Fossils

Question 1

Give the rough dates of;
-Origin of prokaryotic life
-Formation of the Earth
-Big bang

Answer 1

Origin of prokaryotic life (3.5 billion)​
Formation of the Earth (4.57 billion)​
Big bang (13.7 billion)​

Question 2

What are fossils?

Answer 2

*Transformed body parts-shells, bones, teeth​
*Activity (‘trace fossils’)​ -burrows, footprints​
*Preserved remains (‘sub fossils’)- shells, remains in amber​
*Organic chemicals​ any body part​

Question 3

How are fossils formed?​
(By a series unlikely of events) what are they ?​

Answer 3

1. Body survives long enough after death to undergo fossilisation​ this could be difficult as;
   -Soft parts are destroyed quickly
   -Eaten, degraded by microbes​
   -Few fossils of soft bodied organisms ​e.g. worms and plants ​
   -Even hard parts are likely to be destroyed​ e.g Crushed by rocks, wave action, scavengers​
2. Remains must become buried in sediment at the bottom of a water column​.
   -Fossils are only found in sedimentary rocks​ (e.g limestone and sand stone)
3. The chance of fossilisation depends on proximity to sediment​. Chance for fossilisation gets higher in water organisms closer or in the sediment
4. Permineralization ​
   Sediment covered by more layers​
   Compacts into rock – may deform or destroy the fossil​
   Hard minerals leach out of rocks and impregnate the remains​
   Original compounds replaced and leach out​
5. Exposure – The final ‘unlikely event’ ​‘Fossil’ means ‘something dug up’​
   Tectonic processes can move the fossil around ​and re-expose it in a terrestrial area​ which makes it easier to be lost for ever​
   ​Fossils are rare in comparison to the number of organisms that have existed in the 3.5 billion year history of life​.

Question 4

What does the quality of the fossil depend on?

Answer 4

State of body at the start of the process​ and geological factors – pressure, minerals present​

Question 5

What are alternative routes to fossilisation of buried remains​

Answer 5

external or internal mould or marks

Question 6

How do we date fossils?

Answer 6

*Radio-carbon dating​
5730 years after death ½ the C14 → N14​
Can work out date of death by examining the ratio​
Only for fossils up to 40,000 years old
only if sediments has some sort of organic compound
​(absolute dating)
Volcanic ash​
Many sediments contain volcanic ash (‘tephra’)​
Potassium and Argon​
Decay more slowly than C14 – fossils older than ​
100,000 years ​

Paleomagnetic dating​ (older fossils)
Currents in Earth’s core change direction of magnetic field ‘Normal’ / ’Reversed’​
Determines alignment of magnetic particles when rocks form​
Age rocks by comparing the polarity of sediments to cores of rock from sea bed
​(relative dating)

Question 7

What is relative dating?

Answer 7

Compare fossils to fossils of known age from other strata that look similar​

Question 8

Why are fossils important​?
e.g Fossil butterflies, 65 Myr BP nb

Answer 8

Molecular evidence reveals increasing amounts of information about evolution​

Shows how closely extant species are related and how quickly they may have diverged – e.g. ‘molecular clocks’​

Only fossils tell us what extinct species were like​ and how they lived​.
‘Functional morphology’​ ADAPTATIONS​

Question 9

Describe the fossil record​
What is fossil study called?
when did serious analysis of fossils begin?

Answer 9

Study of fossils is called ‘Paleontology’​
Fossils provide a record of the history of life​
Deeper ‘strata’ (layers) equate to greater age of the rocks and any fossils they contain​.
Serious analysis began in the 1960​
Evermore detailed analysis; 2020, 11k species at 0.1my resolution (Fan et al. 2020)​

Question 10

When was the first human around?
When did mammals diversify?

Answer 10

First humans 195-160000 yr bp​
Mammals diversify – 65 Myr bp​

Question 11

How is the geological time scale divided ?

Answer 11

‘Eras’, ‘Periods’ and ‘Epochs’​
Based on rock strata and refined with new dating techniques​
Each stretch of time has a characteristic fossil fauna​
Boundaries reflect sudden changes in fauna​

Question 12

When was the extinction of most dinosaurs​

Answer 12

Cretaceous, 65 – 144 Myr BP​

Question 13

Sinosauropteryx​
How do we know perhaps some dinosaurs had feathers?

Answer 13

Melanosomes – contain the pigment in hair and feathers​

Question 14

What are extant saurischian dinosaurs​​

Answer 14

lizard-hipped dinosaurs
birds evolved from lizard hipped dinosaurs not bird-hipped dinosaurs

Question 15

Jurassic, 144 – 206 Myr BP​

Answer 15

‘Quarry dinosaurs’​
Very large herbivores​
4 species​
Up to 26m ​
Est. weight 50 – 113 tonnes​

Question 16

Triassic, 206 – 251 Myr BP​

Answer 16

Before dinosaurs evolved
Ichthyosaur (‘fish-lizard’)​
Evolved from terrestrial reptiles that returned to the sea ​
Predated earliest dinosaurs by 20 Myr​
Extinct in the cretaceous, just before the last dinosaurs​
Cetaceans were not the first group to return to the sea!​

Question 17

Permian 251-290 Myr BP​

Answer 17

Terrestrial tetrapods, arthropods plants and fungi​
such as;
Fusulinids – protists with a hard shell​
Ammonites – molluscs with a hard shell​

also dimitrodon a syapsid which was a mammal-like reptile
mammal like in the sense it had a mammal shaped skull and they perhaps could have some sort of regulation of its body temperature.

Question 18

Carboniferous 290-354 Myr BP​

Answer 18

Coal deposits due to appearance of bark bearing trees​
No lignin digesting bacteria ​
Atmospheric oxygen 80% higher than today ​
Allowed Gigantism to evolve on land and in the sea​

-Giants insects Dragonflies, cockroaches and grasshoppers​
e.g. Meganeura spp. ​

Question 19

Devonian 354 - 417 Myr BP​

Answer 19

Lungfish ​
Tetrapod colonisation of land​
First fossil insects​
First angiosperms​

Question 20

Rhynie Chert - Plants​

Answer 20

It showed fungi associating with roots
Fungal fillaments (‘hyphae’) growing in the plant tissue​

Question 21

Rhynie Chert - Animals​

Answer 21

Trigonotarbid – an arachnid (but not a spider)​
Oldest known terrestrial arthropods ​

Question 22

Describe gigantism in Devonian sea scorpions​ and some reasons

Answer 22

Jaekelopterus rhenaniae​
Early Devonian​
Largest arthropod discovered so far​
Chelicera 46 cm long​
Different reasons for gigantism – high resources, competition or courtship​

Question 23

Silurian 417 - 443 Myr BP​

Answer 23

Some type of moss

Question 24

Ordovician 443-490 Myr BP​

Answer 24

Nautiloids​
Shell producing cephalopods​
Straight or curled shells​
Divided into chambers​
Extant species​

Question 25

Cambrian ‘explosion’ 490-543 Myr BP​

Answer 25

Trilobites​
Heavily armoured marine arthropods​
Earliest example of an animal using weapons​
Rapid evolution​
15000+ species recognised​
9 Orders​
Most animal classes first appear in the Cambrian ​e.g;
The Burgess shale​ (Opabinia) (Wiwaxia corrugata​)
The ‘ abnormal shrimp’​ (Anomalocaris​)
Hallucigenia (Large scales)

Question 26

Summary: What does the fossil record show?​

Answer 26

Evidence for evolution​
Lineages appear, change and disappear​
Evolution not directed towards a ‘goal’​
Sudden changes rather than smooth transitions​
Does this matter for Neo-Darwinian model of evolution?​
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