones.  Learn more about the habitat and species of these areas at the Jurica-Suchy Nature Museum at Benedictine University or your local nature museum or aquarium.

A Big, Cool One

Elephants are the largest land mammals and they live in a variety of habitats in tropical and subtropical regions.  Their native habitat is often savanna, grassland or forest although they can also be found in desert, swamp, and highlands.  These areas get twelve hours of sunlight each day, with warm, daily temperatures averaging from the lower 70s to above 100˚F for animals living in the desert.  Heat and gravity are two natural factors that affect all large animals, and elephants have some unique methods and body design to compensate for both.

Walking in Kruger National Park by Simone Eman, simoneemanphotos

Elephants have a massive skeleton with solid bones in their feet, legs, hips, and ribs that provide excellent support for all of their weight.  Lots of muscles, both large and small, allow easy movement while still protecting their vital organs.  But not all of the bones are solid.  The skull is honeycombed throughout, so it is light enough that the neck can support the head and allow for many small and precise movements of  the trunk, the ears, and the tusks.  The brain is small for an animal of this size, but elephants are quick learners, have an excellent memory, and are one of the smartest animals.

Elephant’s foot by sboofek, Getty Images
Elephants foot tread by skynavin, Getty Images

While small animals, such as ants, can hang on to a vertical surface, elephants require a solid set of legs to stand and walk on.  They actually stand on the tips of their toes, located along the front edge of the foot.  The center and back of the foot is one large pad behind and under the toes that cushions each step and helps to carry their weight.  The large, round flat of the foot spreads the weight evenly over a larger area, and their soles have treads to provide traction on slippery or uneven surfaces.

Elephant ears by Harvey Sapir, Pexels

Heat from the sun, and from the exertion of the muscles performing under the tremendous weight of the body, must be dissipated efficiently.  This task is handled by the elephant’s ears, which are very large and very thin.  Hundreds of blood vessels run through each ear close to the skin to radiate heat away from the body.  The blood, now cooled, can be circulated throughout the body.  Skin over the rest of the body is thicker, but there is little to no fat underneath, nor is there any fur or hair covering the outside to trap heat.  The skin also has many wrinkles creating much more surface area than smooth skin, allowing more heat to be lost to cooler air and water.

Dirt shower by kikatani, Pixabay
Celery anyone…by eugen_z, Getty Images

An elephant’s trunk is a nose-arm-hand all wrapped into one.  They can pick up large and heavy objects as well as being able to manipulate the sensitive tip to grab tiny and delicate objects.  To help control the heat, they often will suck in a trunkful of water and using the end of the trunk like a shower head, spray all of the water across their body to wet down and cool off.  Similarly, they can snuffle up a load of dust to spray across dry or wet skin to create a coating to help keep away biting insects and provide protection from the sun.

Elephants are built to move easily and efficiently in their environment, and they have several methods and adaptations to deal with their size and the heat.  Next week we will discover more about family life and the lands they live in.

The Elephant Trunk

An elephant’s trunk is an amazing body part. It is a 300 pound nose-arm-hand about seven feet long. It contains 50,000 muscles, but no bones or cartilage, making it strong and flexible. A vast array of nerves controls it. Elephants use their trunks for a variety of tasks including:
• smelling an approaching rainstorm from 150 miles away
• locating food by smell including grass, branches, and fruit
• lifting objects up to 400 pounds
• reaching food 20 feet off the ground
• using it as a snorkel when swimming underwater
• using the top and bottom lip to pick up a single seed off the ground
• sucking up to 2.5 gallons of water and squirting it into their mouths
• sucking up water to squirt over their backs to cool off
• curling it around large quantities of food to place in their mouths
• controlling the shape and size of the nostril to modulate sounds
• snorting dirt to spray over their backs
• picking up and throwing objects in defense
• entwining with another’s trunk for a friendly hug

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.

Bark beetle, by Katja Schultz, Jul 2017
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.

Hidden Hollow by DonArnold, Nov 2016

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.