Part 4
Control of Atmospheric O2
Organic carbon is buried, which is rich in electrons (reduced), moving more electrons out of the atmosphere and therefore increases the O2 (oxidized). Atmospheric CO2 and O2 behave in opposite ways.
Three Primary Formations of Mammoth Cave
1. The St. Louis 2. The St. Genevieve 3. The Girkin
Causes of Breakdown
1. Water no longer fills the cave removing the buoyant force, allowing material to fall 2. Solution of joints frees a block causing it to fall 3. Sagging of the limestone beds 4. Wedging effect of mineral growing in fractures
Red Granite and Baraboo Interval
1.7 Ga, post-penokean. Includes rhyolite, baxter hollow granite (beneath Baraboo q
Penokean
1.8 Ga intruded migmatized Gneiss by Penokean tonality dike with xenoliths
Biwabik-Gunflint Iron Formation
1.9 Ga, source of first Precambrian Microfossils
Sinkholes in MCNP
Form near surface as dissolution of underlying rocks causes sediment to fall into excavated holes formed in the calcareous rock
Solution Sinkholes
Form when water dissolves the surface rock, creating a depression.
Guadalupe Escarpment
Formed by an exhumed barrier reef that developed around the perimeter of the Delaware Basin during the Permian. The reef formed the Capitan Limestone and contains many reef creature fossils.
Precambrian Microfossils
Found in Biwabik-Gunflint Iron formation, composed of phototrophs (an oxygenic and oxygenic)
Gowganda Glacial Diamictite
From the Huronian Glaciation in Southern Ontario, 2.3 Ga.
Phreatic Zone
Fully saturated region at the water table
Moraine Damming
Glacial till from re-advance of glaciers creates dam
Oxidation and Glaciation
Great rises in O2 in the atmosphere are inducing factor of glaciations
Stages of Water Table in Carlsbad
Greatest exchange of sulfides occur at and above the water table but diminishes within the phreatic zone.
Sulfuric Acid Cave Formation Equation
H2SO4 (sulfuric acid) + CaCO3 (limestone) + 2H2O = [CaSO4x2H2O (gypsum)] + CO2 + H2O
Granitoid Gneisses
Highly metamorphosed rock in Voyageurs NP. Were derived from high-silica rocks, possibly volcanic origin an sandstones
Kettles Lakes
Ice sheet leaves behind ice chunks in the moraine and outwash, leaving depressions behind when the ice chunks melts. Resulting lakes are usually small, often having steep sides.
Glacial Rebound
Ice sheet puts pressure and wight on crust, pushing it down, after ice melts crust raises back up
Stalactites
Icicle like structures that form hanging from the ceiling of the cave and grow slowly is water drips over them. Slow drips
Ground Water at the Water Table
In direct contact with the atmosphere, which allows for greater exchange of CO2
Green River
Incised to lower and lower elevations with various pauses for extended periods of time during the Pleistocene Epic, which allowed cave networks to develop associated with water table height at specific times.
Sudbury Meteorite Impact
Occurred at the end of the Gunflint Iron Formation deposition. Created quenched melt blebs from impact on the rocks, 1850 Ma
Why are small particles easier to move?
Small particles have cohesion and hide in the viscous sublayer
Suspended Load
Small particles like silt and clay that are held in the water column by turbulence
Nuna
Supercontinent in part assembled by the Penokean Orogeny.
1.2%
Surface and freshwater make up _____ of Earth's water
Natural Entrance
Surface eroded and met the surface of the cavern
Water Table
Surface that separates a zone where the ground is fully saturated with water, from the region where the pore spaces in rocks are not fully saturated with water.
Surface water in karst topography
Surface water doesn't form streams usually flows right into sinkholes
Alluvium
Unconsolidated sediments, which have been eroded, reshaped by water in some form
River Equilibrium
Unique slope at which water discharge can balance sediment transport
Speleothems
Various intricately shaped formations that grow in caves by the accumulation of dripstone
Superior Province
Voyageurs and Isle Royal are in this portion of the Canadian Shield. This region is a large Precambrian sub region with many bedrock exposures
Fastest, slowest
Water at the top moves the _____________, while water at the bottom moves the _________________.
Top Water
Water at the top rides on the water below it and therefore moves faster
Why are all landscape depressions not lakes?
Water drains, in some places water drains more quickly than it enters a basin
Anatomy of a Meandering Stream
1. Thalweg 2. Point bar 3. Cut bank
How Lakes Gain Water
1. Precipitation 2. River input 3. groundwater discharge
How Lakes Lose Water
1. River outflow 2. Groundwater recharge 3. Evaporation
Ice-Scour Lakes
- Most northern lakes on bedrock - made when glacier scrapes up the rock
Types of Speleothems
1. Stalactites 2. Stalagmites 3. Flowstones 4. Columns 5. Etc
Reef Formations
1. Submerged resistant mound or ridge formed by accumulation of plant and animal skeletons 2. Form in shallow, warm water. 3. Sediments are mainly composed of calcium carbonate (lime).
Types of Lakes
1. Tectonic a. Graben b. Earthquake 2. Glacial a. Ice-scour b. Moraine damming c. Kettle d. Mountain cirque 3. Volcanic a. Crater 4. Others a. Solution b. Riverine c. Reservoirs and beaver dams
Features of Carlsbad
1. 107 miles of cave mapped, 3rd longest in U.S. 2. Cave temperature is 56F year round which is the mean surface temperature 3. Most caves inactive as water below depth of caves 4. Climate is semiarid so karst features missing (not considered karst topography) 5. Unique geometry of large interconnected rooms with irregular patterns and profiles 6. Contains deepest cave in US at 1593 feet 7. Most caves formed in phreatic zone
Types of Bedrock Erosion Process
1. Abrasion 2. Plucking
Types of Rivers
1. Alluvial Rivers 2. Bedrock Rivers
Morton Gneiss
1. An Archean-age migmatitic gneiss found in the Minnesota River Valley 2. Oldest rock unit in the United states, 3.4-3.5 Ga 3. "Rainbow Gneiss" 4. Type locality is in Morton, Minnesota
History of Voyageurs
1. Archean Basement Complex - Highly metamorphosed rocks dated to 2600 MA (pre-Konoran) 2. Kenyan Orogeny and End of Archean - Emplaced large granitic batholiths in the superior Providence and brought about intense folding and uplift causing mountain ranges and metamorphism of older rocks 3. Dikes were intruded (2100 MA) 4. Prolonged erosion throughout Paleozoic, Mesozoic, and Cenozoic. End of Precambrian brought an end to the deformation in Canadian Shield. Only roots of mountains remained. 5. Pleistocene glaciations
Capitan Reef
1. Boarded by an apron of reef talus that merges with fine grained limestones deposited in deeper waters 2. Is largely what makes up caves in Carlsbad
Channel Patterns
1. Braided river 2. Transitional 3. Meandering river
Cave Formation
1. CO2 comes from atmosphere or gasses stored in soil as biological material decomposes 2. Groundwater becomes acidic after interacting with CO2 3. Interaction of acidic groundwater with calcareous rock, like limestone or dolomite, and dissolves rock 4. Dissolution leaves behind empty pockets that develop into caves
Cave Formation in Carlsbad
1. Caves formed by upward movement of sulfuric acid 2. Sulfuric acid likely formed by oxidation of H2S gas derived from regional petroleum fields 3. Most caves have up-down dissolution of weak carbonic acid - Carlsbad is unusual
Stream Order
1. Characterizes the stream basin. 2. Order referee to the number of 1st order segments upstream from a given reach 3. High order streams are more important
Types of Entrainment
1. Dissolved load 2. Suspended load 3. Bed load
Gypsum Deposits in Carlsbad
1. Extensive gypsum deposited in cave, some are 20 ft thick 2. Most of gypsum precipitate on cave floor comes from sulfate rich brine that once filled cave 3. Mineral called Endellite found, which forms in a sulfate rich environment. 4. These features suggest that sulfuric acid played role in cave formation
Dissolution Equation
1. H20 + CO2 ->H2CO3 (carbonic acid, can disassociate) <-> H+ + HCO3- 2. CaCO3 (calcareous rock) <-> Ca2+ + CO3-2 (carbonate) 3. H20 + CO2 + CaCO3 -> Ca2+ +2HCO3-
Flow Types
1. Laminar 2. Turbulent
Penokean Orogeny
1. Mountain building event 1.8 - 1.9 Ga. Evidence in Baraboo Quartzite and Cambrian/Ordovician Carbonates 2. When most of basement of WI made 3. Covered by Paleozoic rocks in southern Wisconsin 4. Penokean Volcanic Massive Sulfide (VMS) deposits, xenolith-bearing Penokean granite, deformed early Penokean granitoid
When Lake Inputs are Greater Than Outputs
1. Open basin lakes, excess water can drain 2. Closed basin lakes, water level rises
Huronian Glaciation
2.3 Ga
Great Oxidation Event
2.3-2.5 Ga, the change of Earth's atmosphere from reducing to oxidizing, brought about by oxygen-generating photosynthesis. Stemmed from organic carbon burial on new continental shelves from break up of supercontinent Kenorland. Sets stage for eukaryotes to evolve.
Typical Superior/Marshfield Gneiss
2.7 Ga, found in Cambrian and Ordovician Sandstones
Aquifer
A body of permeable rock that can contain or transmit groundwater
Migmatite
A high grade metamorphic rock formed when gneiss is heated high enough so that it begins to partially melt, creating layers, or lenses, of new igneous rock that mix with layers of the relict gneiss.
Canadian Shield
A huge, rocky region that curves around Hudson Bay like a giant horseshoe. The Shield covers half the land area of Canada, and some of the upper midwest Contains Archean rocks. Divisible into structural provinces based on rock ages which have a distinctive style of formation
Darcy's Law
A mathematical equation stating that a volume of water, passing through a specified area of material at a given time, depends on the material's permeability and hydraulic gradient.
Craton
A part of the Earth's crust that's been stable for 1500 million years, meaning its felt no orogenic events.
Graben Lakes
A rift or depression is created by moving plates (faulting) and fills with water. These make very deep lakes are some of the oldest lakes.
Laurentide Ice Sheet Movement
Advanced into Minnesota and retreated about 10,000 years ago. Scraped away trees, rocks, and soils eroding down to the bedrock leaving barren land behind and eroded many basins
Gneiss
An intermediate to high grade metamorphic rock that has ribbon like layers, formed at higher levels of temperature and pressure. It was made from other rocks that have been squeezed and heated a long time in the Earth.
Kenyan Orogeny
Archean rocks of Voyageurs associated with this orogenic event, which is the earliest datable orogeny. These rocks date 2600 MA or older
Speleothem Formation
As groundwater in the vadose zone enters the cavern, CO2 is outgassed, causing carbonate to be precipitated out of the groundwater.
Gypsum Flowers
Form as water evaporates and calcium sulfate dehydrate is deposited in the cave
Stalagmites
Form at bottom of cave when water drips quickly off cave ceiling. Fast drips
Pillow Basalts
Basaltic lava that solidifies in an underwater environment
Second Rise in O2
Between Proterozoic and Phanerozoic (.6-.7 Ga, or 750 Ma), set stage for animals (multicellular life). Came from break up of Rodinia, which greatly expanded continental margins, mostly at low latitudes.
Higher, lower
Bigger particles are deposited when the water is moving faster at _______________ elevations, smaller particles deposited as water slows at ________________ elevations
Dripstone
Calcite deposited as dripping water evaporates
Water Table
Caves tend to form near the ________________________
Weathering in MCNP
Chemical content of water indicates cave is dissolving away at 1 mm per year.
Dolines
Close depression in the ground surface, particularly common in areas of limestone or gypsum karst terrain (karst sinkholes)
Minnesota River Valley
Contains oldest rocks in the US, the Morton Gneiss
Laramide Orogeny
Created local uplift that formed, in part, the Guadalupe Mountains, which was accompanied by faulting and southeastward tilting.
Flowstone
Created when water enters the cave and flows as a layer or sheet over a surface and forms a broad and flat deposit.
Abrasion
Debris transported by the stream scrapes against the walls and banks of the channel smoothing it. Causes grooves and river potholes
Delaware Basin
Deep basin in the center of Carlsbad. Carbonate apron between reef and basin, reefs were deposited around the rim.
Thalweg
Deepest part of the river
Point bar
Deposit that forms by accretion on the inner side of river bend
Mammoth Cave Rocks
Deposited in a shallow sea in the Mississipian, on the rim of the Illinois basin, which caused a slight dip of the rocks to the northwest.
Patterns of Deposition and Erosion in Meandering Rivers
Deposition on the inside of the curve and erosion on the outside of the curve
Collapse Sinkholes
Develop by the collapse of material into an underground cavern
Stream Discharge Equation
Discharge = Mean velocity x cross-sectional area
Drainage Basin
Divides separate each basin from its neighbor. Geology usually controls the divide' as they are comprised of material more resistant to eroding.
Bottom Water
Drags on river bed, which slows it
Groundwater Flow
Driven by gravity acting on elevation differences in water height in the vadose zone and both elevation differences and water pressure gradients in the phreatic zone.
Base Level
Elevation of river at its end
Glacial Features in Voyageurs
Erratics, striations, and glacial polish
Groundwater Flow in MCNP
Flow in region moves subsurface to the Green River
Turbulent Flow
Flow that is deep and fast, packets of water are bouncing into each other
Deposition
Flux in is greater than flux in
Balanced
Flux out equals flux in
Erosion
Flux out is greater than flux in
Vertical shafts in caves
Form as groundwater flows down vertical features
Closed Basin Lakes
Lakes with no outflows
Open Basin Lakes
Lakes with outflows
The Big Room
Largest underground cave chamber in North America, one of the largest in the world. It covers 14 acres and floor to ceiling height is 370 feet.
Greenstone Belts
Less highly metamorphosed rock in Voyageurs. Have a dark green color from presence of chlorite, epidote, actinolite, which are produced from metamorphism. Also consists of schistose, meany highly foliated, and sheared lavas that have undergone extensive metamorphism. Some places contain pillow basalts.
Thunder Bay
Location of Sudbury impact tsunami deposit.
Mammoth Cave
Long, winding nearly horizontal tunnels. Subsurface water largely controlled by local geologic structure. Cave has many different levels because as the Green River erode downward, water diverts to progressively lower passages. Caves form mainly in the vadose zone
Jointing in Capitan Limestone
Main control of cave orientations in Carlsbad
Breakdown
Material that fall from roof or walls on the floor of the cave
Dissolved load
Material, especially ions from chemical weathering, that are carried in solution by a stream
Glacial Lakes
Most common type of lakes
Oldest Rocks in Wisconsin
Near town of Thorp, zircons from 3.2 Ga
Vadose Zone
Partially to unsaturated zone at the water table
Spongework
Pores in limestone dissolve open. Irregularly sculpted pattern formed by differential dissolution of acid-rich water
Back Reef Limestones of the Delaware Basin
Prominently bedded and contain a large amount of silt eroded from nearby land areas/
Arid Climate in Carlsbad
Reduced speleothem growth in caves
Plucking
Removal of rocks through hydraulic action or collisions with large clasts which can cause crack growth. Size of the blocks is generally determined by joint or bedding spacing in the rocks.
Bedrock River
River in which the bed and banks are made of bedrock.
Alluvial Rivers
River which the bed and banks are made up of mobile sediment (alluvium)
Drag
River's sides have _________ from river bank walls
Water Flow
Rivers flow from higher elevations to lower elevations, the greater the slope the faster the water flows
Karst Topography
Rock that are 90% more calcareous fully develop into karst topography, which is associated with cave formation. Characterized by underground drainage systems with sinkholes and caves.
Rocks in Voyageurs National Park
Rocks in the park and surrounding region are Precambrian, mostly Archean, in age.
Boudin
Sausage link like formation in the rock, like a piece of taffy being pulled.
Bed Load
Sediment transported close to or along the channel bottom by rolling, bouncing, or sliding
Aggradation
The increase in land elevation due to the deposition of sediment
Cut Bank
The outside bank of a stream, which is continually undergoing erosion
North American Craton
The stable core of the continent is the North American Craton. Much of it was also the core of an earlier supercontinent, Laurentia. The part of the craton where the basement rock is exposed is called the Canadian Shield. Surrounding this is a stable platform where the basement is covered by sediment; and surrounding that are a series of orogenic zones.
What spot in the river is moving the fastest?
The top and center of the stream
Laminar Flow
Thins films of water, smooth flow. Water doesn't bounce into neighboring water paths
Cave pearls
Water drips into small basin with sand particles, particles become coated with calcium carbonate. If they are agitated enough from dripping water, they'll refrain from cementing to floor and create cave pearls, 1 inch in diameter.
Joints, Bedding
Water flows down the paths of least resistance, like _____________ or ________________
Cave Popcorn
Water seeps out of pores in the rock, nodules are precipitated. They are most abundant where capillary water is drawn from the moist rock
Columns
When stalagmites and stalactites connect
Slows, bigger
When water velocity _______, ___________ particles are deposited first
Great Lakes
Where glaciers scoured deep basins from pre-existing valleys with relatively soft rocks
Mesozoic
______________ uplift led to some dissolution and erosion, but not the primary cause
Entrainment
__________________ is easier for sand sized particles
