6.3.2 - Ecosystems

Question 1

Ecosystem

Answer 1

All the interactions between the living and non-living components in a defined area

Question 2

Biome

Answer 2

Large ecosystem

Question 3

Open ecosystem

Answer 3

When living things can move between ecosystems

Question 4

Closed ecosystems

Answer 4

When living things can move between ecosystems e.g. islands

Question 5

Niche

Answer 5

Role of a particular species

Question 6

Biotic

Answer 6

Involves other living organisms

Question 7

Biotic factors affecting ecosystems

Answer 7

Predators
Food supply (prey)
Disease 
Cooperation between species 
Competition between species

Question 8

Abiotic factors affecting ecosystems

Answer 8

pH
Conc of pollutants 
Temp  (climatic)
Moisture/ rainfall/ relative humidity 
O2 level
Soil type (edaphic)
Light intensities

Question 9

How does low light intensity affect the ecosystem

Answer 9

Plants develop photosynthetic pigments that require less light
Grow larger leaves
Reproductive systems that only work in optimum light intensities

Question 10

How does temp affect the ecosystem

Answer 10

Temp has the biggest effect on enzymes in the organisms that live in the ecosystem
May trigger migration/ hibernation
Dormancy/ leaf fall/ flowering in plants

Question 11

How are ecosystems organised

Answer 11

In trophic levels

Question 12

Producers in an ecosystem

Answer 12

Lowest trophic level

Involves autotrophs, chemotrophs and photoautotrophs

Question 13

Autotrophs

Answer 13

Convert energy from environment into complex organic matter, then are used as respiratory substrates or for growth

Question 14

Chemo/photoautotrophs

Answer 14

Use light/ chemicals to convert small inorganic molecules into complex organic ones

Question 15

Consumers

Answer 15

Higher/est trophic levels
Feed on complex organic matter made by autotrophs and other organisms and use the products of digestion as respiratory substrates or for growth
1’<2’<3’

Question 16

Decomposers

Answer 16

Feed on waste or dead organsims to gain energy by digesting and respiring organic matter
Recycling - returns inorganic ions to the air/soil

Question 17

Why are ecosystems dynamic

Answer 17

Always changing due to many interlaced intearctions that any small change causes several others–> alters flow of biomass

Question 18

Types of changes in ecosystems

Answer 18

Cyclical -repeated change e.g. seasons, day/night
Directional - in one direction e.g.global warming, erosion
Unpredictable/ erratic - no rhythm or constant direction e.g. volcanic eruption

Question 19

Trophic level

Answer 19

Organism at which an organis feeds

Question 20

Components of an ecosystem

Answer 20

Habitat
Population
Community

Question 21

Habitat

Answer 21

Where an organism lives

Question 22

Population

Answer 22

Where all the members of a species living in some place at a given time

Question 23

Community

Answer 23

All the populations of diff species who live in some place at a given time, who can interact w/ each other

Question 24

Why are there fewer consumers at higher levels

Answer 24

Energy is lost at each trophic level so unavailable to organism at next trophic level, therefore there’s less energy available to sustain living tissue

Question 25

How is biomass lost

Answer 25

Cellular respiration - conversion to iorganisc molecules such as CO2 and H2O
Excretory materials
Indigestible matter
Not everything is fit for consumption e.g. bones
Transferred at metabolic heat (movement)

Question 26

Loss of biomass in endotherms vs ectotherms

Answer 26

Ectotherms use less energy in maintaing body heat so there is more biomass availabe

Question 27

Saprotrophs

Answer 27

Secrete extracellular enzymes onto dead/waste materials

Digest the materials into small molecules which are then absorbed and stored/respired

Question 28

Why is the producer efficiency v. low

Answer 28

Approx 90% of light is reflected, unusable wavelength and transmitted through leaf
Limiting factors
Energy used for photosynthetic reactions

Question 29

Succession

Answer 29

Progressive change in the structure and species composition in a community
Affects vegetation first but then brings about corresponding changes in bacteria, fungi, insects, birds and mammals

Question 30

Climax community

Answer 30

Final, stable community that exists after the process of succession has occurred
Usually woodland communities

Question 31

Deflected succession

Answer 31

Happens when succession is stopped/interfered w/ e.g. grazing so a plagioclimax develops as the species are stuck in that one stage of succession

Question 32

Pioneer species

Answer 32

Species that begin the process of succession, often colonising an area as the first living thing there

Question 33

Primary succession

Answer 33

If a community is developed from bare ground e.g. volcanic eruptions
Pioneer communities start succession —> conditions change (build up or organic material /nutrients) and other species succeed them
Larger plants continuously succeed small plants until a climax community is formed

Question 34

Secondary succession

Answer 34

Does not start from bare ground

Takes place on a previously colonised bt damaged/disturbed habitat

Question 35

Why are sand dunes helpful in terms of succession

Answer 35

Shows us the stages of succession in order of occurrence whereas usually we only see the current stage

Question 36

How does succession affect species diversity

Answer 36

Increases it however dominant species may outcompete the smaller species killing whole species off

Question 37

Weathering

Answer 37

Breakdown or decomposition of rock in situ

Question 38

How does weathering contribute to succession

Answer 38

Decomposition of rock
Increases soil depth/ charges soil composition
Favouring new species

Question 39

Calculating net primary production

Answer 39

Gross primary production = npp - products of respiration

Question 40

Calculating efficiency of energy transfer

Answer 40

net production/ food intake x 100

Question 41

Plagioclimax

Answer 41

Sub-climax community when succession has been deflected

Question 42

Ways to deflect succession

Answer 42

Mainly agriculture and human activity e.g. Grazing 
Burning 
Application of fetilisers 
Application to herbicide 
Exposure to excessive amounts of wind

Question 43

How does succession affect biomass

Answer 43

Increases it due to more organisms in the ecosystem

Question 44

Why should sub-climax communities be conserved

Answer 44

Higher species diversity than climaxx communities - still contain some sub-climax species and climax species
Results in conserving a much wider range of plants and animals that dont live in the climax community

Question 45

Pioneer species on sand dunes

Answer 45

Species that can tolerate salty water, lack of fresh water and stable sand e.g. sea rcket

Question 46

Pioneer species on bare rock

Answer 46

Algae and lichens as they don’t need to be anchored into the soil

Question 47

Increasing primary productivity

Answer 47

Some crops are planted early 
Irrigating crops 
Drought resistant crops 
Using greenhouses 
Crop rotation 
Fertilisers (provides inorganic ions)
Pesticides/ pest resistant crops

Question 48

How does planting some crops early increase primary productivity

Answer 48

Provides a longer growing season to harvest more light

Question 49

How does irrigating crops increase primary productiviy

Answer 49

Water is readily available for the light dependent stage of photosynthesis even when rainfall is below average

Question 50

How does growing crops in a greenhouse increases primary productivity

Answer 50

Provides a warmer temp —> increases the rate of photosynthesis

Question 51

How does crop rotation increase primary productivity

Answer 51

Stops reduction in soil levels of inorganic ions e.g. K^+ or NO3^-

Question 52

Crop rotation

Answer 52

Growing a diff. crop in each field on a rotational cycle

Question 53

How does use of pesticides increase primary productibity

Answer 53

Prevents loss of biomass and lowering yield of plant

Question 54

Why do plants need NH4+

Answer 54

Maintains pH

Question 55

Why do plants need NO3-

Answer 55

Part of the nitrogen cycle

Question 56

Function of K+ in plants

Answer 56

Improves growth of leaves

Question 57

Function of PO4 3- in pants

Answer 57

Improves growth of roots

Question 58

Increasing secondary productivity

Answer 58

Harvesting animals before adulthood
Selctive breeding 
Animals treated w/ antibiotics 
Zero grazing 
Keeping environmental temp constant - prevents energy loss through homeostasis

Question 59

How does harvesting animals before adulthood increase secondary productivity

Answer 59

Minimises loss of energy as younger animals invest a larger proportion of energy into their growth

Question 60

How does selective breeding increase secondary productivity

Answer 60

Produces improved animal breeds w/ faster growth, increased egg production and increased milk production

Question 61

Zero grazing

Answer 61

Bringig food directly to animals

Maximiises energy allocated to developing muscle by reducing need to move

Question 62

Processes in the carbon cycle

Answer 62

Photosynthesis 
Respiration (animals and plants) 
Anaerobic respiration (dead organic matter and excreta)
Fossilisation
Combustion
Diffusion and carbonic acid formation  
Diffusion
Decomposition
Feeding
Sedimentation

Question 63

Processes adding to atmospheric CO2

Answer 63

Respiration
Combustion
Diffusion frm the sea to the air

Question 64

Processes removing atmospheric CO2

Answer 64

Photosynthesis

Diffusion and carbonic acid formation in the ocean

Question 65

Sedimentation

Answer 65

CO2 is used by plankton to produce calcium carbonate shells. When these die, their shells sink to the ocean floor and are buried by sediment

Question 66

Fossilisation

Answer 66

Organic matter is buried and copressed over millions of years forming gas, coal and oil

Question 67

Human interferences that affect the carbon cycle

Answer 67

Combustion
Population size (respiration and waste)
Deforestation
Farming

Question 68

Effects of human interences w/ the carbon cycle

Answer 68

Global warming/enhanced greenhuse effect
Ocean acidification from carbonic acid 
Warmer sea - less CO2 absrbed 
Removing photosynthesisers 
Releasing more CO2 through combustion of trees

Question 69

Processes in the nitrogen cycle

Answer 69

Nitrification 
Assimilation 
Denitrification 
Nitrogen fixation by organic and non-living processes
Ammonification

Question 70

What is nitrogen fixing

Answer 70

Conversion of atmospheric nitrogen (N2) into nitrogen containing compounds

Question 71

Nitrogen fixing

Answer 71

Carried out by free living bacteria (Azobacter) and mtualistic bacteria (Rhizobium) in plant roots. Nitrogenase reduces N2 to NH3 to form amino acids
Atmospheric fixation
Haber process to make chemical fertilisers

Question 72

Atmospheric fixation

Answer 72

Converting nitrogen gas into nitrated by lightening. The energy from lightening breaks the N2 into atoms which cobine w/ oxygen and dissolve in rain

Question 73

Ammonification

Answer 73

Converting nitrogen containg compounds (e.g. urea from urine) to NH3
Carried out by decomposers

Question 74

Nitrification

Answer 74

Conversion of ammonium ions to nitrites (by Nitrosomonas) and then into nitrates (by Nitrobacter) by nitrifying bacteria (chemoautotrophs)

Question 75

Assimilation

Answer 75

Nitrates in the soil are absorbed from the soil by plants and algae. Animals then eat plants and assimilaye itrogen compounds too

Question 76

Denitrification

Answer 76

Conversion of soil ntrates to atmospheric nitrogen. Carried out by denitrifying bacteria in anaerobic conditions (e.g. waterlogged soil) who use the nitrates as the final e- acceptor in respiration instead of O2

Question 77

Human activities affecting the nitrogen cycle

Answer 77

Use of fertiliser - neutrification, algae use up all the oxygen

Question 78

Processes removing atmospheric nitrogen

Answer 78

Nitrogen fixation by bacteria
Atmospheric fixation
Haber process

Question 79

Processes adding to atmospheric nitrogen

Answer 79

Denitrification

Question 80

Similarities in nitrogen and carbon cycles

Answer 80

Involves plants and anials
Involves anerobic respiration (decomposers)
Both cycles involves atmospheric chemicals

Question 81

Differences in nitrogen and carbon cycles

Answer 81

Involves sea in cc
No fixation of CO2
Only uses organic processes in cc
N is fixed by bacteria vs on plants

Question 82

Use of transects

Answer 82

Look for changes in vegetation across a habitat

Question 83

Types of transects

Answer 83

Line

Belt

Question 84

Line transect

Answer 84

At reg. intervals

Note of which species are touching the tape

Question 85

Belt transect

Answer 85

At reg. intervals

Place a quadrat next to the line (interrupted belt transect) or move the quadrat along the line (continuous)

Question 86

Estimating pop. size

Answer 86

Mean number of a species in a quadrat/ faction of the total habitat area covered by a single quadrat

Question 87

Deciding how many samples to take

Answer 87

In a pilot study take random samples looking at species distribution
Plot quadrat number against cumulative frequency
When curve levels off use that number of quadrats