7. Ecology

Question 1

What is a habitat?

Answer 1

The place where an organism lives

Question 2

Examples of habitats?

Answer 2

• woodland
• grassland
• icecap

Question 3

What is a population?

Answer 3

All the organisms of one species living in a habitat

Question 4

Examples of populations?

Answer 4

• cattails

* wasps

Question 5

What is a community?

Answer 5

The populations of different species living in a habitat

Question 6

Example of a community?

Answer 6

all organisms within a pond

Question 7

What are biotic factors?

Answer 7

Living factors which can affect s community and therefore the distribution of organisms

Question 8

Examples of biotic factors?

Answer 8

• new predators arriving
• availability of food
• new pathogens
• competition between species

Question 9

What are abiotic factors?

Answer 9

Non-living factors which can affect a community

Question 10

Examples of abiotic factors?

Answer 10

• moisture levels
• light intensity
• temperature
• CO2 levels for plants
• wind intensity and direction
• O2 levels (aquatic)
• soil pH and mineral content

Question 11

What is an ecosystem?

Answer 11

The interaction of a community of living organisms (biotic) with the non-living (abiotic) parts of their environment

Question 12

Examples of ecosystems?

Answer 12

• rainforest
• arctic
• aquatic

Question 13

What is the interdependence?

Answer 13

When organisms are dependant on other organism within their community to survive and reproduce

Question 14

What might organisms depend on others for?

Answer 14

• food
• shelter
• pollination
• seed dispersal

Question 15

What is a stable community?

Answer 15

One where all the species and environmental factors are in balance so the population remains fairly constant

Question 16

How is the population of yarrow estimated?

Answer 16

size = total area / area of quadrat x mean number of yarrow per quadrat

Question 17

How does eutrophication occur?

Answer 17

1. Fertiliser released in pond
2. Algae multiply rapidly
3. Algae below surface can’t get light to photosynthesise
4. Algae die
5. Bacteria cause decay of algae
6. Bacteria multiply - respiration causes decrease in CO2 and fewer algae photosynthesising
7. Fish/organisms die

Question 18

What do field studies enable us to do?

Answer 18

Look at the distribution of organisms and the effects of environmental factors on this distribution

Question 19

Where do venus fly traps thrive?

Answer 19

Where nitrate ions are very low, because they can live in areas of boggy soil where nitrate ions are low and instead get their nitrate from their insect victims

Question 20

What are the sampling techniques used in field studies?

Answer 20

• random sampling - using quadrats, in areas where distribution is quite uniform
• systematic sampling - using transects, used to observe changes in distribution across areas of the habitat

Question 21

What type of sampling are quadrats used in?

Answer 21

Random sampling

Question 22

What type of sampling are transects used in?

Answer 22

Systematic sampling

Question 23

Where are quadrats used?

Answer 23

In places where distribution is quite uniform

Question 24

Where are transects used?

Answer 24

To observe changes in distribution across areas of the habitat

Question 25

How could you measure how common an organism is in 2 or more sample areas?

Answer 25

Using quadrats, and comparing them

Question 26

How could you study the distribution across an area?

Answer 26

By placing quadrats along a line known as a transect

Question 27

What is random sampling?

Answer 27

A way of estimating - it should be logical, without bias to get an accurate reading that is representative of the area

Question 28

What is the most common type of transect used?

Answer 28

A line transect

Question 29

What do plants and animals compete for?

Answer 29

Light, space, minerals from soil (plants), food, mates and territory (animals)

Question 30

What are the types of adaptation?

Answer 30

• structural
• behavioural
• functional

Question 31

What is structural adaptation?

Answer 31

Features of an organism’s body structure

Question 32

What is behavioural adaptation?

Answer 32

The way an organism behaves

Question 33

What is functional adaptation?

Answer 33

Processes within the organism

Question 34

Examples of structural adaptation?

Answer 34

• fur colour

* blubber

Question 35

Examples of behavioural adaptation?

Answer 35

• huddling
• migration
• display
• avoiding the sun

Question 36

Examples of functional adaptation?

Answer 36

• hibernating lowers metabolism which conserves energy

* conserving water by producing very little sweat

Question 37

What are the adaptations of a zebra?

Answer 37

• live in herds so it’s hard for predators to detect them

* run at speed of slowest member

Question 38

What are the adaptations of a penguin?

Answer 38

• wings like flippers to help them swim
• spikes in mouth help swallow live prey
• huddle to keep warm while keeping eggs warm
• swap place so none are on the outside the whole time
• streamlined body helps catch prey and escape predators

Question 39

What are the adaptations of a fennec fox?

Answer 39

• nocturnal to prevent dehydration

• big ears to hear predators and lose heat
• furry soles to stop feet burning on sand

Question 40

What are the adaptations of dragonflies?

Answer 40

• fly fast to avoid predators
• female eggs have gel like substance to help stick to rocks
• most of weight is muscle for strong flying

Question 41

What are the adaptations of great white sharks?

Answer 41

• rolls eyes back in socket at last minute before attack to protect self
• grow back teeth that fall out whilst making an attack
• streamlined for speed
• can detect drop of blood several in away by receptors in nose

Question 42

Why do some birds like swallows migrate?

Answer 42

To move from areas of low resources to areas of high resources

Question 43

Why do penguins huddle?

Answer 43

To conserve heat and shelter themselves from intense winds - decreases SA so less heat is lost

Question 44

Why penguins have a streamlined shape?

Answer 44

Allows them to swim fast in order to catch prey and escape predators and travel long distances

Question 45

Why do camels store fat in their humps?

Answer 45

Minimises heat trapping insulation throughout rest of body and get water and energy from respiration

Question 46

What do camels produce little urine and sweat?

Answer 46

To conserve water

Question 47

Why do cacti have spines instead of leaves?

Answer 47

To minimise SA to reduce water loss and defence against predators

Question 48

Why do some desert plants have widespread roots?

Answer 48

To collect water from a larger areas, during rainy seasons

Question 49

Why do mesquite trees have deep vertical tap roots?

Answer 49

To absorb water from deep down in the soil

Question 50

Why do arctic foxes have a thick coat?

Answer 50

To maintain a consistent body temperature because it is insulating and traps warm air

Question 51

Why do arctic foxes have a white coat?

Answer 51

Winter camouflage to hide from predators

Question 52

Why do arctic foxes have small ears?

Answer 52

To prevent heat loss by minimising SA exposed to cold air

Question 53

Why do arctic foxes have front facing eyes?

Answer 53

To catch prey and to sense distance and depth

Question 54

Why do walruses have a small surface area to volume ratio?

Answer 54

To lose less heat to the surroundings

Question 55

Why do walruses have a thick layer of blubber?

Answer 55

To insulate and help keep them warm in icy water

Question 56

Why does the coral snake have a highly venomous bite?

Answer 56

To kill and paralyse prey

Question 57

Why does the coral snake have red/yellow/black colouration?

Answer 57

Warning colouration

Question 58

What are extremophiles?

Answer 58

Organisms adapted to live in extreme conditions

Question 59

What extreme conditions do certain extremophiles live in?

Answer 59

extreme:

• temperatures
• salinity
• pH
• pressure
• nutrients
• O2 levels

Question 60

What do some micro organisms have that allow them to survive hot volcanic vents, hot springs etc?

Answer 60

They have thermostable enzymes which don’t denature at high temperatures

Question 61

Features of ice fish?

Answer 61

• found in Antarctica

* have no haemoglobin but enlarged heart and large blood vessels

Question 62

Features of water bears?

Answer 62

• survive long periods of desiccation

Question 63

Where do many tardigrades live?

Answer 63

In water

Question 64

Where do you find tardigrades on land?

Answer 64

Where there’s moss or lichen

Question 65

What is the process of one organism feeding on another?

Answer 65

The food chain

Question 66

What is cycling?

Answer 66

Where materials are recycled

Question 67

What happens to the materials taken up from the environment by plants?

Answer 67

They are returned to the environment and recycled to provide building blocks for future organisms

Question 68

What materials are cycled through the biotic and abiotic components of an ecosystem?

Answer 68

• carbon
• water
• nitrogen

Question 69

Where is carbon present?

Answer 69

In all organisms

Question 70

What is the carbon cycle?

Answer 70

The constant cycling of carbon

Question 71

How does the carbon cycle work?

Answer 71

• plants and algae remove CO2 from the environment for photosynthesis
• this carbon is incorporated into the compounds (carbohydrates, fats, proteins) in plants and algae
• some of the CO2 is returned to the atmosphere when plants and algae respire
• algae and plants are eaten by animals -animals eat each other - carbon is incorporated into the compounds (carbohydrates, fats, proteins) that make up their bodies
• animals respire and release CO2
• when animals, plants and algae die detritus feeders and decomposers feed on their bodies
• CO2 is released when detritus feeders and decomposers respire
• combustion releases CO2

Question 72

What are the different consumers in the food chain?

Answer 72

Producer -> primary consumer -> secondary consumer -> tertiary consumer

Question 73

Example of a producer in the food chain?

Answer 73

Maize

Question 74

Example of a primary consumer in the food chain?

Answer 74

Locust

Question 75

Example of a secondary consumer in the food chain?

Answer 75

Lizard

Question 76

Example of a tertiary consumer in the food chain?

Answer 76

Snake

Question 77

What organisms break down waste products to recycle them?

Answer 77

Decomposers (bacteria and fungi) and detritus feeders (detrivores)

Question 78

What is released when detrivores and decomposers respire?

Answer 78

CO2

Question 79

What does combustion of wood and fossil fuels release into the atmosphere?

Answer 79

CO2

Question 80

When carbon is incorporated into compounds in plants, algae and animals, what form does it take?

Answer 80

• carbohydrates
• fats
• proteins

Question 81

What is the water cycle?

Answer 81

The changes to water when it evaporates into the air, condenses in clouds and then precipitates down to Earth

Question 82

What is evaporation?

Answer 82

The process that occurs when water changes from a liquid to gas caused by heat

Question 83

What is transpiration?

Answer 83

The passage of water vapour from a plant to the atmosphere

Question 84

What is condensation?

Answer 84

The cooling of water in the atmosphere changing gas to a liquid

Question 85

What is precipitation?

Answer 85

Water droplets fall from the atmosphere in the form of rain, sleet, snow or hail

Question 86

What is percolation?

Answer 86

When water trickles through gaps in soil and rocks

Question 87

What is run off?

Answer 87

Rainfall that is not absorbed by soil and travels to the ocean

Question 88

What is the water cycle responsible for?

Answer 88

Distributing water across the earth through evaporation, condensation and precipitation

Question 89

Where is water important?

Answer 89

• solvent - transport medium for solutes
• transpiration stream - column of water moved up the xylem
• osmosis - vital for uptake and movement of water
• expands on freezing - ice floats, insulating organisms in water below
• metabolic functions - required for photosynthesis, produced in respiration
• lubricant - synovial fluid
• support - amniotic fluid, buoyancy for large aquatic animals
• thermoregulation - evaporation of water cools us down, large bodies of water are thermostable

Question 90

Why is water needed as a solvent?

Answer 90

As a transport medium for solutes

Question 91

Why is water needed in the transpiration stream?

Answer 91

To move water up the xylem

Question 92

Why is water needed for osmosis?

Answer 92

Vital for uptake and movement of water

Question 93

Why is water needed to expand on freezing?

Answer 93

Ice floats, insulating organisms in water below

Question 94

Why is water needed for metabolic functions?

Answer 94

Required for photosynthesis, produced in respiration

Question 95

Why is water needed as a lubricant?

Answer 95

Synovial fluid - between joints

Question 96

Why is water needed for support?

Answer 96

As amniotic fluid, and buoyancy for large aquatic animals

Question 97

Why is water needed for thermoregulation?

Answer 97

Evaporation of water cools us down; large bodies of water are thermostable

Question 98

What organisms help to decompose biological material?

Answer 98

• detrivores

* decomposers

Question 99

What are some examples of decomposers?

Answer 99

Bacteria and fungi

Question 100

What are detrivores also known as?

Answer 100

Detritus feeders

Question 101

Why is decomposition vital to the ecosystem?

Answer 101

It is vital for the recycling of materials

Question 102

Examples of detrivores?

Answer 102

Woodlice and earthworms

Question 103

What role do detrivores play in decomposition?

Answer 103

Starting the process of decay by breaking plant tissue into much smaller pieces

Question 104

What effect do detrivores have by breaking plant tissue into smaller pieces?

Answer 104

They increase surface area for the action of decomposers

Question 105

What do detrivores break into smaller pieces?

Answer 105

Plant tissue

Question 106

What are decomposers (microorganisms)?

Answer 106

The bacteria and fungi that make things rot

Question 107

What do decomposers (microorganisms) do?

Answer 107

Release enzymes into the dead animal or plant

Question 108

What do enzymes released by decomposers do?

Answer 108

They break down large compounds into smaller soluble ones so they can be absorbed by decomposers

Question 109

What comes first in the process of decomposition - microorganisms (decomposers) or detrivores?

Answer 109

Detrivores

Question 110

What factors affect the rate of decay?

Answer 110

• temperature
• availability of water
• availability of oxygen

Question 111

How do bacteria and fungi cause decay?

Answer 111

By secreting enzymes which break down biological material

Question 112

What do microorganisms specifically release during decomposition?

Answer 112

• mineral ions

* carbon dioxide

Question 113

Why do dead animals and plants decay more quickly at higher temperatures?

Answer 113

• as temperature increases, rate of reaction increases - the enzymes secreted by decomposers work better at higher temperatures -> more energy -> more collisions between enzymes and substrates
• if temperature is too high enzymes will denature and decay will stop

Question 114

Why do dead animals and plants decay more quickly when more oxygen is available?

Answer 114

detrivores and decomposers are causing this decay -> they need oxygen to respire

Question 115

Why do dead animals and plants decay more quickly in moist conditions?

Answer 115

Water is needed for metabolic processes

Question 116

What type of process is the souring of milk?

Answer 116

Fermentation; takes places in the absence of oxygen

Question 117

What do bacteria in pasteurised milk do?

Answer 117

Breakdown lactose to form lactic acid - which lowers pH so milk tastes sour

Question 118

In the required practical, why will the pH of the milk fall?

Answer 118

Due to the production of fatty acids

Question 119

In the required practical, what is used to speed up the process of fermentation?

Answer 119

Lipase

Question 120

What is the difference between the model and the natural decay of milk?

Answer 120

• the model uses lipase -> pH decreases due to fatty acids

* natural decay -> pH decreases due to lactic acid

Question 121

What is cresol red?

Answer 121

An indicator that is purple in alkaline solutions but when pH drops below 8.3 it becomes yellow

Question 122

What colour is cresol red in alkaline solutions?

Answer 122

Purple

Question 123

When will the cresol red indicator turn yellow?

Answer 123

When pH drops below 8.3

Question 124

Examples of organic material that can be composted?

Answer 124

• waste food
• vegetable peelings
• paper
• leaves/grass cuttings

Question 125

What is released during the composting process?

Answer 125

Carbon dioxide from respiration

Question 126

What is compost used for?

Answer 126

A natural fertiliser for plants or crops

Question 127

What does composting do?

Answer 127

Recycles nutrients back into the soil, improving crop growth

Question 128

How do farmers provide optimum conditions for rapid decay of biological matter?

Answer 128

• warmth - keep in the sun
• moisture - sprinkle water on if dry, cover in plastic cover to hold in moisture
• air - turn over compost with rake to keep aerated

Question 129

What could happen if compost overheats?

Answer 129

Could cause methane to be produced instead of just carbon dioxide

Question 130

Examples of where decay micro organisms are useful?

Answer 130

• compost
• gardeners putting manure on their roses etc.
• farmers decaying waste animal matter produced on farm
• sewage works

Question 131

What is produced in anaerobic digestion?

Answer 131

Biogas

Question 132

What is biogas?

Answer 132

A flammable mixture of gases

Question 133

How is biogas formed?

Answer 133

When bacteria break down plant or animal waste material in anaerobic conditions

Question 134

What is biogas composed of?

Answer 134

Mainly methane - it varies depending on what is put into generator and what bacteria are present

Question 135

What does the composition of biogas depend on?

Answer 135

• what is put into the generator

* which bacteria are present

Question 136

What is the optimum temperature for bacteria in a biogas generator?

Answer 136

30*C

Question 137

Why do biogas generators generate heat?

Answer 137

The reactions are exothermic

Question 138

Inputs to biogas generators?

Answer 138

• animal dung
• farm waste
• garden waste

Question 139

Outputs of biogas generators?

Answer 139

• methane for cooking, heating or refrigeration

* slurry - can be used as fertiliser

Question 140

Why do biogas generators work best in hot countries?

Answer 140

They work best at 30*C

Question 141

Why are many biogas generators sunk into the ground?

Answer 141

For good insulation

Question 142

Advantages of the floating draw biogas generator?

Answer 142

• easy construction
• easy to operate
• steady gas pressure produced
• reliable - well trialed technology

Question 143

Disadvantages of the floating draw biogas generator?

Answer 143

• metal holder is expensive

* metal holder may rust

Question 144

Advantages of the fixed dome biogas generator?

Answer 144

• initial cost low
• well insulated
• long useful life - no moving or rusting parts

Question 145

Disadvantages of the fixed dome biogas generator?

Answer 145

• gas pressure fluctuates

* sealing of the gas holder is not always right

Question 146

Which changes in the environment can impact the distribution of species within an ecosystem?

Answer 146

• a change in the availability of water
• a change in temperature
• a change in the composition of atmospheric gases

Question 147

How may changes in the environment come about?

Answer 147

• naturally - seasonal, geographical changes

* due to human activity

Question 148

What is the general impact that humans have on the land?

Answer 148

More resources are used, more waste is produced

Question 149

What happens if waste is not handled appropriately?

Answer 149

It may cause pollution of air, water and land

Question 150

Why is there exponential growth of the human population?

Answer 150

• lack of predators
• advances in medicine
• increased efficiency of food production
• modern farming methods which increase productivity etc.

Question 151

What is water pollution caused by?

Answer 151

• fertilisers
• toxic chemicals
• sewage

Question 152

How do humans reduce the amount of land available for other animals?

Answer 152

By:

• building
• quarrying
• farming
• dumping waste

Question 153

What happens when fossil fuels are burned?

Answer 153

Acidic gases and smoke are released and pollute the air

Question 154

What can burning fossil fuels lead to?

Answer 154

Breathing problems, and the formation of acid rain

Question 155

What is smog?

Answer 155

A haze of small particles and acidic gases that can be seen in the air in cities

Question 156

What can smog be made of?

Answer 156

• sulphur dioxide
• nitrogen oxides

etc.

Question 157

What are some pollutants from fuels that are in the atmosphere?

Answer 157

• sulphur dioxide
• particulate matter
• nitrogen oxides

Question 158

How do fertilisers cause water pollution?

Answer 158

• fertiliser drains through soil into water so algae grow

* when algae die the bacteria in the water increases and use the oxygen up, killing the fish

Question 159

What is the process called that means fertiliser can cause water pollution?

Answer 159

Eutrophication

Question 160

How do toxic chemicals cause water pollution?

Answer 160

Can pollute water and kill animals and plants, reducing biodiversity

Question 161

How can sewage cause water pollution?

Answer 161

• can cause an increase in the number of bacteria in the water
• bacteria remove oxygen for respiration and organisms die

Question 162

Where may land pollution come from?

Answer 162

• landfill

* toxic chemicals from industry and households

Question 163

Examples of some non-renewable energy resources that are being used up?

Answer 163

• uranium
• natural gas
• propane
• coal

Question 164

Why is land pollution a problem?

Answer 164

• pest resurgence
• reduction in wild flower biodiversity
• persist in environment = long term damage
• affect top carnivore if persists in food chain

Question 165

How can pest resurgence be caused by land pollution?

Answer 165

Land pollution may kill insects such as predators of the pest

Question 166

How can reduced flower biodiversity be caused by land pollution?

Answer 166

Land pollution may kill wild plants which act as food plants for beneficial insects

Question 167

When does bioaccumulation occur?

Answer 167

When toxic chemicals such as pesticides are taken up by predators in the food chain

Question 168

How do toxins get passed in the food chain to cause bioaccumulation?

Answer 168

From the primary consumers to the secondary and tertiary etc.

Question 169

Why does a toxin accumulate in larger amounts further down the food chain?

Answer 169

Organisms consume larger numbers of the organism below them in the food chain

Question 170

What happens when acid rain reaches the earth?

Answer 170

It flows across the ground in surface runoff, enters water systems and sinks into the soil

Question 171

How does acid rain occur?

Answer 171

• gases from combustion of fossil fuels are released into the atmosphere (e.g. sulphur dioxide, nitrogen dioxides)
• the wind spreads the acidic gases over 100s of miles
• acidic gases are dissolved in the rain and snow
• plants, animals and lakes are damaged by acid rain

Question 172

What effects does acid rain have?

Answer 172

• makes waters acidic - increased aluminium in the water - killing aquatic animals
• damages forests - leaches mineral ions out of soil and aluminium is released into the soil - leaves damaged

Question 173

How does acid rain affect aquatic animals?

Answer 173

• waters are made acidic

* (toxic) aluminium in the water - enters lakes and streams - kills aquatic animals

Question 174

How does acid rain affect forests?

Answer 174

• leaches essential mineral ions out of soil
• releases (toxic) aluminium into the soil
• leaves directly damaged

Question 175

What is the meaning of biodiversity?

Answer 175

The variety of all the different organisms on earth, or within an ecosystem

Question 176

Why is having high biodiversity important?

Answer 176

It ensures the stability of ecosystems - because it reduces the dependence of one species on another for food and shelter

Question 177

How does global warming occur?

Answer 177

• energy from the sun is absorbed by earth
• normally the sun radiates the energy back out of the atmosphere
• greenhouse gases absorb the energy
• some energy is radiated back to earth
• results in global warming

Question 178

What are the consequences of global warming?

Answer 178

• rising sea levels leading to habitat loss
• changes in distribution of organisms
• changes to migration patterns
• less biodiversity

Question 179

How does global warming make sea levels rise and lead to habitat loss?

Answer 179

• sea warms and expands so sea level rises
• also makes ice melt so water trapped on land runs into the sea e.g. glaciers
• leads to flooding in low-lying areas

Question 180

How does global warming cause changes to the distribution of organisms?

Answer 180

• some species become more widely distributed if they need warmer temperatures and can thrive over a larger area
• some species that need cooler temperatures have smaller ranges and can thrive over smaller areas

Question 181

How does global warming cause a change in migration patterns?

Answer 181

animals (e.g. birds) migrate

• for example, birds in Africa moving back to summer breeding grounds earlier than before

Question 182

How does global warming cause reduced biodiversity?

Answer 182

Some species may not be able to adapt to a change in climate - won’t survive and become extinct

Question 183

How does an increase in human population affect development and therefore land use?

Answer 183

Increased human population leads to increased development and there increased land use

Question 184

What are the main reasons for deforestation?

Answer 184

• to clear land for farming (e.g. cattle)

* to grow crops for biofuel

Question 185

What are the consequences of deforestation?

Answer 185

• less biodiversity - fewer habitats
• more carbon dioxide released into atmosphere - global warming
• fewer trees to ‘lock up’ carbon dioxide during photosynthesis - more in the atmosphere
• destruction of peat bogs leading to release of carbon dioxide

Question 186

What are bogs?

Answer 186

Areas of land that are acidic and waterlogged

Question 187

Why is there a lack of decay in bogs?

Answer 187

There is a lack of oxygen

Question 188

How is peat formed?

Answer 188

When partly rotted plants in bogs build up to form a soil like material

Question 189

Why are peat bogs often drained?

Answer 189

• so the area can be used as farmland

* so the peat can be dried to burn as fuel or be sold as compost

Question 190

What are the problems of peat bogs?

Answer 190

• draining peat means more air can get to it = more decomposition = microbes release carbon dioxide = global warming
• carbon dioxide is released when peat burns = global warming
• destroying bogs reduces habitats and therefore biodiversity

Question 191

What are the general effects of rising sea surface temperatures and rising sea levels?

Answer 191

• people become displaced from their homes
• increased population density and demands on land
• river delta threatened - sea water moves upstream
• coral reefs bleached
• increased numbers of tropical storms
• warmer water temperatures - human health threatened e.g. cholera

Question 192

What have scientists done to reduce negative effects of humans on biodiversity?

Answer 192

• breeding programmes
• protection and generation of rare habitats
• reintroduction of hedgerows in agricultural areas to increase biodiversity
• reduction of deforestation and and CO2 emissions by some governments
• recycling resources rather than dumping waste

Question 193

Examples of breeding programmes that will reduce negative effects of humans on biodiversity?

Answer 193

In zoos, then releasing animals back into the wild without being humanised

Question 194

Examples of rare habitats that can be protected to reduce negative effects of humans on biodiversity?

Answer 194

• marshlands
• heathlands
• coral reefs
• mangrove swamps

Question 195

Examples of recycling instead of dumping waste that will reduce negative effects of humans on biodiversity?

Answer 195

Developing biodegradable plastic

Question 196

What conflicting pressures are there which can affect how biodiversity is maintained?

Answer 196

• costs money
• can come at a cost to local people’s livelihood
• may be conflict in protecting food security
• development can affect the environment

Question 197

An example of how costs can affect how biodiversity is maintained?

Answer 197

Governments may pay farmers a subsidy to reintroduce hedgerows - costs money to check these programmes are being followed

Question 198

An example of how other people’s livelihood can affect how biodiversity is maintained?

Answer 198

Reducing deforestation means people employed in tree felling could be left unemployed and move away to find work - affecting the local economy

Question 199

An example of protecting food security can affect how biodiversity is maintained?

Answer 199

Farmers may kill pests (locusts, foxes) to protect crops and livelihood so more food can be grown - affecting food chain and biodiversity

Question 200

An example of how development can affect how biodiversity is maintained?

Answer 200

For housing development on the edge of towns or new agricultural land in developing countries - untouched land with high biodiversity used for development

Question 201

How can indicator species measure pollution levels?

Answer 201

The presence/absence of certain organisms indicates how much pollution there is

Question 202

What is the most common source of air pollution?

Answer 202

The combustion of fossil fuels

Question 203

Example of an indicator species for air pollution?

Answer 203

Lichen

Question 204

What are lichens?

Answer 204

Plants that grow in exposed places e.g. rocks, tree bark

Question 205

How do lichens indicate the amount of pollution in an area?

Answer 205

• rainwater contains just enough nutrients to keep them alive
• air pollutants dissolved in rainwater can damage them and prevent growth

Question 206

What is biomass?

Answer 206

The amount of dry biological matter (kg)

Question 207

What is a carnivore?

Answer 207

An organism that eats meat - consumer

Question 208

What is a herbivore?

Answer 208

An organism that eats producers (green plants)

Question 209

What is a predator?

Answer 209

An organism which hunts for food (carnivores)

Question 210

What is prey?

Answer 210

Organisms which are eaten by predators (herbivores or carnivores)

Question 211

What is a producer?

Answer 211

A green plant

Question 212

How is energy from the sun passed on through a food chain?

Answer 212

Radiation from the sun is the source of energy for organisms on earth. Energy is trapped by green plants and passed to animals in food chains

Question 213

What is a trophic level?

Answer 213

A feeding level in a food chain

Question 214

How can trophic levels be represented?

Answer 214

Using numbers - starting at level one with plants and algae

Question 215

What are apex predators?

Answer 215

Carnivores with no predators

Question 216

What are decomoposers?

Answer 216

Microorganisms that break down dead plant and animal matter by secreting enzymes

Question 217

What happens to the amount of biomass and energy in organisms as a food chain progresses?

Answer 217

It decreases throughout the chain

Question 218

How much biomass is transferred from one trophic level to the one above?

Answer 218

10%

Question 219

What are losses of biomass in the food chain due to?

Answer 219

• not all ingested material being absorbed (some faeces)
• some absorbed material lost as waste (CO2 and water in respiration)
• glucose used in respiration

Question 220

Why do carnivores produce less waste than herbivores?

Answer 220

meat is easier to digest than vegetation, however some indigestible materials (fur, bones, teeth) become faeces

Question 221

What happens when animals eat excess protein?

Answer 221

It cannot be stored and is broken down into urea and passed out in urine

Question 222

How is biomass lost through movement?

Answer 222

some biomass used for respiration:

• movement uses energy
• muscles heat as they contract

Question 223

Why do mammals need to eat more food than amphibians, reptiles and fish?

Answer 223

Mammals need to maintain a body temperature higher than their surroundings - more energy from respiration transferred as heat

Question 224

What is extracellular digestion?

Answer 224

When decomposers break down dead animal and plant waste by secreting enzymes on it

Question 225

Problem with pyramids of numbers?

Answer 225

Do not accurately reflect what is happening to biomass

Question 226

Why does the number of organisms at each trophic level decrease?

Answer 226

A large amount of energy in the biomass of plants supports a smaller amount of herbivore biomass etc

Question 227

How is the efficiency of a biomass transfer calculated?

Answer 227

biomass transferred to next level / biomass availible at previous level x100

Question 228

An example to demonstrate how a pyramids of biomass is more useful than a pyramid of numbers?

Answer 228

1 oak tree could support lots of organisms, but it has a large biomass - showing energy loss throughout food chain

Question 229

What are cyclic fluctuations?

Answer 229

When the numbers of predators and prey fluctuate in a regular pattern

Question 230

Example of cyclic fluctation?

Answer 230

foxes and rabbits:

• more food (grass) - rabbit number increases
• more food for foxes - number increases
• rabbit number decreases
• no food for foxes so number decreases
• fewer foxes - rabbits increase

and so on

Question 231

What is food security?

Answer 231

Having enough food to feed a population

Question 232

What biological factors are threatening food security?

Answer 232

• increase in birth rate
• changing diets in developed countries
• new pests and pathogens
• environmental changes e.g. famine
• cost of agricultural inputs
• conflict

Question 233

In general, how can the efficiency of food production be improved?

Answer 233

By restricting energy transfer from food animals to the environment

Question 234

What farming methods can be used to minimise energy loss from food animals?

Answer 234

• limiting their movement
• controlling the temperature of their surroundings
• feed high protein foods to increase growth
• reduce number of stages in food chain

Question 235

Advantages of intensive farming?

Answer 235

• lots of animals in a small space
• little food wastage
• minimum energy lost from heat loss or movement
• maximum weight gain
• cheaper eggs/meat

Question 236

Disadvantages of intensive farming?

Answer 236

• chickens not able to behave naturally - debeaked
• large barns need heating and lighting
• chicken legs break - cannot hold own weight
• risk of disease - closely packed together

Question 237

Advantages of free range farming?

Answer 237

• cattle behave naturally, less stressed

* feeding on grass means no contamination

Question 238

Disadvantages of free range farming?

Answer 238

• animals may take longer to gain weight as they are more active
• more land needed to provide grazing and hay

Question 239

Solutions to overfishing?

Answer 239

• larger mesh size
• bans on fishing during breeding season
• avoiding breeding grounds
• stricter quotas on amount and type of fish caught

Question 240

What fungus is useful for producing mycoprotein?

Answer 240

fusarium

Question 241

What is mycoprotein?

Answer 241

A protein-rich food suitable for vegetarians

Question 242

What do fermenters enable in mycoprotein production?

Answer 242

For microorganisms to be grown on an industrial scale

Question 243

How do fermenters obtain the maximum amount of product?

Answer 243

By reacting to changes and keeping conditions as stable as possible

Question 244

What is the role of oxygen in a fermenter?

Answer 244

• for respiration
• filtered to remove dust/microbes
• enters at base and bubbles through the liquid in the fermenter

Question 245

What is the role of the paddle stirrer in a fermenter?

Answer 245

• keeps microbes in suspension

* maintains constant temperature so oxygen and food are evenly spread

Question 246

What is the role of the warm water outlet in a fermenter

Answer 246

• allows heat released from respiring microbes to leave the water-cooled jacket

Question 247

What is the role of the food inlet in a fermenter?

Answer 247

• allows nutrients to enter at a controlled rate

* this ensures that microbes are kept at correct stage of growth

Question 248

What is the role of the steam inlet in a fermenter?

Answer 248

• raise temperature of contents to optimum

Question 249

What is the role of the pH/temperature probe in a fermenter?

Answer 249

• CO2 would alter pH and then affect activity of enzymes in microbes
• ensure the conditions remain constant

Question 250

What is the role the outlet - harvest line - in a fermenter?

Answer 250

• enables product to be harvested

Question 251

How long does the fermenter run in mycoprotein production?

Answer 251

Six weeks

Question 252

What conditions is mycoprotein grown in?

Answer 252

• aerobic

* temperature no higher than 35*C

Question 253

What does the fungus in mycoprotein production require?

Answer 253

Glucose for respiration

Question 254

How is temperature controlled in the making of mycoprotein?

Answer 254

A cooling water jacket

Question 255

Why does temperature need to be controlled in mycoprotein production?

Answer 255

• aerobic respiration produces heat

* if temperature goes above 35*C

Question 256

What happens to the waste gases produced in a fermenter during mycoprotein production?

Answer 256

Leave the fermenter at the top (such as CO2)

Question 257

What happens to the mycoprotein after it is removed from the fermenter?

Answer 257

• heated to break down substances that would otherwise cause kidney problems
• dried in centrifuge
• flavourings added

Question 258

How does temperature control in a fermenter differ to that in a biogas generator?

Answer 258

Fermenter - above 35*C and growth slowed - AEROBIC

Biogas generator - needs to be above 30*C - ANAEROBIC fermentation

Question 259

In terms of minerals, what does mycoprotein lack?

Answer 259

Iron

Question 260

How does genetic engineering help to treat diabetes?

Answer 260

A genetically modified bacterium produces human insulin which is used when purified

Question 261

What two cells are used to produce human insulin from bacteria?

Answer 261

• human cell with insulin gene in DNA

* bacterium cell with ring of DNA (a plasmid)

Question 262

How is human insulin produced from genetically modified bacteria?

Answer 262

1. insulin gene cut out of DNA by restriction enzyme
2. plasmid taken out of bacterium and split open by enzyme
3. insulin inserted into plasmid using enzyme
4. plasmid taken up by bacterium
5. bacterium multiplies and grown in fermenter

Question 263

What does a restriction enzyme do?

Answer 263

Recognises specific sequences of DNA and cuts it at these points

Question 264

What happens to DNA after is has been ‘cut’ using a restriction enzyme?

Answer 264

One of the DNA strands is left with unpaired bases - a sticky end

Question 265

What is a sticky end?

Answer 265

When DNA has been cut by restriction enzyme and one of the DNA strands is left with unpaired bases

Question 266

What is the plasmid of a bacterium taken out using during genetic engineering?

Answer 266

The same restriction enzyme as the insulin gene - leaving the same sticky ends

Question 267

Where can genes be transferred to in genetic engineering?

Answer 267

• bacteria

* plants

Question 268

How are GM crops created?

Answer 268

New genes transferred to crop plants

Question 269

When are genes transferred in GM crops?

Answer 269

At an early stage of development

Question 270

Why are genes transferred so early in GM crops?

Answer 270

So that the organism develops with the desired characteristics

Question 271

An example of a GM crop?

Answer 271

Golden rice

Question 272

How is golden rice engineered?

Answer 272

• genes involved in beta-carotene production are obtained from other species
• then they’re introduced to the white rice genome

Question 273

What is the benefit of golden rice?

Answer 273

Increased vitamin A content (25 times)

Question 274

Arguments for GM crops?

Answer 274

• higher crop yields
• resistant to herbicides
• reduces pesticide use
• safe for human consumption
• help developing world
• preserves habitats
• better shelf life
• produces plants better for harsher habitats

Question 275

How do GM crops reduce pesticide use?

Answer 275

Some crops resistant to viruses and insect pests

Question 276

How do GM crops preserve habitats?

Answer 276

Less land needed for agriculture

Question 277

Arguments against GM crops?

Answer 277

• effect on wild flowers and insects
• mainly benefits large GM companies
• unknown long term health risks
• affect wild life
• increasing yields won’t help developing world
• cross contamination

Question 278

Why might GM crops affect wildlife?

Answer 278

Weeds killed could be a source of food for animals

Question 279

Why might cultured meat slow down the rate of global warming?

Answer 279

• less methane produced by cows

* less deforestation to cater for grazing

Question 280

Describe how mycoprotein is produced

Answer 280

• the fungus fusarium is grown in a fermenter
• in aerobic conditions
• it needs glucose
• mycoprotein is harvested and purified