Slide 1

The physical materials of Florida Week of January 12, 2015

Slide 2

Geology = Geo-, Latin for earth. = Why study it for Florida Ecology?

Slide 3

Geologic Time Florida Broke to the surface as land 35 to 25 million years ago (mya) The bedrock of Florida accumulated for millions of years

Slide 4

Building a Foundation Pangea = a supercontinent (~550mya) and the separation of the continents through continental drift. Floridas limestone bedrock was attached to Africa, in a rift, then pulled apart with the North American continent.

Slide 5

Evidence for Pangea Same rocks and sediments and fossil deposits containing same species discovered on separate continents--- separated by Atlantic Ocean Continents appear to fit together like puzzle pieces

Slide 6

How did Pangea break apart? Theory of Continental Drift, 1950s and 60s. Earth crust made up of many plates The boundaries where ocean plates meet are mid-ocean ridges. New sea floor created here. Other plate boundaries responsible for volcanoes, earthquakes, mountain building

Slide 7

Evidence for Continental Drift Young sea floor (at a ridge) had little time to accumulate sediments Rocks are older and sediment is thicker as you move away from the ridge The rocks of the sea floor show the earths magnetism at the time of their cooling = magnetic anomalies.

Slide 8

Florida as Africa Floridas limestone bedrock was attached to Africa, in a rift, then pulled apart with the North American continent. Florida's Movement

Slide 9

Major Eras in the Natural History of Earth 1) Paleozoic: 550-250 mya Early Animal Life in the Oceans Fishes Diversify Ferns and Early plants begin to colonize land 2) Meozoic: (250 to 65 mya) Reptiles Diversify, Age of Dinosaurs Gymnosperm Plants = most softwoods with seeds in cones diversify 3) Cenozoic :(65 mya to Present) Mammals diversify Flowering plants =Angiosperms, Harwoods Diversify Florida Emerges as a LANDMASS

Slide 10

Cenozoic Era: 65 mya to Present Tertiary Period Paleocene 65-53 mya Eocene53-34 mya Oligocene34-23 mya (Florida Emerges at end here) Miocene23-5 mya Pliocene5-2 mya Quarternary Period Pleistocene Epoch 2mya to 10,000 years ago Holocene (Recent)10,000 years ago to present

Slide 11

Florida as a Landmass Earlier shorelines determined by looking at fossils in marine deposits Florida has changed size in the past 35 million years High sea level/Interglacial warmer climate = island chains Low sea level/Ice ages = twice the present landmass Panhandle emerged ~25 mya Last time peninsula underwater 23 mya

Slide 12

Florida Platform - limestone dominated flat topped structure 3 components of Platform 1) Basement rock-Paleozoic & some Mesozoic 2) Carbonate rock- Mesozoic & Cenozoic era 3) Siliciclastic sediments (mostly quartz sand)- Cenozoic era 1) and partially 2) when still part of Gondwana (Africa)

Slide 13

Slide 14

Paleocene and Miocene 65-34 mya

Slide 15

Many fossils from this time period are found: Sea grass fossils -

Slide 16

Oligocene 34-23 mya Late Oligocene 25-23 mya FL many islands before complete emergence Late Oligocene: Sea level fell ~ 300 ft. Florida Emerges ~ 24 mya. Gulf Trough a narrow inlet or estuary, but filling in Fossils from this time period:

Slide 17

Oligocene 34-23 mya Insects, bats, birds, tortoise Land Mammals (Beaver, deer, rodent, rabbit, anteater, goat, horse, pig) like creatures Opposum Saber-toothed cats

Slide 18

Oligocene 34-23 mya Read and record about Oligocene

Slide 19

Miocene 23-5 mya Gulf Trough filled in Parts of FL repeatedly submerged and exposed Freshwater communities emerging Diverse Animals:

Slide 20

Miocene 23-5 mya Read and record about Miocene

Slide 21

Pliocene 5-2mya Inter-glacial Period, Warm Climate High Sea Level North American continent is dry FL has enough water resources to support Mammal Diversity on semi-arid savannahs and subtropical forests

Slide 22

Pliocene Megafauna Horse Camelid Glyptodont Sloth Mammoth Mastodon Giraffoid Rhinoceroid Long nosed Peccaries

Slide 23

Megalonyx jeffersoni Giant ground sloths 8-10 feet, up to 800 lbs Vegetarian, Foraged on trees.

Slide 24

Mammuthus- Wooly Mammoth Mammut- American Mastodon

Slide 25

Pleistocene 2mya to 10,000 ybp Many of these same animals went extinct in the late Pleistocene. Another ice age occurred, Colder climate Low sea level A landbridge between N and S. America forms allowing for long isolated species to travel North and South. The Great American Biotic Interchange

Slide 26

The Great American Biotic Interchange During Late Pliocene/Early Pleistocene From South America From North America Opossum Armadillo Flying Squirrel Vampire Bats Lots of Frogs Hummingbirds Raccoon Llama Coral Snakes Many Pit Vipers Jaguar

Slide 27

Formation of the Gulf Stream Remember: Ice Age, Low Sea Level, Central America Appearing. Blocked Pacific from the Atlantic Diverted Ocean Currents Gulf Stream created! Altered Climate Warm air and water moving to poles, cooled to make precipitation, creating much more snow and ice. Ice caps grew and repeated Ice Ages.

Slide 28

Coral Reef Formation around Florida Gulf Stream also took away nutrients from the warm waters, making ideal conditions for coral reefs to become established. Evolution of Staghorn and Elkhorn Coral Species

Slide 29

Pleistocene continues The Bering land bridge was also exposed during these global ice ages, allowing Asian species to migrate to North America. Long-horned Bison

Slide 30

Holocene Period ~20,000 years ago to Present Periods of warming and cooling continue on a smaller scale Humans arrive to N. America via Bering Land Bridge Most mammal megafauna extinct, due to:

Slide 31

Slide 32

Southeastern U.S Coastal Plain Florida a part of this region. Area of sediments that spreads from the southern Appalachian Mtns. Piedmont to the coasts Piedmont = a rocky skirt that surrounds mountains

Slide 33

Florida: 3 layers of sediments Sediments = loose materials deposited on the land or at the bottoms of water bodies 1) Fragments of rocks from land 2) Materials formed beneath the sea 3) Organic matter

Slide 34

Floridas Bedrock Bottom layer: Marine sediments Build-up of ancient marine sediments Originate from salts, dead organisms with shells that settle out of ocean waters Floridas major ones: Limestone & Dolomite Calcium carbonate and Magnesium carbonates

Slide 35

Middle Layer: Clastic Sediments Loose Clastic sediments Fragments of rock Mostly Quartz (Silicon Dioxide SiO 2 ) and Feldspar (Aluminum Silicates AlSi # O # ) From erosion of Appalachian Mtns. In form of clay, silt, sand, gravel

Slide 36

Top layer: Soil= particulate material lying a lop land, which is capable of supporting plant life. Mixture of Marine and Clastic Sediments with Organic Materials Vary in Size of sediments Vary in pH from Acidic to Alkaline Vary in ability to retain water Xeric Mesic Hydric 300 types of soils in Florida contribute to the diversity of our ecosystems.

Slide 37

Soil Types Xeric Dry Soils Rain water drains rapidly Contains ample oxygen to meet plants needs Mesic Moist soils that do not become waterlogged Drain well and hold oxygen Hydric Wet soils, may becomes waterlogged Low oxygen concentrations