Palaeobiology (Lectures 25-35)

Question 1

What are the three types of fossils?

Answer 1

Body fossils
Trace fossils
Chemical fossils

Question 2

What are body fossils?

How are they represented?

Answer 2

Morphologically intact remains of once-living organisms

Represented primarily by biomineralized hard parts

Question 3

Give examples of biominerals

Answer 3

Calcium phosphate
Calcium carbonate
Silica

Question 4

What do trace fossils show?

Answer 4

Record behaviour of once-living organisms

Question 5

What are considered trace fossils?

Answer 5

Tracks of an animal
Hard-substrate bioerosion
Plant generated disturbance
Fossilized faecal pellets (coprolites)
Soft-sediment burrows

Question 6

What are chemical fossils?

What can be chemical fossils?

Answer 6

Any geochemical signatures

Fossil DNA/lipid biomarker molecules/stable isotope fractionation

Question 7

What can chemical disequilibrium imply with respect to chemical fossils?

Answer 7

Presence of underlying biological processes

Question 8

What is biostratigraphy?

Answer 8

A relative time scale based on appearance/disappearance of fossil forms

Question 9

Outline the two types of the biomineral calcium carbonate

Answer 9

Trigonal and thermodynamically stable calcite

Orthorhombic and unstable aragonite

Question 10

Biomineral calcium phosphate often seen as?

Compare it to calcite

Answer 10

Hydroxyapatite: a constituent of vertebrate bones and teeth
Harder than calcite
Dissolves less at lower pH than calcite

Question 11

Where is the biomineral silicon dioxide found?

What is a main property?

Answer 11

The hard part in sponges, radiolarians and diatoms, and many land plants
Susceptible to dissolution/alteration

Question 12

Where is the biomineral magnetite found?

Answer 12

In the teeth of certain molluscs

In magnetotactic bacteria to keep positioned

Question 13

What is accretionary skeletal construction?

Examples

Answer 13

Continual addition of new material on one or more localized growth fronts
Examples: bivalves, brachiopods and trees

Question 14

What opportunities are presented by examining an accretionary skeleton?

Answer 14

Tracking climate and environment through time

Question 15

What is addition skeletal construction?

Answer 15

Add more bits to the skeletons as organisms grow

Question 16

How do echinoderms construct their skeleton?

Answer 16

Combine addition of new ossicles with the accretion of old ones

Question 17

What is moulting/ecdysis skeletal construction?

Examples

Answer 17

Secrete a jointed exoskeleton that is cast off and replaced during development
Examples: trilobites, insects, crustaceans

Question 18

What is remodelling skeletal construction?

Answer 18

Vertebrate bone is a living cellular tissue

It can remodel during growth and can destroy evidence of pre-existing states

Question 19

What is agglutination skeletal construction?

Answer 19

Collect sedimentary grains and glue them together

Question 20

Starting from the oldest, what is the order of the periods that should be learned?

Answer 20

Cambrian
Ordovician
Silurian
Devonian
Carboniferous
Permian
Triassic
Jurassic
Cretaceous
Paleogene
Neogene
Quaternary

Question 21

What are the eras that need to be learnt, starting from the oldest?

Answer 21

Paleozoic
Mesozoic
Cenozoic

Question 22

What are the four eons, starting from the oldest?

Answer 22

Hadean
Archean
Proterozoic
Phanerozoic

Question 23

Standard taxon ranks

Answer 23

Domain
Kingdom
Phylum
Class
Order
Family
Genus
species

Question 24

What are the three great Domains?

Answer 24

Bacteria
Archaea
Eukaryota

Question 25

How do prokaryotes rapidly evolve?

Answer 25

Horizontal gene transfer

Question 26

How are eukaryotic cells different to prokaryotic cells?

Answer 26

Central nucleus
Intracellular organelles: mitachondria, chloroplasts
Dynamic cytoskeleton

Question 27

Name the three kingdoms of macroscopic eukaryotes

Answer 27

Animals - Metazoa
Plants - Embryophyta
Fungi - Fungi

Question 28

What do nested evolutionary groups share?

Answer 28

A last common ancestor (LCA)

Question 29

What is a crown group?

Answer 29

A modern phylum including the LCA of the phylum and all the descendants

Question 30

What is a stem-group?

Answer 30

Extinct intermediate forms that lead back to a deeper LCA shared with the most closely related phylum

Question 31

How are birds and crocodiles related to LCA and stem-group?

Answer 31

Birds are crocodiles closest living relative
Both part of Archosauria
Dinosaurs are stem-group birds

Question 32

Define taphonomy

What is it often divided into?

Answer 32

The study of what happens to mortal remains, from the point of death through to fossil signal recovery
Biostratinomy and diagenesis

Question 33

Define biostratinomy

Answer 33

The processes acting on a carcass from death through to final burial
Such as decay, transport, disarticulation, erosion etc

Question 34

Define diagenesis

What does it do?

Answer 34

Processes after final burial (mostly geochemical)

Converts biological remains into fossils

Question 35

Which two factors are fundamental to how a carcass will pass through the biostratinomic phase?

Answer 35

Skeletal type

Biomineralization

Question 36

Define palaeoecology

Answer 36

Where and how the original organism made a living

Question 37

Define bioerosion

Answer 37

Breakage, boring and erosion of substrate via biological agents

Question 38

What is the region where fossilisation cannot take place?

Answer 38

Taphonomically active zone

Question 39

What is the best way to minimise the effects of bioerosion on a fossil?

Answer 39

Rapid and final burial

Question 40

Which minerals are prone to early dissolution during diagenesis?

Answer 40

Aragonite

Opaline silica

Question 41

Under the right conditions, how can metastable mineral fossils be preserved?

Answer 41

Altered to a more stable phase through: recrystallisation, mineral replacement, or complete dissolution producing moulds/casts

Question 42

What is one of the most common diagenetic pathways that can lead to the exceptional preservation of soft parts?

Answer 42

Permineralisation

Infilling of internal spaces with secondary minerals prior to degradational collapse

Question 43

What kind of environment would silica, carbonate and pyrite imply if a fossil was permineralised by them?

Answer 43

Silica: terrestrial hot springs or localised acid volcanism
Carbonate: seawater
Pyrite: localised anaerobic degradation by sulfate-reducing bacteria in a marine context

Question 44

How can soft-bodied organisms fossilise by another means than mineralisation?
Conditions for this?

Answer 44

Carbonaceous compression fossils

Low/no oxygen, low pH, low T

Question 45

Coalification conditions
Coalification process
Coalification pathway

Answer 45

Ever wet, low pH, bog-like conditions
Plant material accumulates to form peat
With deep burial and diagenesis
Peat -> lignite -> bituminous coal -> anthracite -> graphite

Question 46

Define ecology

Answer 46

The study of what organisms do - how they make a living and how they engage with their environment

Question 47

What feedback effects can ecology have?

Answer 47

Biogeochemical cycles

Evolutionary process

Question 48

Phylogenetic inference works on what assumption?

Answer 48

Closely related things are likely to have similar lifestyles

Question 49

What is functional morphology based on?

Answer 49

Form relates to function

Question 50

What is the difference between autotrophs and heterotrophs?

Answer 50

Autotrophs: organisms producing their own food
Heterotrophs: consume other organisms for a living

Question 51

How can autotrophs be further distinguished?

Answer 51

Photoautotrophs: using sunlight as the energy source
Chemoautotrophs: using chemical energy

Question 52

Define stenohaline

Answer 52

Intolerance of slight fluctuations from normal salinity

Question 53

What is the opposite of stenohaline?

Answer 53

Euryhaline

Question 54

What is the difference between benthic and pelagic?

Answer 54

Benthic = bottom-dwelling
Pelagic = water-column-dwelling

Question 55

How can benthic organisms be further distinguished?

Answer 55

Epifaunal (living above sediment-water interface) vs infaunal (living below sediment-water interface)
OR
Vagrant (capable of movement) vs sessile

Question 56

What are the two basic habits of pelagic organisms?

Answer 56

Plankton - things that float

Nekton - things that swim

Question 57

What are the three groups of unicellular phytoplankton responsible for half of Earth’s primary productivity?

Answer 57

Siliceous diatoms
Calcareous coccolithophores
Non-biomineralising dinoflagellates

Question 58

Besides unicellular phytoplankton, which other marine organisms have a large effect on Earth’s primary productivity?

Answer 58

Heterotrophic zooplankton:
Calcareous planktic foraminifera
Siliceous radiolarians

Question 59

Define ecosystem engineers

Answer 59

Organisms that contribute significantly to physical environments through their presence or their activities

Question 60

Define bioturbation

Answer 60

The disturbance of sediment by living organisms

Question 61

The majority of carbonate precipitation in the oceans is mediated by what?

Answer 61

Biomineralizing organisms

Mostly corals, forams and coccolithophores

Question 62

Outline the higher-order taxonomy for modern corals

Answer 62

Domain Eukaryotes
Kingdom Metazoa
Phylum Cnidaria
Class Anthozoa
Order Scleractinia

Question 63

Outline scleractinians

Answer 63

Strictly marine, benthic and epifaunal

All fundamentally predatory

Question 64

Some corals are known for having what relationship?

Answer 64

Endosymbiotic association with photosynthesising dinoflagellates (called zooxanthellae)

Question 65

What is the benefit of corals hosting zooxanthellae?

Answer 65

Thrive in low nutrient (oligotrophic) water

Photosynthetic activity enhances the capacity for biomineralisation

Question 66

Zooxanthellate corals are responsible for 25% of what?

Answer 66

Global carbonate burial

Question 67

What are the two extinct Palaeozoic groups of corals?

Answer 67

Rugosa

Tabulates

Question 68

Why do scleractinian corals excel at forming reefs?

Answer 68

They can cement themselves to hard substrates

Zooxanthellate corals and calcifying red algae combine in certain conditions, and they add wave resistance

Question 69

What can be the reasons for a failed reef?

What is the response to these events?

Answer 69

Excessive nutrient input
Disturbance to overheating, predation and disease
Coral bleaching (loss of zooxanthellae) followed by death

Question 70

What are foraminiferas?
What do they contribute to?
What can they host, and what for?

Answer 70

Group of single-celled heterotrophic eukaryotes
Contribute to 25% of marine carbonate production
Many host photoendosymbionts that increase calcite biomineralisation

Question 71

What are the three types of benthic forams?

What does the ratio of these types offer a rough measure of?

Answer 71

Hyaline, porcellaneous and agglutinating

Palaeoenvironment

Question 72

When did benthic and planktic forams appear respectively?

Answer 72

Benthic: Cambrian
Planktic: Jurassic

Question 73

How do coccolithophores contribute to total buried carbonate?
What are coccolithophores?
When did coccolithophores first appear?

Answer 73

Calcitic coccoliths constitute 25%
Photosynthetic, one of three principal groups of eukaryotic phytoplankton
Triassic

Question 74

What are coccolithophores and planktic forams responsible for?

Answer 74

Formation of almost all off-shore and deep-sea calcareous ooze (precursor to chalk)

Question 75

Why do planktic forams and coccolithophores preserve better than scleractinian corals?

Answer 75

Forams and coccolithophores biomineralise in calcite

Scleractinians are aragonitic (which is only metastable)

Question 76

Why does calcite dissolve at depth?

Answer 76

Lower temperatures

Increased pressure

Question 77

What is the Calcite Compensation Depth (CCD)?

Answer 77

The level at which oceanic calcite dissolves more rapidly than its delivery

Question 78

What is the equation for calcite precipitation?

Answer 78

2 x CO2 + H2O + CaSiO3 -> CaCO3 + CO2 + H2O + SiO2

Question 79

How are calcium and bicarbonate ions delivered to the oceans?

Answer 79

CO2 mediated weathering of CaSiO3 rocks

Question 80

What is the lysocline?

Answer 80

The depth at which significant dissolution of CaCO3 begins

Question 81

What are photosynthesising land plants responsible for?

Answer 81

Half of Earth’s primary productivity

Over 80% of standing biomass

Question 82

What are embryophytes (land plants) characterised by?

Answer 82

A two-part life cycle: alternating between a haploid (one set of chromosomes) and diploid (two sets of chromosomes) phase
Differentiated tissues: including female and male reproductive organs
Female retention of a fertilised embryo during early development

Question 83

Define angiosperms

Answer 83

Flowering plants

Question 84

What have most embryophytes covered their diploid phase with?
Why?
What does this then require?

Answer 84

A waxy cuticle
To prevent water loss
Stomata for gas exchange for photosynthesis

Question 85

Except for bryophytes, what do all embryophytes have, and what is it for?
What are vascular land plants known as?

Answer 85

A vascular system for water transport (xylem) and nutrients (phloem)
Tracheophytes

Question 86

What is the xylem composed of?

How is water transported through the system?

Answer 86

Tracheids

Capillary action and stomatal transpiration

Question 87

What are the two different ways of plant dispersal?

Answer 87

Diploid seeds

Haploid spores

Question 88

What are the modern spore-bearing plants?

Answer 88

Bryophytes

Ferns, horsetails and lycopods

Question 89

What is the advantage of a seed habit?
How does it work?
What are seed-bearing plants called?

Answer 89

No need for open water
Fertilisation is done within a growing pollen tube
Spermatophytes

Question 90

What was the most successful way for plants to grow large and increase water transport capacity?
When did this first appear?

Answer 90

Production of secondary xylem (wood)

Early Devonian for wood, mid-late Devonian for large trees and forests

Question 91

How do trees grow vertically and laterally?

Answer 91

Vertically: apical meristems
Laterally: lateral meristems

Question 92

What effect did the rapid colonisation of land by plants have on the carbon cycle?

Answer 92

Increased chemical weathering of silicate rocks
Increased burial of terrestrially derived organic carbon
Generated massive amounts of oxygen

Question 93

How do land plants affect the temperature of the Earth?

Answer 93

Absorb substantial sunlight
Lower planetary albedo (amount of light reflected back into space)
Colder climate without vegetation

Question 94

How do land plants affect the hydrological cycle?

Answer 94

Vascular conduction and stomatal transpiration pumps major amounts of water into the atmosphere
A major decrease in precipitation without vegetation

Question 95

Where and when were coal swamps?

What comprised coal swamps?

Answer 95

Late Carboniferous
Ever-wet, tropical and low-latitude setting
Giant horsetails, tree ferns and arborescent lycopods

Question 96

How were Carboniferous coal swamps cyclical?

Answer 96

Fluctuated between terrestrial and shallow marine conditions

Driven by glacioeustatic sea-level changes

Question 97

Define biostratigraphy

Answer 97

Correlation based on their fossil constituents

Question 98

What is the principle of faunal succession?

Answer 98

Fossil biotas always occurred in the same sequence

Question 99

In what two ways can geological time be measured?

Answer 99

Geochronology - days, years, millennia

Chronostratigraphy - the material accumulated during that time

Question 100

What are the different units for geochronology and chronostratigraphy?

Answer 100

Geochronology: eon, era, period, epoch, age
Chronostratigraphy: eonothem, erathem, system, series, stage

Question 101

What are the types of biozones in biostratigraphy?

Answer 101

Taxon range zone - the known stratigraphic and geographic range of occurrence of a taxon
Assemblage zone - taxon range zone equivalent for three or more forms
Interval biozone - the interval between the beginning of a lower biozone and the beginning of an upper one
Abundance/acme zone - marks a local abundance horizon

Question 102

What are the requirements for an index fossil?

Answer 102

Morphologically distinctive
Easily preserved
Abundant
Facies independent (environmentally insensitive)
Geographically widespread
Short stratigraphic ranges (high evolution rate)

Question 103

Why are cephalopod molluscs good index fossils for Palaeozoic through Mesozoic strata?

Answer 103

Goniatites: mid-Devonian - end Permian
Ceratites: Triassic
Ammonites: Mesozoic
Recognised by their suture pattern

Question 104

What are belemnites?

When are they good index fossils for?

Answer 104

Internal calcitic guards of Mesozoic squid

Jurassic and Cretaceous

Question 105

When are graptolites good index fossils for?

Answer 105

Early Palaeozoic up until mid-Devonian

Question 106

What is one of the principle challenges in deriving a global biostratigraphy?

Answer 106

Bio-provinciality: the tendency of most organisms to live in more or less localised geographic areas

Question 107

Give a modern example of how geographic isolation affects organism assemblage

Answer 107

Modern marsupials are mostly limited to Australia

They used to have a larger Gondwanan distribution

Question 108

How can trilobites be used to show the effect of plate-tectonics on biogeographic partitioning?

Answer 108

Closing of the Iapetus Ocean in the early Palaeozoic

Endemic trilobites and graptolites of Laurentia and Avalonia became more similar

Question 109

What are the simple premises that Darwinian natural selection is based on?

Answer 109

Superfecundity
Variation
Heritability
Time

Question 110

Define superfecundity

How does it relate to natural selection?

Answer 110

All natural populations of organisms have the capacity to increase in number exponentially
Populations tend to remain the same size and resources tend to remain the same size too
More offspring are produced than can be supported so there is competition between individuals, there is a struggle for existence

Question 111

How does variation relate to natural selection?

Answer 111

Wide range of variation in the biological attributes of individual organisms, some contribute to success or failure in the struggle for existence
Members of a population with successful attributes tend to reproduce more often and successfully than those without (differential reproductive success)

Question 112

How does heritability relate to natural selection?

Answer 112

Much of the variation in populations is heritable and passed on to subsequent generations
Individuals that survive to reproductive age will pass on their characteristics
Descendant populations differ from ancestral ones
Heritable change accumulates through generations: ipso facto evolution

Question 113

How does time relate to natural selection?

Answer 113

Long time for evolution to take place

Hence observed diversity and adaptations

Question 114

What is selection a product of?

Answer 114

The ecological interplay between organism and environment

Question 115

What is stabilising selection?

What pattern will be produced on an evolutionary time scale?

Answer 115

Surviving offspring emerging from the centre of the total distribution
Statis - extended intervals showing no evolutionary change

Question 116

What is directional selection?

What pattern will be produced on an evolutionary time scale?

Answer 116

Surviving offspring emerging from one side of the distribution
Anagenesis - unidirectional, gradual change in form but no increase in diversity

Question 117

What is disruptive selection?

What pattern will be produced on an evolutionary time scale?

Answer 117

Surviving offspring emerging from the extremes of the distribution
Cladogenesis - separation of a single lineage into two, leading to an increase in total diversity

Question 118

What are the two ways cladogenesis can occur?

Which is more common?

Answer 118

Sympatric speciation - behavioural differentiation within a common geographic range
Allopatric speciation - imposed externally through physical partitioning of the original population
Allopatric is more common

Question 119

What is peripatric speciation?

Answer 119

When allopatric speciation occurs in small peripheral populations around the main geographic range

Question 120

What does the fossil record fail to document regarding evolution?

Answer 120

Phyletic gradualism - slow incremental change through time

Question 121

If phyletic gradualism is not seen in the fossil record, what is?

Answer 121

Punctuated equilibrium - a pattern of one discrete species for a long time followed by the abrupt appearance of a closely related species, and no intermediate form

Question 122

What does the presence of punctuated equilibrium suggest regarding how evolution takes place?

Answer 122

Long term stasis with little/no continuous evolutionary change
Evolution is related to speciation events

Question 123

How would evolution only taking place by speciation events explain the lack of intermediate forms in the fossil record?

Answer 123

Relatively rapid change in small peripheral populations - too small and too fast to be captured by the fossil record

Question 124

Major evolutionary transitions are often associated with what?
Give an example

Answer 124

Adaptive radiations - rapid evolutionary diversification events occurring within a single lineage (not always an immediate response)
Cambrian explosion

Question 125

What is the main difficulty in reconstructing phylogenies (evolutionary relationships) from fossil data?

Answer 125

Distinguishing characters that are similar due to shared ancestry from those that are similar due to shared function or habit

Question 126

If two characters are similar due to shared ancestry, they are said to be what?
How do homologous features come about?

Answer 126

Homologous

Divergent evolution from a last common ancestor

Question 127

How do analogous features come about?

Answer 127

A product of shared habits or convergent evolution

Question 128

Which transition were lobe-finned fishes preadapted for?

Answer 128

Fish-tetrapod transition in the late Devonian

Question 129

What evolution in derived tetrapods allowed their land invasion to be independent of water availability?

Answer 129

Amniotic egg

Question 130

What are the two lineages of the amniotes?

Answer 130

Reptiles/sauropsids

Synapsids (leading to mammals)

Question 131

When did synapsids first appear, and then dominate?

Answer 131

Late Carboniferous

Permian

Question 132

When did mammals come about?

Answer 132

Mesozoic

Question 133

What are the two definitions of macroevolution?

Answer 133

Recognition of long term patterns
Non-Lyellian view: some things seen in the fossil record are distinct from day-to-day uniformitarian processes added up over time

Question 134

How is a mass extinction defined?

Answer 134

A geographically widespread event that leads to a loss of at least 75% of initial diversity?

Question 135

When did the 5 major mass extinctions take place in the Phanerozoic?

Answer 135

End-Ordovician
Late Devonian
End Permian
End Triassic
End Cretaceous

Question 136

How can the triggers of a mass extinction be found?

How can the kill mechanism be found?

Answer 136

Sedimentological and geochemical evidence

Comparing the ecological habits of the victims with those of the survivors

Question 137

When was the end Ordovician mass extinction?
What caused it?
Which organisms were hit hard?

Answer 137

444 Ma
Major glaciation event on Gondwana lowered sea levels and reduced shallow-shelf habit, worsened by global cooling and marine eutrophication
Trilobites, graptolites and brachiopods

Question 138

When was the late-Devonian mass extinction?
How does it differ to others?
Which organisms were hit hard?
What may have caused it?

Answer 138

360 Ma
More drawn out and limited to marine organisms
Reef-builders, trilobites and brachiopods
Embryophytes massively fertilised downstream oceans resulting in algae-choked ‘dead zones’ in coastal seas
Intervals of marine anoxia in the late-Devonian

Question 139

When was the end Permian mass extinction?
What was lost?
What was the trigger?
Which organisms were hit hard?

Answer 139

251.9 Ma, end of the Palaeozoic era
Over 90% of marine species, and some terrestrial
Siberian traps (4M km^3 of extruded basalt) a large igneous province dated to the same time
Passed through petroleum-bearing strata and sedimentary sulfates so released volatiles into the air
Estimated 30,000 GT of CO2
Global warming, acid rain, ocean fertilisation, ocean acidification
Brachiopods, bryozoans, crinoids and forams, 70% of terrestrial vertebrates went extinct

Question 140

When was the end-Triassic extinction?

What was the trigger?

Answer 140

201 Ma
Exceptionally large LIP: Central Atlantic Magmatic Province (CAMP) when Pangaea broke up generated 3M km^3 of extrusive rock

Question 141

When was the end-Cretaceous mass extinction?
What was the trigger?
What coincides with the trigger?
What is the theory behind the two events?

Answer 141

66 Ma
150km diameter meteorite Chicxulub crater in Yucatan peninsula of Mexico
Deccan Traps in India: 1M km^3 basalt
The incident in Mexico may have triggered the flood basalts in India

Question 142

The nature and extent of the Chicxulub impact has come from the identification of what?

Answer 142

Globally distributed iridium layer at the Cretaceous-Paleogene boundary
Locally distributed shocked quartz and impact spherules

Question 143

Which organisms were hit hard in the end-Cretaceous mass extinction?

Answer 143

Pelagic organisms: coccolithophores and planktic forams
Cephalopods and marine reptiles
Large animals: only crocodiles and turtles were the ones above 25kg known to have survived
Non-avian dinosaurs wiped out

Question 144

What happened after the end-Cretaceous mass extinction?

Answer 144

A significant gap in the surviving ecosystems

Mammals rapidly radiated

Question 145

What are stromatolites?

Answer 145

Lithified sedimentary structures

Trace fossils of microbes forming mat-like populations

Question 146

What behaviour do stromatolites document?

Answer 146

Trap, bind and influence sediment accumulation in a cyclical accretionary fashion

Question 147

Most Proterozoic stromatolites are thought to have been built by what?
What do they perform?

Answer 147

Cyanobacteria

Oxygenic photosynthesis

Question 148

What is the oxygenic photosynthesis reaction?
What is the inverse called?
What does it do?

Answer 148

6 CO2 + 6 H2O <=> C6H12O6 + 6 O2
Aerobic heterotrophy
Uses oxygen to consume biomass

Question 149

What is the process of anoxygenic photosynthesis?
What is the inverse process?
What does the inverse?
H2S can then react with what and form what?

Answer 149

CO2 + H2S <=> CH2O (sugars) + SO4(2-)
Anaerobic heterotrophy
Sulphate reducing bacteria
Iron to form pyrite

Question 150

What is the process of fermentation?
What is it also called?
What performs it?

Answer 150

C6H12O6 -> 3 CO2 + 3 CH4
Methanogenesis
Methanogenic archaea

Question 151

Metabolic pathways by bacteria are accompanied by what?

Answer 151

Kinetic isotope effects

Question 152

What is used as a kinetic isotope effect for photosynthesis?

Answer 152

The enzyme responsible for C fixation is RuBisCO

Isotopic fractionation of 25‰ between C-12 and C-13

Question 153

What is the oldest well preserved sedimentary rocks on Earth?
What is shown here that proves life existed then?

Answer 153

In the early Archaean (3.5 Ga) Warrawoona Supergroup in Western Australia
Clear RuBisCO isotopic fractionation between carbonate and organic-carbon constituents

Question 154

How can sulfur metabolisms be tracked by isotopic fractionation?

Answer 154

Stable isotopes of S-32 and S-34

Show activities of anoxic sulfate-reducing bacteria

Question 155

When is it estimated that oxygenic photosynthesis first evolved?
How was this discovered?
What is this event called?

Answer 155

2.4 Ga
Mass Independent Fractionation of Sulfur (MIF-S) that only occurs in the absence of the ozone disappears at this time
Great Oxidation Event (GOE)

Question 156

What does the GOE coincide with?

Answer 156

First widespread glaciation
First appearance of sedimentary red beds
Enormous deposits of banded iron formation
Major fluctuations in δC-13 signatures