Posts Tagged ‘ocelot’

The Reddick Fossil Site in Marion County, Florida

November 26, 2014

One could almost refer to the Reddick Fossil Site in Florida as Rancho La Brea east.  It’s one of the richest eastern sites in species diversity, but nevertheless falls far short of Rancho La Brea’s treasure chest of fossils.  At least 147 species of vertebrates were recovered from Reddick compared to 231 from Rancho La Brea and the latter also far surpasses the former in quantity. Moreover, Rancho La Brea is still being excavated.  The Reddick Fossil Site was an abandoned limerock quarry excavated during the early 1960’s.  The Pleistocene topography consisted of limesink lakes and caverns with a soil chemistry that helped preserve the bones of many animals.  Owls roosted in the caves during the Pleistocene, and bones from the small mammals and birds they ate were found in their fossil pellets.  The composition of species shows that a wide variety of habitats occurred locally, including woodland, grassland, and wetland.  The fossil remains are thought to date to between ~200,000 BP- ~114,000 BP.  The presence of glyptodont, vampire bat, ocelot, and giant tortoise is evidence of a climate at least as warm as today’s Florida, even though this period of time includes the Illinois Ice Age.  This is the only site in southeastern North America where ocelot fossil remains have been found.  Only 32 of the 147 species are extinct.  Many of the large mammals were probably overhunted by man into extinction, and we know for sure passenger pigeons were.  However, some of the bird extinctions were local species that became extinct during marine high stages of the Sangamonian Interglacial when much of their terrestrial habitat was lost to high sea levels.  The following is the Reddick Fossil Site faunal list from the below referenced work.  * denotes extinct species.  + indicates an extant species no longer native to Florida.  The remarkable thing about this list is how few reptiles have gone extinct.  This suggests little environmental change in this region over the past 200,000 years.  (I’m not including the scientific name for most of these entries.  I feel lazy today and it’s almost a holiday.  Happy Thanksgiving.)

Map of Florida highlighting Marion County

Marion County, location of 1 of the best Pleistocene fossil sites in southeastern North America.

Greater siren

Mud siren

Ambystoma sp. (a type of salamander)

eastern spadefooted toad

oak toad

common toad

narrow-mouthed toad

tree frog sp.

leopard frog

Pseudemys sp. (a type of slider/cooter turtle)

box turtle (Terrepene carolina putnami)–an extinct subspecies but extant species

gopher tortoise

*medium-sized land tortoise–Hesperotestudo incisa

*giant land tortoise–H. crassicutata

soft-shelled turtle

green anole lizard

eastern race runner

5-lined skink

common glass lizard

Florida worm lizard

eastern ring-necked snake

mud snake

yellow-lipped snake

eastern hog-nosed snake

southern hog-nosed snake

rough green snake

black racer

coachwhip snake

indigo snake

king snake

corn snake

rat snake

pine snake

crowned snake

brown snake

garter snake

coral snake

pygmy rattlesnake

Rattle.jpg (68536 bytes)

 

 

 

 

 

 

All of the species of snakes found at the Reddick fossil site were still relatively common when Columbus reached North America

eastern diamondback rattlesnake

alligator

pied-billed grebe

*extinct grebe, a diver in the podiceps genus

mottled duck

pintail duck

shoveler

blue-winged teal

green-winted teal

ring-necked duck

*extinct condor–Gymnogyps amplus

turkey vulture

*extinct vulture–Coragyps occidentalis

Cooper’s hawk

sharp-shinned hawk

red-tailed hawk

red-shouldered hawk

peregrine falcon

sparrow hawk

caracara

quail

*extinct quail–Neotyx pennisubali

turkey

Virginia rail

sora

*extinct rail–Porzana auffenbergi

yellow rail

*extinct rail–Laterallus guti

*extinct coot–Fuliza merm

common crow

fish crow

blue jay

*extinct jay–in protocitta genus

house wren

*extinct wren–Gasthothanus brevs

maryland yellowthroat

cowbird

red-winged blackbird

grackle

eastern meadowlark

rufous-sided towhee

Henslow’s sparrow

Henslow

Henslow’s sparrow.  This species prefers weedy grassland habitat.  Ducks and rails prefer wetlands.  Passenger pigeons and woodpeckers need woodlands.  The composition of birds reflects varied habitats near this locality during the Pleistocene.

killdeer

lesser yellowlegs

common snipe

*passenger pigeon

mourning dove

barn owl

screech owl

burrowing owl

barred owl

yellow-shafted flicker

red-headed woodpecker

eastern kingbird

purple martin

*extinct swallow–Tachycinctus spelodytes

oppossum

*vampire bat–Desmodus stockii

southeastern myotis

red bat

Florida yellow bat

Brazilian free-tailed bat

*Wheatley’s ground sloth–the evolutionary ancestor of Jefferson’s ground sloth

*Harlan’s ground sloth

*Beautiful armadillo

*pampathere–a giant armadillo

*glyptodont

marsh rabbit

cottontail rabbit

southern flying squirrel

undetermined squirrel in scurius genus–probably a gray squirrel

southeastern pocket gopher

rice rat

harvest mouse

old field mouse

cotton mouse

Florida mouse

golden mouse

cotton rat

wood rat

pine vole

round-tailed muskrat

*Florida bog lemming–Synaptomys australis

*dire wolf

+coyote

gray fox

*Florida spectacled bear–Tremarctos floridanus

black bear

raccoon

+hog-nosed skunk

spotted skunk

striped skunk

+jaguar

cougar

+ocelot

aka, the dwarf leopard,

Reddick is the only fossil site in southeastern North America where remains of an ocelot have been found

bobcat

saber-tooth–Smilodon fatalis

mastodon

mammoth

+horse

*tapir

*long-nosed peccary

*flat-headed peccary

*large-headed llama

*stout-legged llama

white-tailed deer

bison

Reference:

Gut, James H.; and Clayton Ray

“The Pleistocene Vertebrate Fauna of Reddick, Florida”

Quarterly Journal of the Florida Academy of Science 1964

 

The Mystery Cat of Pleistocene Georgia

May 9, 2013

Most small species of cats are adept tree climbers, but the margay (Leopardus wiedii) excells. It hunts, copulates, and raises its young in trees, making it as arboreal as a monkey or squirrel.

The margay is about the size of a large house cat.  It is an arboreal species.

The margay is able to climb head first down trees, and its wrists are built much like those of a squirrel’s.  Click on the below link to the youtube video of a margay.  Note how it can hang upside down using just its rear paws.  Note also its athletic ability to leap from tree limb to tree limb.

http://www.youtube.com/watch?v=ef129AsFfMA

The margay is a nocturnal hunter, preying upon birds, birds’ eggs, frogs, lizards, rodents, monkeys, and probably bats.  They also eat fruit.  Like tigers, they use audible mimicry to lure prey.  They’ve been observed imitating the cries of a baby monkey to attract parent monkeys to their doom. (Tigers imitate the mating bugle of elk.)  Not all prey is defenseless, however.  Brazilian squirrels gang together and drive margays away.

Today, the margay ranges throughout Central and South America, but fossil evidence of a margay-like cat has been found from 12 sites in Florida and 2 in Georgia.  Jaw bones of this mystery cat come from Ladds in Bartow County, Georgia and the Isle of Hope site in Chatham County near Savannah–evidence this species occurred throughout the state during the Pleistocene.  The fossils from all the sites where this species has been found likely date from a warm interglacial period.  Some scientists think these fossils represent an extinct species (Leopardus amnicola), while others consider it an extinct, large subspecies of margay (Leopardus wiedii amnicola).  The modern margay requires dense forest habitat, and it’s likely this species or subspecies did too, probably explaining why its fossils are found in deposits dating to interglacial periods.  During interglacials forested habitats expanded.

Marshall Forest 042

Sketch of the jaw bone of a cat found at the Ladds fossil site.  Click to enlarge.  Dr. Clayton Ray thought this specimen was most like the jaw bone of a jaguarundi, but other scientists have concluded it’s from a cat that was more like a margay.  This page is from the below referenced paper authored by Dr. Ray.

Marshall Forest 043

Photo of a jaw bone of a cat found at the Isle of Hope site near Savannah, Georgia. Click to enlarge.  Every measurement of this specimen falls within the size range of both margay and jaguarundi.  This means it can’t be conclusively identified.  It’s slightly smaller than most specimens identified as Leopardus amnicola.  Page from the below referenced study authored by Dr. Hulbert.

The ocelot (Leopardus pardalis) is about the size of a bobcat or maybe a little larger is some cases.  Unlike the margay, it’s primarily a ground dweller, though it can climb trees.  It mostly feeds upon rodents.  Today, ocelots range throughout Central and South America and rarely into south Texas and Arizona.  In the 19th century, they were found in Louisiana and Arkansas, and fossil evidence of this cat has been found from 2 sites in Florida, also probably dating to a warm interglacial.

The ocelot and margay shared a common ancestor.  It’s likely that some individuals of this ancestral species preferred hunting on the ground and their decendents evolved into ocelots, while other individuals preferred hunting in the trees and their decendents evolved into margays.  Males that were good tree climbers were more likely to meet females that were good tree climbers, and they passed on the beneficial genes that gave them their natural ability.

The ocelot can grow to a size as heavy as 40 pounds.  Also used to range into southeastern North America.

The jaguarundi (Puma yagaouroundi) is a 3rd species of small neotropical cat.  It was formerly classified in its own genus by some scientists and lumped in the Leopardus genus by others, but genetic studies suggest it is closely related to the cougar (Puma concolor).  I hypothesize that an isolated population of cougars began specializing in small prey to avoid competition with larger carnivores such as jaguars, saber-tooths, and lions.  This population then evolved into jaguarundis.  Studies show cougars regularly take smaller prey than jaguars, and there isn’t much overlap in their prey selection.  In some locality with scarce prey, competition may have forced the ancestral population to take even smaller prey.  Today, the jaguarundi preys upon birds, rodents, opposums, small species of deer (brocket), reptiles, and insects.  It eats fruit as well.  It ranges throughout Central and South America and rarely south Texas.  100 years ago, some were introduced to Florida, and a small population may still exist there.  Reported sightings continue.

The jaguarundi may have ranged into southeastern North America as well.  It’s also known as the otter cat due to its cylindrical shape.  It’s closely related to the cougar but is about 10% its size.

It’s evident at least 2 species of neotropical cats colonized southeastern North America during warm climatic phases of the Pleistocene.  I hypothesize that they continued to live in the region until approximately 28,000 BP.  Dense forests remained widespread in the region until then.  Between ~28,000 BP-~15,000 BP prairies, desert scrub, and spruce woodlands replaced the kinds of forests margays and ocelots prefer, though it’s possible they persisted near the coast where ocean currents kept the climate from deteriorating.  If it wasn’t for man, I think ocelots and margays would have recolonized the south.  Fossils of margays have been found in Texas, and they date to 4400 BP, showing they were more widespread recently.  However, native Americans coveted their beautiful coats, and I suspect human hunters prevented the re-expansion of their range.

References:

Hulbert, Richard; and Ann Pratt

“New Pleistocene (Rancholabrean) Vertebrate Faunas from Coastal Georgia”

Journal of Vertebrate Zoology 18 (2) June 1998

Ray, Clayton

“Pleistocene Mammals from Ladds, Bartow County, Georgia”

Georgia Academy of Science Bulletin 25 (3) 1967

The Interglacial Invasion of Warm Climate Species into Southeastern North America

January 21, 2012

Humans have been enjoying a relatively stable warm climate phase for roughly 11,000 years now–a period of time known as the Holocene.  We’ve probably been experiencing an interglacial because it’s likely we’re between Ice Ages, although with the extraordinary release of CO2 from industrial activities, there’s no telling when the next Ice Age will occur.  This phase of warm stable climate has allowed agriculture to flourish.  If climate had remained unstable and as cool as it did during the last Ice Age, civilization as we know it may never have come into existence.

The most recent interglacial previous to the present one was the Sangamonian Interglacial which lasted from 132,000 BP-118,000 BP.  Climate during the Sangamonian was even warmer than that of today.  At one point during this interglacial the north polar ice cap completely melted and sea levels were higher than they are now.  Cypress swamps grew as far north as Illinois, alligators swam in rivers flowing through what today is Missouri, and giant tortoises roamed the ridge and valley region of the southern Appalachians.  This wasn’t the warmest era in geological history–it wasn’t even close to as warm as much of the Pliocene, Miocene, Oligocene, etc. ages–but it was unusually warm compared to most of the Pleistocene.  This prolonged warm climate phase allowed many frost sensitive species of vertebrates to colonize much of southeastern North America, at least temporarily.  But because cold phases of climate during the Pleistocene lasted 10 times longer than warm phases, fossils of these tropical and subtropical species are in some cases extremely rare.  There are probably more species than the following pictorial cavalcade illustrates, but these are the ones confirmed by science.

Eremotherium laurillardi, the largest ground sloth to ever live in North America, grew to 18 feet long and weighed up to 3 tons.  Fossils of this species are quite common along Georgia’s coastal fossil sites which mostly date to the Sangamonian and early Wisconsinian.  Cold climate eventually drove them from what is now Georgia, but they persisted in Florida until maybe 30,000 BP when the beginning of the LGM became too cold for them even there.  They did continue to live in South America until 10,000 BP when hunting Indians likely drove them to extinction.  If it wasn’t for man, they may have recolonized the gulf coast of today.  2 species of ground sloths (Jefferson’s and Harlan’s) were able to survive in North America during the Ice Age, but Eremotherium must have been incapable of tolerating frosts.

Evidence that the South American marsh deer (Blastoceras dichotomous) once lived in the southeast comes from 1 mandible found at Saber-tooth Cave in Florida.  It was given the scientific name, Blastoceras extraneous, but was likely the same species populating the present day South American pampas.  Dr. Richard Hulbert expressed doubt in his book, The Fossil Vertebrates of Florida, that this mandible was correctly identified, but that was before he himself indentified the presence of collared peccaries in the Florida Pleistocene–a big surprise.

Collared peccaries were only identified from the Florida Pleistocene within the last few years.  Apparently, they colonized the south during the Sangamonian and probably other interglacials.  2 other species of peccaries–the flat-headed and the long-nosed–did commonly occur in the south during cold stages as well.

1 ocelot specimen from the Florida Pleistocene proves this cat lived in the south.  It seems that this cat should be able to survive in Florida today.  I suspect Indians coveting its spotted coat led to its demise there.

Fossil evidence of a small species of cat resembling the modern day margay comes from Florida and 2 widely separated sites in Georgia–Ladds and the Isle of Hope site.  Scientists are uncertain of the identification–it’s either a margay,  jaguarundi, or a distinct extinct species.  Despite the scientific genus name, Leopardus, it’s not at all closely related to a leopard.  Was it climate or paleo-Indian desire for spotted coats that restricted this species to isolated jungles?

Giant tortoise fossils dating to the Pleistocene were found at Ladds, the northernmost locality, though during the Pliocene, which was mostly warmer than the Pleistocene, they lived as far north as Kansas.  In contradiction to what most scientists think, I suspect giant tortoises were capable of surviving light frosts.  See my reasoning in a blog entry from my April 2011 archives.

In the Sangamonian of Georgia I suspect alligators may have ranged into the Etowah River.  If giant tortoises lived in the area, alligators surely must have been able to live there too.

Many species of South American and Central American birds also extended their range north in Sangamonian times.

Pleistocene Fossil Felid Ratios from the University of Florida Database

January 16, 2012

I followed the same procedure from last week’s study but counted the number of cat fossils in the University of Florida’s Natural History Museum database instead of dog fossils.  I only counted fossils dating from the Rancholabrean Land Mammal Age 300,000 BP-11,000 BP.  The results may be off a little because I was scrolling down while looking at a computer screen.  The results may also be misleading because many specimens may come from just 1 individual.   Nevertheless, I think the data reveals a good estimate of the ratio of species composition during the Pleistocene.

Listed on the University of Florida Museum of Natural History database, I counted 46 jaguar (Panthera onca) specimens, 21 giant panther (Panthera atrox) specimens, 42 saber-tooth (Smilodon fatalis) specimens, 6 scimitar-tooth (Dinobastis serum) specimens, 41 cougar (Puma concolor) specimens, 46 bobcat (Lynx rufus) specimens, 12 river cat (Leopardus amnicola or weidii) specimens and 1 ocelot (Leopardus pardalis) specimen.

The results are similar to those reported by the amateur fossil collectors who post on the fossil forum.  The most significant difference between their reports and database information is abundance of jaguar to saber-tooth abundance.  Amateur fossil collectors claim jaguar fossils are much more common in Florida than saber-tooth, though they do collect the latter and some have found scimitar-tooth specimens as well which are rare in the database.  It may be that the UF database includes a skeleton of a saber-tooth accounting for multiple specimens from 1 individual.

Dire wolves accounted for 64 specimens in my previous study, making them 33% more common, at least in the fossil record than any single species of big cat.  Overall, big cats combined outnumbered dire wolves 156 to 64, making large felines more than twice as common as dire wolves.  Perhaps there was less competition among species of canids, but more among felids.

Pleistocene habitats favorable to various species of big and small cats varied widely.  Mesic oak forests and cypress swamps, which expanded during warm interglacials and interstadials, favored jaguars, river cats, and ocelots.  Jaguars are adabtable enough to live in desertlike brush conditions which were common during cold arid stadials.  Cougars and bobcats thrive in many different types of environments.  The exact environments favored by giant panthers, saber-tooths, and scimitar-tooths is unknown, but it’s likely they were capable of adapting to many different ecotones.

Saber-tooths were evidently one of the most common large carnivores south of the ice sheets in North America.  They were actually no larger than a modern day jaguar.  Saber-tooths never colonized Eurasia, but a distant cousin, the scimitar-tooth had close relatives that did live from the southern tip of Africa to Alaska.  Scimitar-tooths also had longer front legs but these were more slender than those of the saber-tooth.  Their fangs were also smaller and more curved.  In Africa, Asia, and Europe scimitar-tooths became extinct much earlier than saber-tooths did in America.  I suspect they never learned to fear man, explaining their earlier extinction.  I suggest fanged cats didn’t often back down from anything.  Scimitar-tooths probably colonized southeastern North America during stadials when grasslands expanded due to dry climate which in turn caused an increase in the populations of ungulates. 

Giant panthers probably resembled large maneless lions.  True lions did live in Alaska and across Eurasia.  But south of the ice sheets in North America, the common ancestor split into 2 different species–Panthera atrox and Panthera onca.

8 cat 10 Biggest Cats in the History

This image comparing Pleistocene jaguars with modern jaguars may be a slight exaggeration, but jaguars did grow bigger during the Pleistocene because they preyed on larger mammals and had more competition among carnivores.

I’ll write more about the presence of margays and ocelots in Pleistocene Florida in my next blog entry.

Here are some related articles about big cats from my archives.

“Panthera atrox! What Kind of Cat was it?”– https://markgelbart.wordpress.com/2010/07/28/panthera-atrox-what-kind-of-cat-was-it/

“Why did fanged cathttps://markgelbart.wordpress.com/tag/saber-tooth/s have sloping backs and large forelimbs?”–

“Two new studies of saber-tooths.”– https://markgelbart.wordpress.com/2011/07/08/two-new-studies-of-sabertooth-smilodon-fatalis-anatomy/

“Cougars vs. jaguars”–https://markgelbart.wordpress.com/2010/07/08/cougars-vs-jaguars/