Climate and Life on Earth V: Global change - biodiversity in the Anthropocene 2

Question 1

Describe the mutli-level loss of biodiversity

Answer 1

• species-level
• population-level
• ecosystem-level

Question 2

Describe species-level loss of biodiversity

Answer 2

global and local extinctions

Question 3

Describe population-level loss of biodiversity

Answer 3

declines and extinction

Question 4

Describe ecosystem-level loss of biodiversity

Answer 4

loss of wilderness and biotic homogenization

Question 5

Describe the global rate of species extinction

Answer 5

10-100x higher than average rate over the past 10 million years, and is accelerating

Question 6

Describe declines in abundance of mammals, birds, reptiles, amphibians and fish since 1970s

Answer 6

• 60%
• 16,704 populations
• representing 4,005 species
• 23% in the Nearctic
• 89% in the Neotropics

Question 7

What is Biodiversity Intactness Index [BII]

Answer 7

= average abundance of originally present species across a broad range of species, relative to abundance in an undisturbed habitat

Question 8

Describe BII

Answer 8

• translucent bars indicate the corresponding relative biodiversity values if novel species are treated as equivalent to those originally present
• numbers can surpass 100% because gains may outnumber losses)

Question 9

List some ways of capturing biodiversity loss

Answer 9

• ecosystem extent and condition
• species extinction risk
• ecological communities
• biomass and species abundance
• nature for indigenous peoples and local communities

Question 10

Describe ecosystem extent and conditions

Answer 10

declination relative to earliest estimated states (currently 47%)

Question 11

Describe species extinction risk

Answer 11

25% in most animal and plant groups studied

Question 12

Describe ecological communities

Answer 12

• biotic integrity
• declined by 23% average in terrestrial communities

Question 13

biotic integrity

Answer 13

the abundance of naturally-present species

Question 14

Describe biomass and species abundance

Answer 14

• global biomass of wild mammals fallen by 82%
• vertebrate abundance declined rapidly since 1970

Question 15

Describe nature for indigenous peoples and local communities

Answer 15

72% of indicators show ongoing deterioration of important cultural elements

Question 16

List some direct drivers of decline

Answer 16

• land/sea use change
• direct exploitation
• climate change
• pollution
• invasive alien species

Question 17

List some indirect drivers of decline (values and behaviours)

Answer 17

• demographic and sociocultural
• economic and technological
• institutions and governance
• conflicts and epidemics

Question 18

What is the biggest driver of decline

Answer 18

• habitat degradation/loss
• commodity-driven deforestation in the tropics

Question 19

Describe deforestation

Answer 19

• 50% Earth’s species live in tropical forests
• ~9 million hectares forest lost / year

Question 20

Describe the indirect effects of deforestation

Answer 20

• climate change: 13% of total GHG emissions
• loss of agricultural productivity: triggers major shifts in rainfall and increased temperatures worldwide
• increased conversion of forest to agriculture to compensate

Question 21

Describe the effects of increasing temperatures in the tropics

Answer 21

• generates large upward-moving air masses
• cause teleconnections that flow outward

Question 22

teleconnections

Answer 22

ripples in the upper atmosphere

Question 23

List some drivers of tropical deforestation

Answer 23

• industrial animal agriculture is main driver
• beef > soy (for fodder) > palm oil > timber > paper products
• beef = >67% deforestation

Question 24

List some ‘forest risk’ commodities

Answer 24

palm oil, soya, beef, leather, timber, and pulp and paper.

Question 25

Describe fishing

Answer 25

• c. 100 mt of animal biomass harvested from the ocean each year
• c. 6Bn tonnes of fish and invertebrates have been taken from the world’s oceans since 1950
• 75% of the major marine fish stocks currently depleted, or overexploited
• 70,000 reported industrial fishing vessels cover >55% of the oceans
• smaller fisheries involve > 100 Mn people
• huge population declines, but few extinctions so far (except in reefs)

Question 26

Define climate change

Answer 26

the large-scale, long-term shift in the planet’s weather patterns or average temperatures

Question 27

Give some evidence for climate change

Answer 27

• higher global air and sea temperatures
• changing patterns of rainfall
• retreating glaciers
• declining sea ice in the Artic
• declining ice sheets in Greenland and Antarctic
• sea level rise
• increased frequency and intensity of extreme events
• changes in nature: timing of life cycle events and shifts in ranges

Question 28

Describe climate change

Answer 28

• since 1900, global average surface temperature has increased by 1 °C (2019 average: 1.11 +/-0.1 °C, Met Office)
• since 2000, 18 of 19 hottest years recorded since 1850 have occurred
• since 1900, sea levels have risen by c.10 cm around UK and c.19 cm globally, with the rate of sea-level rise increasing in recent decades
• predicted extinction risks from climate change accelerate with global temperature rise

Question 29

List some causes of climate change

Answer 29

• anthropogenic
• non-anthropogenic, natural

Question 30

Describe some anthropogenic factors causing climate change

Answer 30

• increased concentration of GHGs
• pollution: ozone and aerosols
• land-use change (direct impacts on reflectance)

Question 31

Describe some non-anthropogenic factors causing climate change

Answer 31

• El Niño (release of heat from Pacific ocean)
• changes in Earth’s orbit (inc. insolation)
• sun spots (inc. insolation)
• volcanic activity (inc. re-radiation)

Question 32

When the environment changes, organisms either

Answer 32

• change behaviour (e.g. in phenology – breed earlier)
• move (e.g. niche tracking – head north, move upslope)
• adapt (e.g. change phenotype)
• go extinct…

Question 33

Describe species changing behaviour in response to climate change

Answer 33

• since ‘60s, many European and N American bird species breeding 8-10 days earlier
• since 1970, 70% California butterfly species have advanced first flight date by 24 days

Question 34

Describe species movement in response to climate change

Answer 34

• since 1972, >50% European birds, butterflies & dragonflies shifted ranges 20-240 km north
• colonisation of temperate zone with subtropical flora & fauna
• bird range and tree lines shifting ranges upslope (Andes, Himalayas)

Question 35

Why do species go extinct under climate change?

Answer 35

• nowhere to go: habitat fragmentation, isolated on mountain tops
• spatial and temporal mismatches: different spp. change or move at different rates; asynchronies between predators and prey, etc
• species enter range of novel pathogens or predators
• rate of environmental change faster than rate of evolutionary change

Question 36

Discuss some extinctions linked to climate change

Answer 36

• mountain restricted species

Question 37

Discuss a mountain restricted species linked to climate change

Answer 37

harlequin frogs (67% species extinct)

Question 38

Describe coral reef extinction

Answer 38

• coral reefs bleach (increased sea surface temp.)
• 16% extinct species during 97-98 el Niño
• 95% of Great Barrier Reef surveyed with >30% bleaching during 2016-2017 el Niño (as yet unknown impact on extinction)

Question 39

around … of population declines driven by climate change alone

Answer 39

7%

Question 40

Biggest biodiversity impacts come from

Answer 40

combined effects of climate and land use change

Question 41

RCP =

Answer 41

relative concentration pathways (emissions scenarios used by the IPCC)

Question 42

Predicted extinction risks from climate change

Answer 42

accelerate with global temperature rise

Question 43

Describe the governmental action to tackle climate change

Answer 43

• decarbonize
• scale-up conservation and restoration of natural ecosystems: incentivise ecosystem stewardship
• stop subsidizing bad practice
• tax/penalise harm to the biosphere and climate system
• take the value of nature into account when making decisions: national and company accounting, replace GDP with metrics that prioritise wellbeing over material wealth

Question 44

Describe decarbonisation

Answer 44

incentivize renewables, tax fossils

Question 45

bad environmental practice

Answer 45

big oil, coal, over-exploitation of lands and seas

Question 46

How can businesses tackle climate change

Answer 46

• decarbonize
• eliminate deforestation and other destructive practices from supply chains
• invest in nature and renewables

Question 47

Give some examples of businesses engaging with climate good practice

Answer 47

• pledges for zero deforestation in supply chains (e.g. Wilmar, Asia Pulp & Paper, Cargill)
• 870+ companies developing GHG emission reduction targets
• across-the-board investment in renewable power generation
• pledges to invest in nature-based solutions
• nature-positive economy
• Taskforce for Nature-related Financial Disclosure (TNFD)

Question 48

What can individuals and communities to tackle climate change

Answer 48

• diet change: plant-based
• decarbonise purchases and travel
• hold governments to account
• spread the word
• conduct and communicate good research

Question 49

Describe the research necessary

Answer 49

• natural science underpinning biodiversity’s influence over ecosystem functions and properties
• social science underpinning values and valuations

Question 50

Describe forests

Answer 50

• produce oxygen
• regulate hydrological cycles
• moderate climates
• store carbon
• monocultures may be more vulnerable to disease and potentially less able to withstand changing environmental conditions
• tree diversity stabilises the system
• generated through density-dependent processes such as those mediated by disease and herbivory
• made possible by the pollination of flowers and dispersal of seeds by numerous specialized organisms
• much of the diversity of microbes, pathogens, insects, birds and mammals in the forest system is not directly generating services to humanity, it is supplying something more fundamental by allowing the ecosystem to regenerate in perpetuity, and to withstand and recover from disease and environmental change

Question 51

Biodiversity is structured by biodiversity services

Answer 51

(i) community assembly
(ii) interaction networks
(iii) nutrient transfer
(iv) biogeochemical cycling

Question 52

biodiversity services

Answer 52

• underpin and determine the stabiility, resilience, magnitude and efficiency of the functions and properties of ecosystems

Question 53

community assembly

Answer 53

biotic and abiotic interactions (including environmental filtering, competition and host–parasite interactions) which together determine the distribution of species and their abundance in communities

Question 54

interaction networks

Answer 54

architecture of mutualistic and antagonistic interactions underlying pollination, seed dispersal, predator–prey cycles, etc.

Question 55

nutrient transfer

Answer 55

breakdown of nutrients and transfer across the environment

Question 56

biogeochemical cycling

Answer 56

cycling of chemicals, e.g. C, N, through the biosphere and lithosphere

Question 57

Describe ecosystem service valuation

Answer 57

• intrinsic and instrumental values When economic valuation is done correctly (i.e. robust assessment and weighting of values), the outcome is green environmental policy (left, green arrow implying positive effects on biodiversity and ecosystems) that leads to environmental conservation, restoration, protection and sustainable practice.

Question 58

instrinsic

Answer 58

cannot be valued economically

Question 59

instrumental

Answer 59

contribute to human welfare in many and varied direct and indirect ways