B6.1

Question 1

What does abundance and population mean?

Answer 1

• abundance = how many individuals you find in a specific area
• population = number of organisms of a species in an area

Question 2

What does distribution mean?

Answer 2

• distribution of an organism is where an organism is found in a habitat (total area they could occur)

Question 3

What does relationship and sampling mean?

Answer 3

• relationship = interaction between 2 species living in same area
• sampling = counting a small number of large total population in order to study a population

Question 4

Why do we sample?

Answer 4

• collect accurate fair and reliable data
• collect organisms
• count number of organisms in each species and record where they are found

Question 5

What are pooters used for?

Answer 5

• jar with a rubber bung sealing the top and 2 tubes stuck through bung (one tube with mesh)
• suck on the shorter tube and put the end of longer tube on insect = sucked into jar
• count number of insects collected and same same amount of time and size of the second sample area and compare

Question 6

What are pitfall traps?

Answer 6

• steel sided containers than are sunk in a hole in the ground and top is partly open
• leave the trap overnight in 1st sample area = insects fall in and can’t get out
• Count no of insects in 1st and 2nd sample area

Question 7

What are sweep and pond nets?

Answer 7

• sweep net = net lined with strong cloth (used for insects from long grass) - stand still in 1st area and sweep left to right and up and put into container then repeat in 2nd area and compare
• pong nets (insects from pons and rivers) - stand in first area and seep net along bottom of river/pond, turn net out into white tray with a bit of water then count in 1st and 2nd sample areas and compare

Question 8

What is kick sampling and tree beating?

Answer 8

• kick sampling = kick edge of stream and hold net = count no. organisms caught
• tree beating = hit tree and collect organism with pooter as they land on large white cloth

Question 9

What is a quadrat?

Answer 9

• square frame enclosing a known area (compares how common an organism is in 2 sample area)

Question 10

How can you use a quadrat to study the distribution of small organisms?

Answer 10

• place 1m² quadrat one ground at random point in 1st sample area (use random generator (RNG) for coordinates) otherwise all in one spot and results aren’t valid
• count desired organisms in quadrat and lay down more quadrat using RNG (larger sample = better) - if more than half of organism in= counts
• work out mean per quadrat for 1st sample area (quadrat no./ organism no)
• repeat for second sample and compare

Question 11

How can you estimate population size by scaling up?

Answer 11

• work out mean no. of organisms per m² and then multiply by total area

Question 12

How you estimate population size using the capture-recapture technique?

Answer 12

• capture small sample of population and mark in harmless way then release into environment, then recapture another sample and count how many = marked
• population size = (no. in first sample x no. on second sample)/number in
  second sample previously marked
• this is assuming none immigrate/emigrate and die

Question 13

What is a key and what is it used for?

Answer 13

• series of questions that you can use to figure out what an unknown organism is = useful when carrying out sampling as it helps you identify the organisms found
• start on Q1 and ans = narrows options (some may just have statements instead of Qs
• after options are narrowed = left with 1 possible species that your organism could be

Question 14

What is the distribution of organism affected by?

Answer 14

• abiotic factors (temp, pH of soil, moisture level, light intensity = less daisies under trees as less light)
• biotic factors (competition = diff distribution of species than if it didn’t exist)

Question 15

How can you measure abiotic factors?

Answer 15

• light intensity = light sensor, temperature = thermometer, moisture of soil =soil moisture meter
• soil pH = indicator liquid =water added to soil sample and indicator changes colour and compared to chart / electronic pH monitors also produce pH value for sample OR water is added to soil sample and electronic probe is placed to generate numerical value for pH

Question 16

What are transects?

Answer 16

• investigate how distribution changes gradually over an area using lines called transects
• you sample along the length of a transects using a quadrat is called a belt transect

Question 17

How do you carry out a belt transect?

Answer 17

• mark out line with tape measure
• place quadrat at start of line and count & record organisms found within quadrat and you take samples by moving your quadrat along the line (e.g. placing quadrat at intervals of 2m)
• OR you could take samples along whole line by placing it right after but it will take a lot longer if you have a long line

Question 18

How should you display the results of a transect?

Answer 18

• you can calculate the % cover = estimate % area of the quadrat covered by particlar organism by counting no. of little squares covered by organisms= count a square if more than half = covered
• plot results of transect in kite diagram = maps the distribution
• take measurements of abiotic factors at points along transect to show the changes it causes to abundance and distribution of organisms

Question 19

What do kite diagrams show?

Answer 19

• x-axis shows the distance along the transect line
• abundance of each organism is shows by the thickness of kite shape = abundance’s plotted above and below a central like to make it symmetrical

Question 20

What are the advantages of random and non-random sampling?

Answer 20

• random= remove bias and more accurate representation = quadrat
• non random =studies how distribution changes over distance = transect

Question 21

How does an increasing population negatively impact the biodiversity?

Answer 21

• more pressure on environment as we take resources to survive
• higher standard of living =use more raw materials and energy resources
• many raw materials used quicker than replaced = run out
• lots of waste created (pollution, toxic gases)
• impacts local and global biodiversity

Question 22

Why is it important to maintain biodiversity?

Answer 22

• biodiversity is the variety of things living in an area which is essential for maintaining a balanced ecosystem and humans rely on biodiversity for the raw materials we need

Question 23

What are some of the causes of the loss of biodiversity?

Answer 23

• humans are the leading cause of loss of biodiversity due to:
• deforestation
• agriculture/ farming
• pollution/ dumping waste
• hunting and fishing
• building/ quarrying

Question 24

How does habitat destruction negatively impact the biodiversity?

Answer 24

• woodland clearance = increase farmland areas = reduces no. of tree species and destroys habitats (species die or migrate)
• monoculture = large areas of land used to grow a single crop (plantations in Africa) = efficient for farmers but less biodiversity as habitat as are cleared to make large fields for monoculture

Question 25

How does pollution and waste on land negatively impact the biodiversity?

Answer 25

• Pollution/ waste from human activities = kills plants and animals:
• toxic chemicals used in farming = herbicides and pesticides
• bury nuclear water underground & dump household waste in landfill sites
• sewage and toxic chemicals from industry pollute lakes/rivers and chemical like herbicides can washed into the water = affects survival rate
• smoke and gases released into atmosphere can pollute air (sulfur dioxide = acid rain)

Question 26

What is eutrophication?

Answer 26

• due to pollution
• fertilisers run off in fields into lakes and rivers = more nitrate present= algae present has an algae bloom (produce in large quantities)
• blocks light from getting into river so plants inside die
• when plants are decomposed by microorganisms = use oxygen from water so the oxygen levels in the water decrease = fish die

Question 28

How does deforestation negatively impact the biodiversity?

Answer 28

• permanent removal of large areas of forest for material for building and fuel, space for roads, agriculture and buildings
• impact = less trees means less animals supported by the tree

Question 29

How does agriculture negatively impact the biodiversity?

Answer 29

• intensive farming of land to feed growing population causes:
• hedgegrow loss to allow bigger machines to max space = less pant species and hedgehogs
• pesticides = less food sources for some organism
• possible bioaccumulation
• herbicides = kills weeds so less no. of plant species present

Question 30

How does hunting and fishing negatively impact the biodiversity?

Answer 30

• used to feed population or as a sport
• overfishing can caused decrease in population/ loss in species from an area (less biodiversity)
• also risk of other marine organisms being caught and killed
• hunting = less food for other organisms or remove key part of a food chain as a knock on effect (less biodiversity)

Question 31

Give examples of species effecting by hunting:

Answer 31

• rhino hunted for horns = endangered now

- fishing on big scale = reduce fish stocks so low that it dies out completely (extinct)

Question 32

What is bioaccumulation?

Answer 32

When pesticide builds up in food chains and kills larger organisms

Question 33

What does endangered species and extinct mean?

Answer 33

• endangered = low numbers of the species left and at rich of extinction
• extinct = all members of the species are dead

Question 34

What does conservation mean?

Answer 34

• protecting a natural environment to ensure that habitats are not lost
• use active management of habitats, use resources in a sustainable way, create nature reserves (marine, aquatic or terrestrial)

Question 35

How can we conserve biodiversity by protecting habitats?

Answer 35

• controlling water levels to conserve wetlands
• coppicing (trimming trees) to conserve woodlands
• allows organisms to continue living in their natural habitat

Question 36

How can we conserve biodiversity by controlling or preventing the introduction of harmful species?

Answer 36

• some schemes prevent harmful species that would threaten local biodiversity:
• those that would reduce number of species by competing with it or eating it
• e.g. grey squirrels are not native to Britain and compete with native red squirrels and caused their populations to decline

Question 37

What are the examples of active management?

Answer 37

• controlled grazing = animals graze land for a certain period of time so that plant species can recover
• restrict human access = people don’t trample over plants
• feeding animals = to ensure more survive to reproductive age
• reintroduction of species = if numbers = low then reintroduce to increase numbers

Question 38

How can we conserve biodiversity by creating protected areas for organisms?

Answer 38

• protected areas like national parks and nature reserves
• restrict development of land (building/ farming)
• protected areas can also be found in the sea where human activities like fishing are controlled to protect marine ecosystems

Question 39

How can we conserve biodiversity by protecting organism in safe areas away from their natural habitats?

Answer 39

• safe areas = zoos for animals
• botanical gardens and seed banks for plants
• protected from harmful activities likes hunting and habitat destruction
• safe areas = increase numbers of organisms before being released into wild = captive breeding (used for reintroducing if become extinct in wild)

Question 40

What is captive breeding?

Answer 40

• another way to increase biodiversity

- create a stable and healthy population of species and gradually introduce the species to the natural habitat

Question 41

What are the problems with captive breeding?

Answer 41

• maintains genetic diversity may be difficult due to few breeding partners
• organisms born in captivity may not be suitable to release - can’t catch food or has no skills to survive in the wild

Question 42

What are seed banks?

Answer 42

• prevent extinction seed banks are used to conserve plants
• seeds taken from a variety of plants are stored so it they are extinct we can grow them again
• type of gene bank

Question 43

How do international cooperations conserve biodiversity?

Answer 43

• International and local agreements help preserve habitats and species (ban on smuggling animals, clothing etc.)

Question 44

What do international agreements do and what is the IUCN?

Answer 44

• secure agreements between nations

- IUCN = red list that informs countries about which species need conservation

Question 45

What is CITES?

Answer 45

• convention on international trade in endangered species of wild flora and fauna
• regulates international trade of wild plants, animals and their products

Question 46

What do Rio conventions require countries to do?

Answer 46

• develop straights for sustainable development
• lower greenhouse emissions
• combat desertification
• overall aim = maintain biodiversity

Question 47

What are local agreements and what are they within England?

Answer 47

• diff. countries utilise schemes within borders to maintain biodiversity
• England = Stewardship schemes where farmers get payments by gov to conserve landscapes and the local council = graze diff species on diff areas of grass (Dover)

Question 48

What are the ways conservation schemes can help humans too?

Answer 48

• protect human food supply
• ensure minimal damage to food chains
• provide future medicines
• provide industrial materials and fuels

Question 49

What are the ways conservation schemes can help humans by protecting human supply and minimal damage to food chains ?

Answer 49

• protect human food supply - overfishing has reduced stocks in world’s oceans but conservation program = future generations will have fish to eat
• ensure minimal damage to food chains - if 1 species = extinct = affects all organisms that feed on/ eaten by it= whole food chain affected but program helps other survives

Question 50

What are the ways conservation schemes can help humans by providing future medicines and industrial materials and fuels ?

Answer 50

• provide future medicines - many medicine = come from plants & undiscovered plants species = new medicinal chemicals so if they come extinct through rainforest deforestation = miss out on valuable medicines
• provide industrial materials and fuels - plants & animals = involved in production of industrial materials (wood/paper/oils) and some fuels so if extinct then resources = more difficult to produce

Question 51

What is ecotourism and where does it happen?

Answer 51

• tourism that focuses on the appreciation of nature and its conservation whilst having minimal negative impact on the local ecosystem
• maintaining areas with high biodiversity = opportunity for ecotourism to happen in these area - people are drawn to visit beautiful, unspoilt areas)

Question 52

Why is ecotourism useful?

Answer 52

• tourists bring money which can be used to fund habitats/ prevent poaching and maintaining biodiversity (conservation work)
• money by local shops/cafe = supports local economy

Question 53

Gove examples of schemes towards ecotourism:

Answer 53

• risk of loss of biodiversity in coral reefs = ecotourism ensures tourism doesn’t have a negative impact on natural environment & local communities
• restrict tourists to certain areas ; keep to footpaths;avoid disturbing breeding grounds; only leave footprints where you go (negative = repeated use of a trail can cause soil erosion)

Question 54

What are the steps to ecotourism?

Answer 54

• save energy and water
• only leave footprints
• honour local traditions
• buy local trades
• reduce, reuse recycle

Question 55

What is the Eden Project?

Answer 55

• in Cornwall = sort of ‘eco theme park’ which has huge plastic comes to represent diff ecosystems (e.g. rainforest) and educates visitors about conservation

Question 56

What can maintaining biodiversity be challenging?

Answer 56

• agreements about conservation schemes can be difficult to arrange
• conservation schemes can be difficult to monitor

Question 57

Why can agreements about conservation schemes be difficult to arrange?

Answer 57

• some require several diff countries to work together = some aren’t willing to sign up
• e.g International Whaling Commission to restrict whaling = lots of countries signed up to stop whaling but some still haven’t (Norway, the Faroe Islands and Iceland) = 2000 whales killed /yr
• on smaller scale = rejected by local residents (people might not be keep if schemes reduces their income = ban on logging / fishing restrictions)

Question 58

Why can agreements about conservation schemes be difficult to monitor?

Answer 58

• keeping track of fishing quotas (restrictions on the amount of fish that can be caught at sea) = tricky
• hard to work out how successful the schemes is and if you want to see if people are sticking to it

Question 59

How do scientists monitor pollution?

Answer 59

• regular samples of plants and animals from habitats
• monitor type and number present
• look for indicator species (organisms that can be used to measure the environmental quality either through their absence or presence)

Question 60

What do canaries and nudibranchs indicate?

Answer 60

• canary = used by miners and taken in a cage - more sensitive to poisonous gases than humans
• nudibranch = indicate climate change

Question 61

What is the main cause of air pollution?

Answer 61

• sulfur dioxide = combustion of fossil fuels

- goes up the atmosphere and dissolves in clouds = acid rain = results in death of fish and trees

Question 62

What is the indicator of air pollution?

Answer 62

Lichens = have no root system to all of their nutrition comes from the air
- depending on lichen present = identify levels of air pollution = some lichens cope well with pollution so found in industrial areas but some species can only grow in areas of clean air

Question 63

What is the main cause of water pollution?

Answer 63

• release of harmful substances into lakes, rivers and seas = more pollution levels
• less level of dissolved oxygen to less organisms able to survive in these conditions

Question 64

What are the indicators of unpolluted and low water pollution?

Answer 64

• unpolluted - mayfly larva (nymphs) (in rivers)

- low - fresh water shrimp

Question 65

What are the indicators of high and very high water pollution?

Answer 65

• high - water louse

- very high - sludge worm (near sewage contaminated water as less O2)

Question 66

How do environmental changes cause the distribution of organisms to change (where they live)?

Answer 66

• availability of water - animal/plant species change depending on water in tropics
• atmospheric gases - some species of lichen can’t grow in SO2
• temperature - global warming

Question 67

What can environmental changes be cause by?

Answer 67

• seasonal factors
• geographic factors
• human interaction (global warming = rise in avg. temp)

Question 68

What do greenhouse gases do?

Answer 68

• temp of earth = balance between energy from sun and energy radiate back into space and gases in atm = insulating layer
• gases absorb most heat energy that should be radiated back into space and re-radiates it in all directions(including back to Earth)= increase temp
• greenhouse gases keep energy in = CO2 and methane - levels are rising sharply = increased avg temp

Question 69

What is global warming?

Answer 69

• levels of green house gases rise = avg temp increasing = global warming (type of climate change causing other types of climate change = changing rainfall patterns)

Question 70

What are the consequences of global warming in terms of sea levels and migration?

Answer 70

• high temp= seawater expands & melts= sea level rise= animals / people living in low- lying places = flooding = loss of habitats
• change in migration patterns (birds migrate more N as more N= warmer)

Question 71

What are the consequences of global warming in terms of distribution and biodiversity ?

Answer 71

• distribution of wild animal/plant species change as temp rises and amount of rainfall changes = some species = more widely distributed (species thriving in hot = wider range but species in cold = smaller range)
• reduced biodiversity if some species unable to survive change in climate/ adapt = extinct

Question 72

What are some ways to conserve fish stocks?

Answer 72

• fishing quotas
• limit no of boats that can go in an area
• fishing ban in breeding season
• NOT limiting max hole size in nets = doesn’t conserve stocks