Climate and Life on Earth V: Global change - biodiversity in the Anthropocene 1

Question 1

Define the anthropocene

Answer 1

• the current geological age in which human activity has been the dominant influence on climate and the environment
• recognises humans as a major geological and environmental force

Question 2

Describe the Anthropocene

Answer 2

• modified >50% terrestrial land cover
• consume c.40% NPP each year
• increased CO2 concentration to 410ppm
• 1 degree of warming
• 0.5-1M species to extinction brink
• removed or rendered critically endangered all trop predators on land and sea
• 60% decline in vertebrate populations since ’70s

Question 3

when did the Anthropocene begin?

Answer 3

1610

Question 4

Define biodiversity

Answer 4

• variability amount living organisms from all sources including inter alia, terrestrial, marine and other aquatic ecosystems and the ecological complexes of which they are part; this includes the diversity within species , between species and of ecosystems
• variation in genes, traits, species, communities, habitats and ecosystems

Question 5

List some scales of biodiversity

Answer 5

• gene
• individual
• population
• community
• ecosystem
• biome
• biosphere

Question 6

biodiversity can be assessed in terms of

Answer 6

1) richness (number of elements)
2) evenness (equitability of elements)
3) heterogeneity (disparity in element form and function)

Question 7

What are the biodiversity elements usually measured?

Answer 7

• taxonomic species or subspecies
• phylogenetic species
• ecological functions

Question 8

What are the 3 main ways of measuring variability in space?

Answer 8

1) alpha diversity
2) beta diversity
3) gamma diversity

Question 9

Describe alpha diversity

Answer 9

pool of local species or other element

Question 10

Describe beta diversity

Answer 10

turnover of species among sites

Question 11

Describe gamma diversity

Answer 11

pool of region species

Question 12

Describe the elevational diversity gradient

Answer 12

• changes in species richness with increasing altitude in mountains (e.g. Mt Kilimanjaro)
• many taxa peak at mid-altitudes

Question 13

Describe clades of great biodiversity

Answer 13

• Lake Malawi cichlids
• Heliconid butterflies in Central and South America

Question 14

Describe clades of little biodiversity

Answer 14

• Lake Malawi tiger fish
• Cethosia butterflies in SE Asia

Question 15

Tropics

Answer 15

cradle a museum of young and old species

Question 16

LDG

Answer 16

geographical variation in species richness

Question 17

List 3 hypotheses for the LDG

Answer 17

1) area-based (spatial) hypothesis
2) evolutionary hypothesis
3) biotic hypothesis

Question 18

What are the factors that affect biodiversity geographically?

Answer 18

• area
• climate stability
• solar radiation
• ambient temperature

Question 19

How does area affect biodiversity?

Answer 19

• large continents in the Southern Hemisphere have more space with more niches, and more opportunities for diversification
• they also exhibit larger populations with lower rates of extinction

Question 20

How does climate stability affect biodiversity?

Answer 20

stable, predictable resources allow for specialisation and hence speciation

Question 21

How does solar radiation affect biodiversity

Answer 21

provides more energy for higher NPP, resulting in more resources, niches and opportunities for speciation

Question 22

How does ambient temperature affect biodiversity?

Answer 22

higher ambient temperatures entail faster rates of evolution via higher mutant rates, faster physiological processes, faster rates of evolution and hence speciation

Question 23

How does biodiversity beget biodiversity

Answer 23

• more species
• more complex species-interactions (host-pathogen, predator-prey)
• more co-evolution
• more speciation

Question 24

phylogenetic trees have revealed

Answer 24

no correlation between age of lineage and number of species

Question 25

List some hypothesis for phylogenetic variation in species richness

Answer 25

• life-history trait variation
• biogeographical factors

Question 26

Describe how life-history trait variation affects phylogenetic variation in biodiversity

Answer 26

certain life history traits (such as dispersal) predispose lineages to radiate

Question 27

Describe how biogeographical factors affects variation in phylogeny in biodiversity

Answer 27

• isolate populations from one another
• slows geneflow
• allows divergence and speciation to begin

Question 28

Phylogenetic variation in species richness arises from

Answer 28

combinations of stochastic and deterministic factors

Question 29

Describe biodiversity in South America

Answer 29

• most biodiverse content
• landscape change primary driver of diversification
• poor dispersal capacity of many species amplifies biogeographical effects

Question 30

List some concepts that biodiversity is confused with

Answer 30

• nature
• wildlife
• natural resources
• ecosystem services
• green infrastructure
• the biosphere

Question 31

Define nature

Answer 31

the world’s natural living and non-living features not created by humans

Question 32

biodiversity short definition

Answer 32

• the variety of the living components of nature (all living organisms)
• the diversity of life within the biosphere

Question 33

Define wildlife

Answer 33

well-known wild mammals and birds

Question 34

Define natural resources

Answer 34

materials or substances occurring in nature that can be exploited for economic gain
- may be renewable, and derived from living resources (e.g. timber, bushmeat, firewood)
- may be finite, and derived from inanimate sources (e.g. oil and gas, minerals)

Question 35

Biodiversity secures

Answer 35

the long term production of natural resources

Question 36

Define ecosystem services

Answer 36

flows of benefits that people gain from natural ecosystems

Question 37

Describe the relationship between biodiversity and ecosystem services

Answer 37

• strengthening and sustaining with resilience
• increased productivity and efficiency
• allows continuation in the long term

Question 38

Define green infrastructure

Answer 38

network of natural and semi-natural features that provide benefits to people such as reduced air pollution, managed rainwater run-off and recreational facilities

Question 39

List some green infrastructure

Answer 39

• hedgerows
• rivers
• green roofs
• parklands

Question 40

Describe the relationship between biodiversity and green infrastructure

Answer 40

• more resilient
• greater continuation potential

Question 41

Fine the biosphere

Answer 41

the part of the Earth’s system comprising all ecosystems and living organisms: the living layer of the planet

Question 42

Why is it important to define biodiversity correctly?

Answer 42

• avoid false narratives
• avoid reductionism
• measurement
• monitoring
• conservation prioritisation

Question 43

Describe species recognition in animals

Answer 43

• 1,371,500 described species
• 11million predicted top

Question 44

Describe species recognition in fungi

Answer 44

• 100,000 described species
• 10 million predicted top

Question 45

Describe species recognition in plants

Answer 45

• 307,700 described
• 450,000 predicted top

Question 46

List some ecosystem services

Answer 46

• clean water
• fish
• wood
• pollination
• cool temperatures
• control flooding
• purify water
• store carbon
• clean air
• education
• recreation
• aesthetic
• stewardship
• habitat
• biodiversity
• photosynthesis
• soil formation
• food

Question 47

What are 4 contributions of ecosystem services

Answer 47

• provisioning
• regulating
• cultural
• supporting

Question 48

Describe the effects of biodiversity

Answer 48

• increases the efficiency and stability of ecosystem functions
• improves the flow of very valuable ecosystem services

Question 49

How does biodiversity increase the efficiency and stability of ecosystem functions?

Answer 49

• increased plants, detritivores, herbivores and predators
• non-linear saturating effects
• impacts across trophic levels

Question 50

List some ecosystem functions

Answer 50

• resource capture
• biomass production
• decomposition
• nutrient recycling

Question 51

Describe resilience

Answer 51

the capacity of a system to resist and recover from perturbation

Question 52

Biodiversity buffers against

Answer 52

change, and enables ecosystems to resist and recover

Question 53

Describe connectivity

Answer 53

allows for migration and range shifts to track moving ecological niches as an adaptive response to climate change

Question 54

Describe diversity

Answer 54

species richness safeguards evolutionary potential
- diversity, functional redundancy and abundance increase resilience

Question 55

Biodiverse connected ecosystems accommodate

Answer 55

• climate extremes
• pathogens
• migration from forests and grasslands

Question 56

Describe Panama resilience expts

Answer 56

• one-species plot growth is strongly regulated by climate events
• higher mortality during 4 year drought

Question 57

Describe resilience expts in the USA and Europe

Answer 57

• productivity of low-diversity communities (1-2spp) changed by 50% during climate events
• high-diversity communities (16-32spp.) changed 25%

Question 58

Describe resilience expts in Western Ghats, India

Answer 58

• greater stability of carbon capture in species-rich natural forests compared to species-poor plantations
• rate C capture in plantations 29% lower in dry season compared to natural forest plots

Question 59

Valuate ecosystem services

Answer 59

<125 trillion US$ per annum

Question 60

Valuate Amazonian rainfall

Answer 60

• 20Bn tonnes per day
• fuel agricultural economy of c.240Bn US$ in Latin America

Question 61

Valuate pollination services

Answer 61

• £1.25Bn globally
• £690M in UK