Week 11: How to Grow a Planet: Jurassic

Question 1

What is the biggest extinction event in the history of life on Earth?

Answer 1

Permian- Triassic Mass Extinction Event (aka “The Great Dying”)

Question 2

How where organisms affected during Permian Triassic Mass Extinction event?

Answer 2

85% of all genera (genus) extinct
-“modern-type” faunas diverisify afterwards= Mesozoic
-“Palaezoic-type” (trilobites etc) faunas never really recover

Question 3

What are some of the End Permian “Victims”?

Answer 3

Trilobites:
-100% extinct

Crinoids:
-98% extinct

Corals
-96% extinct

Cephalopods:
-97% extinct

Brachiopods:
-96% extinct
-replaced by bivalves (more modern shelled (now dominant group of) molluscs)

Question 4

Who were the biggest victims of the Permian-Triassic Event?

Answer 4

Biggest victims= calcareous skeletons (CaCO3) and sensitive to O2
Likely due to= Big spike in global CO2 at the end of the Permian. This likely caused ocean acidification making it difficult for skeletons to form.

Question 5

What was the continental arrangement after the extinction (Triassic)?

Answer 5

-one giant supercontinent called Pangaea

Question 6

What was the climate like after the extinction (Triassic)?

Answer 6

-hot n dry climate, temperate poles

Question 7

What was the geology like after the extinction (Triassic)?

Answer 7

-red bed sandstone and evaporites (indicating dry conditions)

Question 8

What is paleobiogeography? How is it useful?

Answer 8

-distriution of fossils was used to support theory of continetal drift and plate tectonics
Palaeoigeography informs:
-reconstructions of the continents
-evolution of the animals in time and space

Question 9

What group do birds, crocodiles and dinosaurs all belong in?

Answer 9

Archosaurs
-dinosaurs are also archosaurs because they are stem birds:
-there are 3 main clades of dinosaurs:

Question 10

How many clades of dinosaurs is there? What are they?

Answer 10

There are 3 clades
-Theropoda
-Sauropods
-Ornithischia

Question 11

What were early dinosaurs?

Answer 11

-first appeared in the Triassic
-were only small and carnivorous e.g. Herrerasaurida
-mixture of advanced and derived traits
-been very controversial in trying to reconstruct their phylogeny accurately and reliably

Question 12

What is the clade crocodylomorpha?

Answer 12

-origins=Triassic
-diversification=Mesozoic
-crocodiles belong to this clade
-had a much bigger diversity in the past than they do today
-modern crocodillians= crocodiles, alligators, gharials, caimans
-mesozoic crocodillians= giant upright running predators and fully marine swimmers with tail fins

Question 13

What were Mesozoic Oceans like?

Answer 13

-marine fauna was quicker to bounce back= new corals and fish
Marine reptiles e.g. plesiosaurs, ichthyosaurs
Cephalopods e.g. ammonoids

Question 14

Where does evidence of predation come from in the Mesozoic Ocean?

Answer 14

-bite marks
-gut contents
-coprolites (fossil poo)

Question 15

What was the continental arrangement in the Jurassic?

Answer 15

Pangaea supercontinent begins splitting into:
-Laurasia= North
-Gondwana= South
closure pf the Tethys ocean begins

Question 16

What was the climate like in the Jurassic?

Answer 16

more humid and subtropical conditions

Question 17

What occurred to gymnosperms (e.g conifers) in the Jurassic?

Answer 17

diversification and spread of them

Question 18

What were Sauropods like?

Answer 18

-long necks
-long tails
-small heads
=adaptations to reach high foliage

Originated= Triassic
Diversified= Jurassic
progressively increased body size

the discovery of a very large leg one suggests Argentinosaurus may be the biggest sauropod

Question 19

What were pterosars like?

Answer 19

-flying reptiles (“winged lizards”)
-NOT dinosaurs
-hollow ones
- fluffy ‘proto-feathers’
originated= Triassic
diversified= Jurassic
wide range of diets, mostly insectivorous and piscivorous

Question 20

What are theropods?

Answer 20

-diverse dinosaur group: includes birds
-three-toed limbs
-feathers
-mostly carnivorous
originated= Triassic
diversified= later

e.g Gorgosaurus (dinosaur in Williamson) is a classic Theropod closely related to Tyrannosaurus rex

Question 21

What was the continental arrangement in the Cretaceous?

Answer 21

Laurasia:
-splits into North America and Eurasia

Gondwana:
-splits into South America, Africa, Antartica, Australasia and India

-opening of Atlantic ocean
-closure of Tethys

Question 22

What was the climate like in the Cretaceous?

Answer 22

-warm climate
-high sea levels

Question 23

What was the geology like in the Cretaceous? Why?

Answer 23

high sea levels=extensive island seas= high sedimentary deposition
particular limestones (e.g. chalk)

Question 24

What occurred to angiosperms (e.g flowering) during the Cretaceous?

Answer 24

diversification and spread

Question 25

What are Ornithischia?

Answer 25

‘bird-hipped’
-a diverse group of dinosaurs with ‘beak’ like jaw
-most are herbivorous
-mostly quadrupedal
originated= some in Jurassic
diversified= reached peak diversity in Cretaceous

e.g. Psittacosaurus is a Ornithischia

Question 26

What are Avialae?

Answer 26

-theropods that fly
-true feathers
-powered wings
-evolved within theropods
first diversified= Cretaceous
most birds evolved after that

includes birds

Archaeopteryx is a great example of a transitional fossil:
-exhibits avian features = feathers, wings
-exhibits theropods features= teeth, long tail with bones, claws
described 2 years after Darwin’s origin of species, lending strong support to evolutionary theory

Question 27

What are the Mesozoic Diveristy patterns?

Answer 27

after the Permian-Triassic extinction, ‘Palaeozoic’ marine faunas remained minor whilst ‘modern’ marine faunas diversified and became more dominant

Raw dinosaur data also show increasing diversity during the Mesozoic but statistical modelling indicates they were in decline by the Cretaceous.

Question 28

What occured during the Cretaceous-Palaeogene Extinction Event?

Answer 28

-big faunal change from Cretaceous to Cenozoic
-end of dinosaurs (but NOT birds)
-ichthyosaurus, pterosaurs, ammonoids and many other affected

Question 29

What are the possible causes of the Cretaceous-Palaeogene Extinction Event?

Answer 29

massive extra-terrestrial asteriod impact:
-Cretaceous-Palaeogene boundary=shows big geological changes= including huge Iridium spike which was matched to massive Chicxulub crater impact in Yucutan, Mexico
-the impact ejected large amounts of dust, soot and sulphate aerosols into the atmosphere

or

massive volcanic eruptions, flows and gases: Deccan Traps, India
–new site in Dakota finds fish with ejecta, preserved in ‘snapshot’ following the impact
-modelling indicates that it would have caused a drastic climate cooling (‘nuclear winter’) for years after.

Question 30

Could dinosaurs be brought back like in the film “Jurassic Park”? How? or Why not?

Answer 30

1.Dinosaur blood from mosquitoes in amber
2. dinosaur DNA extracted and combined with frog DNA
3. DNA sequence used to rear dinosaurs

However this is not entirely possible as
-DNA is far too fragile does not survive anywhere near that long (66million years+)
-no DNA from copal (10,000 years ago)
-oldest recovered DNA is 80,000years old

Question 31

How can we bring the dead back to live? (digitally)

Answer 31

1. Engineering approaches:
   -help us reconstruct the motion and behaviour of long extinct animals
   -e.g. feeding and locomotion
2. Soft tissues
   -studying exceptionally preserved soft tissues can provide insights into appearance and behaviour of extinct animals
   -e.g. colours

3.Photogrammetry
-uses 2D images from multiple angles to create a 3D model

4.LiDAR
-Light Detection and Ranging
-uses laser scanning of external surfaces to create virtual 3D models which can be digitally manipulated
-digitally scans dinosaurs and reconstructs their bodies

5. CT-scanning
   -visualize internal anatomy of fossils
   -without destroying fossils
   -images depends on attenuation contrast (e.g. absorption or scattering of X-rays)

Question 32

What has gait reconstruction showed us about the biomechanics of walking?

Answer 32

Gait reconstruction
-digital models can be used to model walking
-applying virtual muscles and tendons to the skeleton
-e.g. shows T-rex was unlikely to be ale to run=not a hunter
-e.g. shows trigonotarbids walked a but like spiders
-e.g. foot prints and models demonstrate bipedalism in Australopithecus

Question 33

What do we know about the biomechanics of flight?

Answer 33

the flight mode of Archaeopteryx reconstructed y comparing dimensions of bones with moderns archosaurs Archaeopteryx compares closes with short burst flyers (e.g. pheasant)

Question 34

What has computational fluid dynamics showed us about the biomechanics of swimming?

Answer 34

Computational fluid dynamics= engineering technique to simulate flow

fish, reptiles, mammals and birds have all convergently evolved the same same hydrodynamic body shape

Increasingly large ichthyosaurs became relatively efficient swimmers

Question 35

What are the biomechanics of feeding? What software is used?

Answer 35

Finite Element Analysis (FEA) uses algebra to estimate physical properties of a simplified digital model
Soft-tissue muscles are reconstructed using comparative anatomy
Combined with osteology to infer biting strength and feeding styles
EXAMPLE:
A T. rex model composed of smaller elements to model stress of biting and twisting in bone
Reconstruction of feeding muscles, skull stress and strain in two sauropods (Camarasaurus & Diplodocus)
They had divergent specialization towards different food stuffs and strengths of bite forces

Question 36

What do we know about T-Rex biting forces? Who were the researchers?

Answer 36

Bates and Falkingham (2012) use dynamic musculoskeletal models to simulate maximal biting in T. rex.

Estimate 35 000–57 000 N
~equivalent to 5 000kg

Question 37

How can we bring the dead back to life?

Answer 37

1.Engineering= reconstruct the motion and behaviour of long extinct animals, for example feeding and locomotion

2.preserved soft tissues can provide insights into appearance and behaviour of extinct animals, for example colours

Question 38

Hard tissues vs Soft tissues?

Answer 38

hard:
-mineralized shells
-mineralized bones

soft:
-preserved cuticle
-preservation of skin/muscles

Question 39

How do we scan soft tissues? What can we discover?

Answer 39

Using a synchroton= a type of particle accelerator that generates high power X-rays
Many applications including palaeobiology

Question 40

What are melanosomes? Relation to fossils?

Answer 40

Melanin is a natural pigment packaged in sub-cellular melanosomes
Different coloured melanosomes have different shapes and densities
They can be preserved in fossils which allows reconstruction of distribution of colour pigments in life

Question 41

How can metals relate to fossil colour?

Answer 41

Synchrotron XRF used to detect trace elements related to pigment
Example:
Scanning a fossil bird finds copper likely derived from eumelanin, thus reconstruction colour patterns
Fossil mouse with pheomelanin related Zinc

Question 42

How can colour be inferred by ecology?

Answer 42

The distribution of colour can be used to infer animal ecology and behaviour
Example:
Some dinosaurs exhibited counter- shading, probably to evade predation

Question 43

Have we been able to extract anything from dinosaur soft tissue?

Answer 43

One USA research group claim to have extracted proteins and cells from dinosaur bone tissue, including T. rex
However, nobody else has been able to replicate these results.

Question 44

What can be discovered from soft tissue?

Answer 44

Bone fragment from Arctic Canada, unknown affinity
Collagen proteins extracted and sequenced: revealed bone to be from a Camel

Fragmentary ancient DNA can be extracted from fossils and sequenced to give genetic information
example: DNA sequences extracted from Neanderthals reveal extensive interbreeding between neanderthals & Homo sapiens

Question 45

How old is the oldest known reliable ancient DNA?

Answer 45

800,000 years old
None older as DNA is highly sensitive to contamination and highly labile

Question 46

How could mammoth be brought back?

Answer 46

1. cloning from frozen cells
2. sequenced genome

Question 47

What was the Post Extinction Palaeogene like?

Answer 47

Very different flora, fauna, ecosystems, and climate after the extinction
Birds, mammals and teleost fishes

Question 48

What are Aves/Birds?

Answer 48

specialized archosaurs, defined by:
Feathers
Endothermy
Hollow bones
Toothless Beak
Clasping claws

Complex air breathing through series of air sacs with bidirectional flow
Pectoral appendage modified for flight: large muscles, reduced manus

Question 49

How diverse are birds? What group did they evolve from within?

Answer 49

highly diverse= ~10,000 species:
-Fowl (Galloanserae), ~400 species
-Flightless Palaeognathae, 47 species
-Neoaves(most birds), +9000 species

Birds evolved from within theropod dinosaur group

Question 50

What is the evolution of feathers?

Answer 50

Feathers have a long evolutionary history

Filamentous barbs seen in pterosaurs, dinosaurs

Feathers with barbules seen in Microraptor, Avialae

Question 51

When did birds diversify and evolve?

Answer 51

underwent massive radiation just after the Cretaceous-Palaeogene Extinction
Diversify in ecology and across globe

Question 52

What are the internal structure’s of mammals?

Answer 52

-mammary glands and lactation
-hair and sweat glands
-just one jaw bone (dentary)
-three middle ear bones

Question 53

How diverse are mammals?

Answer 53

Around 6305 species

Monotremes= 5 species
Placentals= ~6000 species
Marsupials= ~300 species

Question 54

What is the origin of the mammal?

Answer 54

Early Synaspids included Dimetrodon with large sail from Early Permian

The stem-mammal Morganucodon from Late Triassic had deciduous tooth shedding, probably hair

Most placental mammals radiated after the Cretaceous Palaeogene Extinction Event, some lineages originating slightly before

Question 55

What are Actinopterygii? How diverse are they?

Answer 55

they are ray-finned fish
have:
-air filled swim bladder for buoyancy
-fin rays (radials) attached directly to base
DIVERSITY:
1. non teleosts= <100 species
2. teleosts= <26,000 species

Question 56

How did Teleost evolve?

Answer 56

Teleosts diversified in the Mesozoic, before the end Cretaceous extinction

Many sub-clades underwent rapid diversification after the Cretaceous in the Palaeogene

Less pronounced pattern than for birds and mammals

Question 57

What is adaptive radiation?

Answer 57

Rapid diversification of organisms from an ancestral species into a multitude of new forms, particularly to occupy newly available niches

Example: Darwin’s Galapagos Finches

Question 58

What is an ecological niche?

Answer 58

the position of a species within an ecosystem in terms of the range of conditions it can persist in

Question 59

What is the biotic and abiotic environement?

Answer 59

Biotic= interactions with other species such as competitors, predators, etc

Abiotic= e.g. temperature, O2 etc

Question 60

How do mass extinctions affect niche availability?

Answer 60

After the extinction of the dinosaurs, mammals were able to radiate to occupy newly available niches, particularly large body sizes- mammal body size got a lot bigger very quickly

Also mammalian specific innovations (teeth and grinding) and new biological niches from radiation of angiosperms

Question 61

How have insects diversified and evolved over time?

Answer 61

Diversification= Carboniferous

Suffer big losses at the Permian-Triassic extinction event

Relatively unaffected by the Cretaceous-Palaeogene extinction event

Question 62

What climate conditions define the start of the Palaeocene?

Answer 62

High global temperatures with little polar ice

marked by the Palaeocene-Eocene thermal maximum (PETM)

Question 63

What is the Palaeocene-Eocene Thermal Maximum (PETM)?

Answer 63

temperatures were about 5-8º higher (greenhouse world) than today (ice house world)

Massive injection of atmospheric CO2 over a short period of time.

Question 64

What were the causes of the Palaeocene-Eocene Thermal Maximum (PETM)?

Answer 64

-volcanism
-comet impacts
and their effects on carbon cycles and ocean circulation

Question 65

What were the effects of the Palaeocene-Eocene Thermal Maximum?

Answer 65

Increasing abundance and spread of mammals on land.

In deep oceans, extinction of benthic foraminfera related to acidification (calcareous test)

Volcanism caused spike in oceanic CO2, drop in pH over 1000s years

Question 66

is PETM a proxy for modern climate change?

Answer 66

Rate of emissions and temp rise much higher today than even at the PETM
Modern earth system might be more resilient, some ecosystems are at more risk

Question 67

When do continents and planet finally resemble modern arrangement?

Answer 67

The Neocene

Question 68

What is the continental structure during the Neocene?

Answer 68

Finally resemble modern arrangement
-Isthmus of Panama forms
-Collision of Indian plate with Eurasia
-Contact between Africa and Eurasia
-Ice-covered Poles return

Question 69

What was the Neogene climate like?

Answer 69

Cooler global temperatures, closer to modern range. Seasonality
glaciations
spread of grassland ecosystems

Question 70

What are browsers and grazers?

Answer 70

Browsers= herbivores that feed on leaves, shoots and fruits of high growing woody plants (e.g. shrubs)

Grazers= herbivores that feed on the low vegetation, particularly grasses (but also algae)

Question 71

What are ungulates?

Answer 71

Hoofed animals: two types
-even toed
-odd toed

Diverse
mostly herbivorous
specialized molars= for grinding vegetation
specialised guts with bacteria= digest cellulose

Question 72

Are whales ‘hoofed’ animals?

Answer 72

Molecule data confirmed that whales (Cetacea) are sister taxon to Hippos, firmly in the ungulate crown-group

A range of interested fossils reveal the transition from hoofed to fully aquatic

An example is Ambulocetus: a piscivorous walking whale

Question 73

What was the neogene shift in ungulates?

Answer 73

predominantly browsing ungulates to grazing ungulates
ecological effect= spread of grasslands

Question 74

How are horses a classic example of evolution?

Answer 74

Increasing body size through time along with reduction of toes and specialization of teeth (hypsodonty)
-shift from browsing to grazing= geographic spread

Question 75

What are primates?

Answer 75

Primates are a diverse group of mammals
-relatively large brains, specialized for vision
-tactile grasping feet and hands

First diversified= Palaeogene
(e.g including lemur-like Darwinus)

Question 76

What is primates evolutionary history?

Answer 76

Long history/divergences taking place in Palaeogene
Group comprises of Lemuriformes, Tarsiiformes, and Simiiformes

Question 77

What groups are found within Simiiformes?

Answer 77

1.new world monkeys
2.old world monkeys
3. apes

Question 78

What are humans part of within primates? What animal are we closely related to?

Answer 78

Hominidae (Great Apes)
-lost their tails
-exhibit complex behaviours

Molecular phylogeny indicates that humans are closely related to chimpanzees and bonobos
(96% genetically identical), splitting about 8 million
years ago, in the Neogene

Question 79

What are primates primary specializations?

Answer 79

Vision
-Most mammals have either monochromatic or dichromatic vision
-old world monkeys and apes= trichromacy

grasping hands
-Primate hands show increasingly complexity of grasping due to flat keratin nails, opposable thumbs

Question 80

What is sexual dimorphism?

Answer 80

distinct difference in size or appearance between the sexes of an animal in addition to the sexual organs themselves.

Primates show differences between sexes including:
-geladas
-gorillas
-hamadryas baboons
-olive baboons
-chimpanzee
-humans

Question 81

What are seed leaves?

Answer 81

produced in the embryo
in all plants
different structure to “true” leaves

Question 82

What is the difference between gymnosperms and angiosperms?

Answer 82

gymnosperms= 2-24 cotyledons
angiosperms= 1-2 cotyledons:
-1 cotyledon= monocot
-2 cotyledon= dicot

Question 83

When did angiosperms come into existence?

Answer 83

~250million years ago

Question 84

When did monocots come into existence?

Answer 84

~135 mya

Question 85

How to spot a monocot?

Answer 85

single cotyledon
flower with 3 fold symmetry
parallel veins on leaves
scattered vascular bundles

Question 86

What are meristems? What meristems do monocots have?

Answer 86

meristem= point of cell division
apical meristem= at tip
lateral meristems= allow stems to grow thicker

monocots lack lateral meristems so cannot form wood
monocots have intercalary meristems.

Question 87

When did grasses form?

Answer 87

Palaeogene
after changes in climate due to continental restructuring= cooler drier climate
changes in atmosphere= falling C02 resulting from mountain building

Question 88

What are grasses like?

Answer 88

-short
-grazing tolerant
-grow from the bottom up= if grazed/burned meristem can keep growing unaffected as in quite a protected location from fire

Question 89

When did the rise of African grasslands occur?

Answer 89

1.~20mya Africa collided with Eurasia
2. Elephant relatives spread out
3, Trees decline= grasses and thorny bushes increase

Question 90

What are phytoliths?

Answer 90

silica crystals formed by plants= non digestible
so herbivores evolved better adapted teeth= co evolution of herbivores

Question 91

Differences between humans and chimpanzees?

Answer 91

Chimpanzee is from the genus Pan while humans are Homo
There are 2 species of Pan: chimpanzee and bonobo
Chimpanzees are larger and more aggressive, male dominated
Bonobos are smaller, more peaceful, and female dominated
While only one species of Homo= homo sapiens

Homo sapiens have:
-larger brains/skulls
-bipedal walking gait
-protruding nose and chin
-smaller jaws and teeth

Question 92

What are the earliest apes?

Answer 92

Sahelanthropus, 7 mya from Chad:
-small brain
-short canine teeth
-Potentially walked more upright

Ardipithecus, ~5 mya from Ethiopia
More reduced canines
walking-like hips
opposable toes
flatter feet
Mosaic features of humans and chimps

Question 93

What are Australopithecines?

Answer 93

meaning= southern ape
4 million to 2 million years old
multiple species that make up this genus
chimp sized brain
footprints and models= bipedalism
lived in Africa

Example: Lucy the ape

Question 94

What are homo erectus?

Answer 94

meaning= upright man
1.8 million to 140,000 years ago
bigger brain but smaller than ours
first ancestor to make it very far from Africa- expanded to Asia

Question 95

How did hominin brains evolve?

Answer 95

increase slowly at first
underwent brain boom in the last 800kyr

Question 96

Advantages and disadvantages of big brains?

Answer 96

despite having smaller brain than elephants humans have more neurons (particularly in cortex)= important for cognitive function
-primates achieve this by having a denser cortex

big brains are energetically expensive to maintain

obstetrical dilemma= brain size vs hip width for childbirth

increasing brain size= social networks, tools use (increasing complexity through time)…

Question 97

Did hominins interbreed?

Answer 97

there is evidence to suggest this

Question 98

What fossil evidence is there for the “homo stem-lineage”?

Answer 98

-bipedalism
-changes in teeth and jaws
-increasing brain sizes
-tool use and precision

Question 99

What is Therapithecus gelata?

Answer 99

species eats almost exclusively grass
has none of the adaptations to be able to eat it (long teeth, strange stomach etc) however somehow able to eat large quantities of grass

Only one other species of ape which has really evolved to survive on a diet dominated by grass= homo sapiens

Question 100

Origins of Agriculture

Answer 100

occurred across the world ~12-10kya
major change in human behaviour- change in diets
-maize in Central America
-wheat in Middle East.
-rice in South East Asia

Question 101

What is Milankovitch cycles?

Answer 101

Irregularities in Earth’s orbit
solar radiation varies~130 Ky per cycle

Question 102

How has world population changed since 10,000BC?

Answer 102

Increased significantly
few hundred thousands people to 8 billion

Question 103

Who was Thomas Malthus?

Answer 103

wrote an essay on the principle of population (1789)
Believed that:
-increase of population is necessarily limited by the means of subsistence
-population does invariably increase when the means of subsistence increase
-the superior power of population is repressed by moral restraint, vice and misery

Question 104

What is the Haber Process?

Answer 104

Fritz Haber and Carl Bosch came up with it
N2 + 3H2 → 2NH3
∆H = -91.8 kJ .mol-1
very energy expesnive

Question 105

Who is Norman Ernest Borlag?

Answer 105

lived from 1914-2009
Father of the ‘Green Revolution’
Nobel Peace Prize 1970

Question 106

What are dwarf varieties principle?

Answer 106

Shorter plants = higher harvest index
(harvest index = grain/total plant)
also - less lodging (falling over)
So higher yields

(by Norman Ernest)

Question 107

What effect does wheat stem rust have on crop yields?

Answer 107

Rust reduces crop yields
Plant breeding produced resistance

Question 108

What are methods of improving food security through biotechnology?

Answer 108

C4 rice project

Carboxysomes

Golden Rice

Salt water crest

Question 109

What are methods of improving food security through agroecology?

Answer 109

Agro-forestry

Intercropping

Soil-management

Integrated pest management