Lecture 15?

Question 1

Why can’t we be more accurate about how many species there are?

Answer 1

. Lack of morphological variation in some taxa (bacteria and a lot of insects- a lot of diversity in insects you can’t just see be picking them up they are mainly behavioural
. Function of effort in looking (birds (view casually- we know roughly how many species there are) vs nematodes- have to put a lot of effort into finding them). Organisms in rainforests are fairly well categorised and those in the sea are not (e.g. marine mysids in Japan/ S. China sea)
. Sampling- rich habitats (rainforest). Large (more spread out so harder to sample)- inaccessible habitats (e.g. oceans)

Question 2

Why should we care about biodiversity?

Answer 2

. A number of ecosystem services
. The more biodiversity in an ecosystem the more robust it is
. Before pesticides we didn’t used to get outbreaks of pests (no predators) like we do now because there was more biodiversity

Question 3

What provisions does biodiversity provide?

Answer 3

Renewable resources- food, fibres, disease resistance, pest control, vegetation defends against avalanches, flood, soil erosion.
The more biodiversity the more resources you have

Question 4

Give an example of a provision biodiversity provides

Answer 4

Amazonian babassu palm (tree of life) 
Uses:
. highest yield of vegetable oil from fruit (5 times more than coffee in Brazil)- biofuels
. Livestock feed 
. Thatching 
. House timbers (wood)
. Charcoal (wood)

Question 5

How does biodiversity provide food security?

Answer 5

Genetic diversity for crop yield, quality, stress tolerance, pest/ disease resistance (if wild types are lost the genes for resistance are lost as well), reduce use of chemicals

Question 6

Give 2 examples of biodiversity giving food security

Answer 6

1. Wild potato varieties
   . Blight resistance (if these species go extinct then the genes are blight resistance disappear with them)
   . Andean potatoes
   . Hungarian purple potatoes
2. White flies- pests of tomatoes don’t like wild tomatoes

Question 7

Explain how biodiversity is important in medicines

Answer 7

> 20,000 listed medicinal plants ($50 billion/ year £ 80% people in developing countries depend.
Every time one goes extinct the potential for some medicine disappear with them

Question 8

Give examples of when biodiversity is used in medicine

Answer 8

Madagascar (13,000 plant species, 80% endemic), Rosy periwinkle. Uses: diabetes, childhood leukaemia (cancer drugs).

Conus (snail species) spp. Venom. Use: pain killer- 1,000 times more powerful than morphine. Nerve Chanel blocker: used following heart bypass/ head injury/ stroke & pain management

Cultural- Aesthetic, educational, recreational (mental health as well)
Each time one of these goes extinct the potential to develop medicine from them goes extinct as well

Question 9

Why should we classify organisms?

Answer 9

. To group organisms to reflect similarities and proposed relationships
. To organise a universal and recognised way of naming organisms

Question 10

What is Aristotle’s legacy (384-322BC)?

Answer 10

. Founder of science
. Began first program to catalogue biodiversity
. Observation, description and seductive reasoning (if A, B and C is correct then D must be correct)
. Interested in marine animals

Question 11

How did Theophrastus name plants?

Answer 11

On the basis of sexual parts of flowers (very variable)

Question 12

What binomial nomenclature called?

Answer 12

Innaeus

Question 13

What is the hierarchical classification of two organisms known as?

Answer 13

Linnaeus (Gross categories (with a lot of different species in them) which become more refined- kingdom, phylum etc.)

Question 14

What are species inventories and how many species are in them?

Answer 14

. Catalogue of life
. 84% of species known to science tracked
(Relationships and distribution)

Question 15

What will a species inventory tell us?

Answer 15

. Proportion of endangered flora/ fauna (e.g. estimated loss from deforestation ~0.2-0.3% forest species)
. How much/ little we know of life on Earth (e.g. current knowledge of biological processes/ patterns based on relatively few species- have all these species together, can be searched. Example- Loriciferans discovered in 1983- vital to ocean environment)

Question 16

Describe the structure prokaryotes (bacteria)

Answer 16

. Unicellular
. Small cells
. DNA not in nucleus (floats about in the cell body e.g. plasmids in bacteria)

Question 17

What are the two groups of prokaryotes?

Answer 17

. Eubacteria e.g. Cyanobacteria

. Archaebacteria e.g. S reducers

Question 18

Describe the structure of the kingdom Protocista

Answer 18

Eukaryotes- larger than prokaryotes, DNA in nucleus, organelles from prokaryote symbiosis
e.g. Amoebae, green algae, brown algae, slime moulds

Question 19

How were mitochondria originally formed?

Answer 19

By the symbiosis of a bacteria and a eukaryote cell

Question 20

What does heterotrophic mean?

Answer 20

Don’t produce own food/ have to eat

Question 21

Describe the metabolism of prokaryotes

Answer 21

Essential decomposers, altered earths atmosphere making it suitable for life. Autotrophic (self feeding) e.g. Cyanobacteria, O2 evolution- aerobic atmosphere, some fix N2.
Heterotrophic- diverse sources of C/ energy, S reduction. Some inhabit extreme environments

Question 22

Describe the metabolism of protocists

Answer 22

Autotrophic using CO2- photosynthesis e.g. algae

Heterotrophic various means e.g. Paramecium (found in stomach wall)!

Question 23

Describe the metabolism of plants

Answer 23

Autotrophic- photosynthesis

Question 24

Describe the metabolism of animals

Answer 24

Heterotrophic- ingest food

Question 25

When was the earth formed?

Answer 25

4.5 billion years ago

Question 26

What was happening on Earth 3800my ago?

Answer 26

No life on Earth.
Condensation and cooling- oceans
Volcanoes expel H2O, CO2, N, CO plus energy from lightening
Sun (energy from the sun striking the sea) form organic molecules- NO, O2

Question 27

What was happening on Earth 3500 my ago?

Answer 27

First prokaryotic cells (Cyanobacteria)
Simple ecosystems
Photosynthesis releases O2 and changes atmosphere

Question 28

What are the oldest fossils and when did they exist? Describe them

Answer 28

. 3.5 billion y.a. (Found in rock this old)- first prokaryotic cells
. Cyanobacteria (blue-green algae. Eubacteria)- they started to produce O2 and this allowed more diverse and more complex life forms to evolve)
. Similar physiology to plants and algae
. Photosynthesis- most important evolutionary innovation on earth

Question 29

What happened on Earth 2000-1800 mya?

Answer 29

O2 in atmosphere reaches critical level
Anaerobes limited to deep water
Some prokaryotes aerobic metabolism in surface waters
Formation of the ozone layer (by production of O2) -UV protection

Question 30

What happened on Earth 1800mya?

Answer 30

First single-celled eukaryotes

Question 31

What happened on Earth 1400 mya?

Answer 31

First multi-cellular green algae

Question 32

What happened on Earth 1100 mya?

Answer 32

Major radiation of eukaryotes- fossils show cyst-like structures- sexual reproduction
Cyst-like structure suggests reproduction by budding off cells

Question 33

What happened on Earth 600mya?

Answer 33

First animal fossils, soft-bodied metazoans. Simple ecosystem
Ediacaran gains are the fossils from this period- not many different types e.g. Dickinsonia costata, Australian fossil

Question 34

What happened on Earth 530mya?

Answer 34

Burgess Shale
Start of fossil record if biodiversity (Cambrian explosion)
Most of the phyla we have today came about here. ‘Evolutionary experiments’ in this period- things you just don’t see anymore. Mostly soft-bodied (they are fossilised in fossil beds)- most soft bodied organisms don’t fossilise

Question 35

What happened on Earth 440mya?

Answer 35

First complex arthropods (hard skeletons from CaCO3, segmented body, jointed limbs) most diverse of groups
microclimates and niches= first complex ecosystems

Question 36

What happened on Earth 330mya?

Answer 36

Large vascular plants, conifer relatives, forests- complex ecosystems (light, shade, humid). Marine equivalent- coral reefs
Egg laying vertebrates
Synapsid line- mammals: reptiles-birds
Insects
Have trophic structure by this period: (first primary producers -> primary consumers -> secondary consumers etc.)- food webs

Question 37

330mya when complex ecosystems developed. How did they increase in complexity?

Answer 37

Complex food webs
Increased physical complexity of ecosystems:
- variation, new niches for subsequent diversification
- light and shade- temperature- water

Question 38

What are millipedes?

Answer 38

Oldest known land animal

Question 39

What was happening on Earth 500mya?

Answer 39

Land ecosystems- mat of fungi, bacteria, algae on soil surface

Question 40

What was happening on Earth 350mya?

Answer 40

First insect-like fossils. Evolved on land, few have invaded sea. First true insect fossils (large-winged species) about 300mya

Question 41

What was happening on Earth 420-400 mya?

Answer 41

First vascular plants (water conducting tissue) e.g. Phynia- cuticle prevents water loss

Question 42

What was happening on Earth 170mya?

Answer 42

Reptiles on Earth

First birds

Question 43

What was happening on Earth 145-65mya?

Answer 43

Flowering plants

Extinction of dinosaurs at K/T boundary

Question 44

What happened on Earth <65mya (to the modern day)?

Answer 44

Rise of birds and placental animals

Question 45

What happened on Earth 1.8mya?

Answer 45

Modern mammals, origin of humans

Question 46

What is the long-term average for the extinction rate of mammals in the distant past (fossil records)? What is it now?

Answer 46

For every 1000 mammal species <1 went extinct for every millennium (similar in marine species).
Now we have between 10 and 100 of every 1000 species going extinct every millennium in mammals, birds and amphibians.
So, the extinction rate is currently up to 1000 times higher than in the fossil record.

Question 47

Which are the species most at threat from extinction?

Answer 47

. Small populations and/ or small geographical range. Exacerbated by habitat fragmentation (small population is less robust than larger ones- so splitting e.g. train line= fragmentation)
. Species tied to habitats favoured by humans
. Large organisms
. Species higher in the food chain. Extinction usually from a combination of factors e.g. red squirrel biological competition habitat fragmentation, disease (paradox virus)