Necklace Shells by Dr. Joe Richardson, Guest Blogger

Last summer on my family's vacation to coastal Georgia and South Carolina, we spent a few nights on Tybee Island, off the coast of Savannah, Georgia.  In the post about the whales and dolphins of South Carolina, I mentioned the Tybee Beach Ecology Tour that we went on under the guidance of Dr. Joe Richardson.  Here is a bit about Dr. Joe: 

Dr. Joe Richardson (Ph.D. Marine Sciences) conducts TybeeBeach Ecology Trips (http://www.ceasurf.com/Pages/BeachTrips.aspx) for families and groups year-round at Tybee Island.  He is a retired marine science professor who continues to conduct research throughout coastal Georgia through his consulting business Coastal Environmental Analysis.  He can be reached at joe@ceasurf.com.

The Ecology Tour was definitely a ton of fun, and my family and I learned a ton, I definitely recommend checking it out if you are out that way!  Now, Dr. Joe has agreed to do a guest post for the blog!  He has some very interesting information to share with us, so let's give him a warm welcome!  

Shell beds such as this can be found all along Tybee’s beach.  Photo Credit: Joe Richardson

Tybee Island has a large variety of species and colors of shells that wash up on its beach.  Because of its position on the east coast, Tybee has northern and southern marine plants and animals, both along the shore and offshore, that produce a large diversity or variety of what we are likely to find (see “Tybee Diversity").  Along with the diversity of shell species, we also see a wide variety of shell colors that are often due to the past environment where a particular shell has been buried or spent time.  For example, our most common bivalve (2-shelled) shells, the Ark shells, are often found in colors ranging from dark red, to orange, to gold, to white.  During my Tybee Beach Ecology Trips, people often remark about how they are surprised to see Tybee’s vast array of colors and types of shells.

It’s not hard to find Ark shells with perfectly round, small holes at Tybee.  Photo Credit: Joe Richardson

While alive, bivalve mollusks, such as this Ark and Surf Clam, have two shells and the soft-bodied animal that made the shells lives inside these protective shells.  Photo Credit: Joe Richardson

You don’t have to pick up many of our bivalve shells to find one with a perfectly round, small hole in it – just right for making a necklace.  You will see these holes in our Arks, Surf Clams, Cross-hatched Lucines and others.  It might surprise you to find out, though, that the animal that lived inside and made its shell did not make that hole.  To find out where that hole came from, we need to look at another mollusk, a gastropod or snail, that we also often find at the beach.

Moon Snail shells are sometimes called “Shark Eye shells” because they look like an eyeball when viewed from their bottom.  Photo Credit: Joe Richardson

If you know where and how to look, it’s not too difficult to find Moon Snails on the beach at Tybee.  Their round, light-brown shells often wash up along the high tide line; but you can sometimes find a live one burying through the sand in the mid and low tide, wet sandy parts of the beach. 

This is probably a Moon Snail burying its way through the sand.  It is probably an inch or two deep into the wet sand.  Photo Credit: Joe Richardson

Here are a couple of Moon Snails in our beach ecology trip “touch tank” as they are extended and gliding around in our tank of water.  Photo Credit: Joe Richardson

If you find a live one, it will probably quickly withdraw back into its shell.  But if you lay it back onto the wet sand or put it into some seawater, and be patient, it might re-emerge and start gliding across the surface.  You will be amazed at how large its body is, outside of its shell, and wonder how-in-the-world it can pack all that body back into that small shell!

While beach combing at Tybee, you might also come across the sand-colored, collar-shaped egg case of a Moon Snail.  Photo Credit: Joe Richardson

These Moon Snails are predators, and they like to eat many of those bivalves such as the Arks and Surf Clams that live buried down in the sand.  To accomplish this, the Moon Snail glides through the sand, by producing and using lots of slime to help it move through the sand, until it encounters one of its clam-like prey, which quickly closes up for protection inside its two shells.  The Moon Snail is not able to pry the two shells apart, but it wants to eat the soft-bodied animal that is inside.  Inside the snail’s mouth is a tongue-like structure called a radula.  The radula is like a small file or rasp that is hard and covered with tiny sharp teeth-like structures.  A Moon Snail can extend this radula out of its mouth and drill a perfectly round, small hole through the bivalve’s shell.  The hole is too small for the large snail to crawl through, but it can extend its radula down through the hole to the inside of the bivalve, where its soft body is.  The snail will then slash its radula around in there, shredding and chopping the bivalve’s body into “soup.”  The snail can then just suck the contents out, and it leaves behind a couple of empty shells – one of which has the hole in it!  So the hole wasn’t originally a part of the bivalve’s shell; but instead that hole was pretty much the last thing that happened to that animal.

This Moon Snail sort of got what was coming to it!  They can be cannibalistic.  Photo Credit: Joe Richardson

Sometimes it’s difficult to find an empty Moon Snail shell at Tybee because the Hermit Crabs like to use them for their own protection.  Photo Credit: Joe Richardson

So while you’re beachcombing at Tybee, and you find that perfect size, shape and color shell with a hole in it for making your necklace; you can thank the bivalve animal that made the shell.  But you need to also thank some predatory snail, like our Moon Snails, for drilling the hole!

Thanks so much for doing this, Dr. Joe, it was really interesting!  I think we would all like to thank you for doing this post for us, and we all would love to hear from you in the future!  Also, make sure to check out the page for Dr. Joe's Eco Tours HERE, and like his Facebook page too, right HERE!  He always posts really cool pictures!  Thanks again! - Zack Neher

Savannah on Dwellable

Bison: Up Close and Personal!

At one point on our Grand Teton/Yellowstone/Sun Valley driving trip in 2006, we went on a ranger-guided nature walk in Yellowstone.  As we were walking along the trail, the ranger told us a lot about the local wildlife, and mentioned at least a few times the dangers of confronting a bison.  The ranger led us into a small clearing surrounded by tree for a short break, when suddenly, a large bull bison wandered by right behind the ranger along the trail. 

A bison, right up close and personal on the path!  Photo Credit: Julie Neher

A bison, right up close and personal on the path!  Photo Credit: Julie Neher

Everyone froze, staring at the bison as it started blankly right back at us.  Fortunately, it was uninterested in us, and wandered on along the path, without increasing the "Bison Casualty Count" for that year!

Skunk in the Showers!

On our California driving trip in 2010, my family and I stayed a few nights in a cute little campsite on the coast, sort of near Monterey in Santa Cruz.  We had heard that you could see whales there sometimes, but unfortunately we saw none.  However, on one fine morning, my mother and sister did see a skunk!  It was just kind of chilling over in the outdoor showers, and looked deceptively cuddly!  Here are some pictures!

The skunk in the shower!  Photo Credit: Julie Neher

The skunk in the shower!  Photo Credit: Julie Neher

The skunk in the shower!  Photo Credit: Julie Neher

The skunk in the shower!  Photo Credit: Julie Neher

On the same trip, our family was camping in Big Sur, and my dad and I were outside of our tent reading, when I noticed movement out of the corner of my eye.  I looked, and there was a skunk, so close to me that I could have easily reached out to touch it!  Fortunately I didn't startle it or anything, as it moved off without spraying us.  The next morning (I remember this, but strangely enough, no one else in my family does), we also saw a mother skunk cross our dirt driveway with three or four baby skunks in tow!

Making Yourself Taller

In life, things often seem as if they are out of reach.  Sometimes, this is true, and you need a ladder or something to help you.  In the wild, however, animals don't have access to conventional ladders.  So what do they do to get there?  Some animals become adapted to climbing, like those that live in forests (arboreal animals).  Other animals don't want to sacrifice a ground-dwelling life style for an arboreal one.  These animals must somehow make themselves taller.

Lots of different animals make themselves taller, by many different means.  Some animals simply grow bigger, like the giraffe and the long-necked dinosaurs (sauropods).  With their long necks, these animals can reach vegetation that is a great deal higher than most animals can reach.  Other animals put special things on their feet to make themselves taller called shoes.  Some of these shoes, known to scientists as "high-heels," are apparently designed to put the girl at optimal kissing height (a fact that I learned about from a friend of mine just a few days ago).  And finally, some animals simply stand up.

Like the gerenuk.  This interesting African antelope is one of my favorites!  As you can see in the picture below, the gerenuk, in order to access vegetation on a higher plane than most animals can, will rear up so it is supported solely by its back two legs, and feed from there.  Many paleontologists hypothesize that the sauropods could also do something similar, as supported by the fact that Apatosaurus babies would run solely on their back feet to keep up with the rest of the herd.

Gerenuk standing on their back legs to access higher vegetation at the Animal Kingdom park at Walt Disney World in Florida.  Photo Credit: Julie Neher

Red Foxes in Breckenridge!

For the past few years, every summer my family and I would go up to visit our good friends the Beckleys, who would stay for about a month in a rented house in Breckenridge, Colorado.  One of the times, I forget exactly which one, a red fox was hovering around the house, eager for us to feed it.  Apparently, the people in the neighborhood were feeding the fox, so it had become quite tame.  We made a lot of noise to make it go away (in the hopes that it would become afraid of people, as wild animals should be), but not before we got some pretty great pictures.  Check them out!

A picture of the red fox outside of the house.  Photo Credit: Julie Neher

A picture of the red fox outside of the house.  Photo Credit: Julie Neher

A picture of the red fox outside of the house.  Photo Credit: Julie Neher

A picture of the red fox outside of the house.  Photo Credit: Julie Neher

A picture of the red fox outside of the house.  Photo Credit: Julie Neher

Baldy Mountain on Dwellable

There Be Dragons

I think when it comes to reptiles, easily the most interesting are the monitor lizards and their relatives.  The monitor lizards are scientifically known as the members of the genus Varanus within the family Varanidae (which, in turn, is a family within the superfamily Varanoidea), and are widely considered to be the lizards with the most intelligence.  The largest extant (still living, opposite of extinct) lizard today, the Komodo dragon, is a member of this family, as is Megalania (often referred to as Varanus prisca), the largest known lizard ever to have existed.  Let's learn a bit more about these interesting reptiles!

According to a paper by American biologist Eric Pianka (link included in References section), the monitor lizards as a group are thought to have evolved on the continent of Laurasia (see map below) earlier than 65 million years ago (MYA), before even the dinosaurs died out.  After evolving in Laurasia, they then dispersed into the continents of Africa and Australia.  As of the writing of his paper, 44 species of monitor lizard are around today, with around 27 of these native to Australia, where the highest species density of monitor lizards are.  In the tropics of northern Australia, up to ten species of Varanus can reside together!

There are numerous families related to the monitor lizards within the superfamily Varanoidea, both living and dead, such as the earless monitor lizard, the sole member of the family Lanthanotidae.  The other extant family within the superfamily Varanoidea is the family Helodermatidae, which includes the beaded lizards and the Gila monster from southwestern North America, Mexico, and Guatemala.  However, in my opinion, it is the extinct family Mosasauridae that is the most interesting of the monitor lizard relatives.

The mosasaurs were the dominant marine predators throughout the Late Cretaceous Period, and were wiped out by the traumatic K/T Extinction Event, just like the dinosaurs.  Some of these mosasaurs could grow to enormous lengths, such as Tylosaurus, the apex predator of the Western Interior Seaway of North America during the Cretaceous Period.  Tylosaurus could grow to an enormous 50 or so feet long, and fossil discoveries of the stomach of this creature indicate that it fed on pretty much everything that swam in the sea: the remains of sharks, the flightless diving bird Hesperornis, fish, plesiosaurs, and even smaller mosasaurs have been found in the stomachs of Tylosaurus fossils!

The mosasaurs share something else in common with the monitor lizards: they both have a third eye on top of their head.  It's not the same as the eyes we have on our head, or even the eyes that the mosasaurs and monitor lizards have on their heads, either. A good comparison is if you close your eyes and look at a light source, and then move your hand back and forth in front of your face.  You can see something moving , right?  Just a shadow, but you can still tell that something is there.  That's kind of what the third eye of the monitor lizards and the mosasaurs is like.  If you are a baby Tylosaurus swimming in the sea and you see something pass overhead, you are going to swim to safety as fast as you possibly can: there are a lot of things in this sea that would barely noticed they swallowed you.  However, if you are a 50-foot long adult Tylosaurus and you see a shadow swim above your head, you are almost certainly going to go investigate.  Whatever it is, it's probably edible!

Another interesting thing that the mosasaurs most likely shared with the monitor lizards is their forked tongue, similar to that of snakes.  But what purpose does this forked tongue served?  Well, when the animal sticks the tongue out of its mouth, it is smelling the air.  As it draws the tongue back in, scent particles are pulled in as well.  The fork-tongued creature is able to determine which side of the forked-tongue has more scent particles on it.  If the animal was attempting to locate a dead animal or something like that, and its head was facing directly towards where the dead animal scent particles were floating from, the reptile would know that it was on the right track.  If, however, the fork-tonguer was facing due north, and the dead animal was due west of its position, when the tongue is drawn into the mouth, its owner can tell that there are more dead animal scent particles on the left side of the tongue, as opposed to the right, and now knows which way it must go to find its meal.  Pretty neat!

Can't get enough of the monitor lizards?  Well, below I have links to five videos featuring some monitor lizards (one spiny-tailed monitor, four Komodo dragon)!  Enjoy!

Spiny-Tailed Monitor Attempted Feeding

Komodo Dragon Moving Around at the Cheyenne Mountain Zoo

Komodo Dragon Relaxin' to the Maxin'

Up Close and Personal With The Komodo Dragon at the Cheyenney Mountain Zoo

Komodo Dragon Close Up at the Denver Zoo


And now, for some pictures of various monitor lizards I have taken over the years! First off is Herkemer, the resident Dumeril's Monitor Lizard at the Morrison Natural History Museum!

Next, we have a few photos that I took of one of the Komodo dragons at the Denver Zoo.

After that, we have a few Komodo dragon pics that I took at the Cheyenne Mountain Zoo!

Finally, we have a trio of pictures that I took of some tree monitors at the Cheyenne Mountain Zoo, as well!

And now, last but certainly not least, we have some pictures of some baby Komodo dragons at the Phoenix Zoo in Arizona!  They are pretty darn cute!
This was the birthday post of Gookhyun Jeong, happy birthday big guy!  And remember, if you have a birthday coming up, just email me the date at cuyvaldar123946@gmail.com with the date and your favorite animal, and I will do my best to get a post in! 

References:

http://www.conservation.org/FMG/Articles/Pages/gila_monsters_human_health_mexico.aspx

http://uts.cc.utexas.edu/~varanus/varanus.html

Top Ten Most Interesting Arboreal Mammals (Part 2)

Welcome to Part 2 of the Top Ten Most Interesting Arboreal Mammals in honor of the birthday of Charlie Bowers!  FYI, for those of you who don't know, arboreal means an animal that lives in the trees!  For Part 1 of this duology, click HERE.

5.  Fossa - The fossa has one of the most interesting and amusing scientific names: Cryptoprocta ferox.  Any guesses as to what that means?  If you guessed "Fierce Hidden-Anus," then you are spot-on!  Native to Madagascar (and, in fact, the largest carnivore of the "Lost Continent"), this cat-like creature is not actually a cat.  Instead, it is closely related to the civets and the genets, like the binturong.  To see a video of how incredibly acrobatic the fossa is, click HERE. 

4.  Cats - We talk about cats a LOT on this blog, and we are going to talk about them again today!  Quite simply put, cats are quite possibly the most acrobatic group of carnivores in the world.  Many of them are acrobatic on the ground (like the caracal, serval, and cheetah), while others are acrobatic in the trees.  Some of these are larger cats, like the leopard and the jaguar.  Others are smaller cats, like the ocelot and the margay, the latter of which can rotate its ankles around 180 degrees in order to climb down the trunks of trees head first!

3.  Ringtail/Cacomistle -  A member of the raccoon family Procyonidae like their relatives the coatis and olingos, the ringtail and the cacomistle are pretty obscure animals.  The ringtail actually lives as far north as southern Oregon, and throughout the southwestern United States, as well as in Mexico.  The range of the cacomistle actually overlaps that of the ringtail in Mexico, but the cacomistle also lives as far south as Panama.  They are both omnivorous, and insects, fruits, arthropods, and small vertebrates are important components of their diets.  They are also both listed as "Least Concern" by the IUCN.

2.  Tamandua -  Like all anteaters, the tree anteaters, such as the tamandua (pictured above) have very strong, large, and powerful claws, made to access the nests of ants.  These claws also happen to be perfect for climbing.  It's tail, like many other arboreal creatures, has evolved to be prehensile, which is an enormous benefit when climbing in the trees.  This fifth limb, if you will, is especially important when the tamandua has to tear into the bark of trees to expose the tasty insect treats within, helping to keep the tamandua from falling from the trees.  The tail is actually powerful enough to support the weight of the entire animal!  You don't often think of anteaters climbing around in the trees, which is why I think that the tree anteaters are excellent candidates for our number two spot on the list.  To see a video of the tamandua in action, albeit in Russian or something (it doesn't really matter, just watch without audio or something, but make sure to watch from 1:00 onwards) click HERE.

1.  Tree Kangaroos - Sometimes, nothing is quite as funny as a kangaroo.  But imagine a smallish kangaroo hopping around in the trees, a hundred feet or more above the ground.  Believe it or not, such a thing exists!  Having evolved from the rock-wallabies (who are in turn thought to have evolved from the pademelons), the tree kangaroos are pretty awesome creatures!  Reportedly pretty clumsy in the trees, it is hypothesized that, if there were any significant predators in the area (like many of the carnivores that we have been talking about in these two posts), the tree kangaroo would have either have had to evolve, or they would have been hunted into extinction by these predators.  Since it is so clumsy, and it spends so much of its time between 70 and 100 feet above the rainforest floor, the tree kangaroo has adapted to large and significant falls from high in the sky.  They can fall around 60 or 70 feet with no physical harm!  Don't believe me?  Once you click the video link HERE to learn more, go ahead to about 5:10 if you want the skinny.  You will be able to enjoy a tree kangaroo falling!  And don't worry, it won't be hurt: just check out the video!