A4.2 ecology and conservation (tamar booklet)

Question 1

species

Answer 1

group of organisms that can interbreed to produce fertile offsprings

Question 2

population

Answer 2

group of organisms of same species living in an area at the same time and interbreeding

Question 3

communities

Answer 3

group of populations living and interbreeding with each other

Question 4

ecosystems

Answer 4

open system in which both energy and matter can enter and exit

Question 5

niche

Answer 5

the functional position and role of an organism within its environment.

Question 6

what does the competitive exclusion principle state

Answer 6

2 species cant exist simultaneously if they live in same place

Question 7

binomial name

Answer 7

first part genus
second part species

Question 8

difference between an ecosystem and a biome

Answer 8

biomes are large geographically defined regions with similar climate, vegetation etc. while ecosystems are localized communities of living organisms and their ineraction within specific areas
biome eg. rainforest, desert, savannah
ecosystem, specific swamp or pond

Question 9

biotic and abiotic factors of dessert

Answer 9

biotic; cacti, scropias, kangaroo rats, desert shrubs
abiotic, extreme temperatures, sandy, high levels sunlight, strong wind

Question 10

biotic and abiotic factors of ocean

Answer 10

biotic; algae, fish, coral reefs, dolphins, sharks
abiotic; salinity, dissolved gases, high depth

Question 11

biotic and abiotic factors of rainforest

Answer 11

biotic; canopy trees, monkeys, snakes, decomposers
abiotic; humidity, rainfall ,soil composition

Question 12

main forms of nitrogen in nitrogen cycle

Answer 12

nitrogen gas
found dissolved in organisms
ammonium
nitrate
nitrite
oxides of nitrogen

Question 13

order of nitrogen cycle

Answer 13

nitrogen fixation by bacteria converting atmospheric nitrogen gas into ammonia, ammonification where organic matter decomposes into ammonium, nitrification where bacteria convert ammonium into nitrite and then nitrate, assimilation where marine organisms take up nitrate for growth, and finally, denitrification by bacteria returning nitrate back to nitrogen gas under anaerobic conditions

Question 14

ecosystem diversity

Answer 14

range of different ecosystems or habitat within a particular area

Question 15

species diversity

Answer 15

number of species and their abundance in a specific area

Question 16

genetic diversity

Answer 16

variation of genes between individuals within a species

Question 17

overharvesting/ overhunting

Answer 17

to harvest or hunt something excessively, at harmful degree
decrease population of a species, affect the food web

Question 18

habitat destruction for deforstation or urbanisation

Answer 18

clearing forests and habitat loss, decrease biodiversity for building cities which can furtherly produce more pollution =, increases temperature

Question 19

invasive species

Answer 19

animals or plants from another region of the world dont belong in a new enviornment they have been introduced to due to human acitvity, can effect food web and decrease biodiversity

Question 20

pollution

Answer 20

introduction substance into envrionemtn, negatively impact human health, and envirnemtn , acid rain, water/ soil pollution, lack of biodiversity

Question 21

global climate change

Answer 21

long term shift to weather patterns and temperautre affects extinction of species

Question 22

disease

Answer 22

result of exposure to unhealthy enviornmental factors, these can be natural occuring or not, causes extinction and lack of biodiversty

Question 23

why is a large biodiversity important

Answer 23

medical reasearch eg. penicillin, used to make drugs, keeps humans helathy in first place eg. trees abrosb harmful substances soil provides microbes needed to grow food

Question 24

cause for biodiversity loss

Answer 24

land use change, overexploitation, pollution, climate change

Question 25

insitu conservation

Answer 25

conservation of ecosystems or species in their natural habitats advatanges- protects entire ecosystems preserve natural processes allow species to adapt naturally disadvantages- endangered species habitat may be fragmented, genetiv diversity may decrease, threats to species may persist

Question 26

exsitu conservation

Answer 26

preservation of species in artificial environemnt advantages- allows for greater control of conditions eg. climate, diet and can improve breeding success disadvantages- genetic diversity deterioration, inbreeding depression, adaptations to captivity

Question 27

what is the rationale behind focusing on certain species when conserving

Answer 27

some species play key roles in ecosystems and are at greater risk of extinction or hep raise awarness and support for conservation due to their beauty or emmotional appeal

Question 28

abiotic factor

Answer 28

physical and chemical features of the enviornmetn that have an effect on a population of organisms

Question 29

biotic factors

Answer 29

biological features of the environment that have an effect on a popultion of organisms

Question 30

ecosystem

Answer 30

community of living organisms and the biotic factors that affect them

Question 31

producer

Answer 31

green plants and some bacteria that make their own food

Question 32

consumers

Answer 32

heterotrophs which obtain nourishments by feeding on othe rorganisms

Question 33

trophic level

Answer 33

position an organism occupies in a food chain

Question 34

community

Answer 34

all the populations that live in a particular place at the same time

Question 35

population

Answer 35

all the organisms of the same species living together in a particular habitat

Question 36

habitat

Answer 36

the place within an ecosystem where a population lives

Question 37

niche

Answer 37

the role an organism has in including where it lives and what it eats

Question 38

gross productivity

Answer 38

the total energy fixed during photosynthesis

Question 39

autotroph

Answer 39

an organism producing its own food from simple inorganic materials eg. by photosynthesis

Question 40

interspecific competition

Answer 40

individuals of more than one species attempt to make use of the same scarce resources

Question 41

food web

Answer 41

the complex interactions between food chains in an ecosystem

Question 42

pioneer

Answer 42

plant species found in the early stage of succession

Question 43

food chain

Answer 43

linked series of living organisms each of which is the food for the next level showing energy flow though the ecosystem

Question 44

climax comunity

Answer 44

the end stage in a succession

Question 45

biomass

Answer 45

the dry mass of organisms

Question 46

succession

Answer 46

the changes that occur in an ecosystem over time

Question 47

net productivity

Answer 47

the energy available for the next trophic level after respiration

Question 48

heterotroph

Answer 48

an organism obtaining food by feeding on complex organic matter ie. consumer

Question 49

respiration

Answer 49

the process whereby cells release energy from organic molecules

Question 50

intraspecific competition

Answer 50

individuals of the same species attempt to make use of the same scarce resources

Question 51

sere

Answer 51

the name given to each stage in a succession

Question 52

what a sapotroph example

Answer 52

a fungus that feeds by secretion of digestive enzymes onto its food and absorption of digested material

Question 53

a dung beetle that feeds on the faeces of other animals

Answer 53

detritivore

Question 54

an anemone that uses the stinging cells in its tentacles to paralyes its prey which is passed to an internal gastric cavity though a singles opening

Answer 54

carnivore, heterotroph

Question 55

a single celled eukarayote that obtains organic molecules by photosynthesis and ingestion if other single celled organisms

Answer 55

mixotroph

Question 56

hummingbirds eat flower nectar and small insects to which nutritional group do they belong

Answer 56

heterotrophs

Question 57

mixotrophs

Answer 57

both auto and heterotrophs

Question 58

what are fundamental and realized ncihes

Answer 58

fundamental=all potential conditions species could live in realized= actual conditions species lives in

Question 59

symbiosis

Answer 59

the close relationship amongst 2 differnet organisms or living things belonging to different species. interaction between 2 different species

Question 60

commensalism

Answer 60

type of symbiotic relationship, 1 species beenfits whilst other is unaffects eg by receivng shelter or water or transport

Question 61

3 examples of commensalism

Answer 61

-golden jackals following tigers to et remains tiger left behind -remora fish and shark, fish sticks to shrk to swim longer distances fish also feeds on sharks remains -hyena and lions, hyena eats remains lions left behind

Question 62

mutualism

Answer 62

symbiotic relationships where both roganisms benefit

Question 63

3 examples of mututalism

Answer 63

-legumes have root nodules that provide home for nitrogen fixing bacteria= rhiobia -orchids and funghi, funghi produce nutrientns for germinaition of seeds, orchid provides carbs for funghus -corals and algae, algae photosynthesize providing cabrs to coral, coral rpovides shelter anr emains of organic matter

Question 64

parasitism

Answer 64

relationship where parasite benefits at expense of its host parasite lives in or on host

Question 65

3 examples of parasitism

Answer 65

-isopod (parasite0 in fish, becomes a parasitic tongue, isopod consumes tongue of fish and eventually fish dies -tapeworms eats nutrients, blood supplies etc. in humans or pets -lice, feeds on human blood found in human hair

Question 66

predator prey

Answer 66

biological interaction one organism (predator) feeds on another (prey) hunting process

Question 67

3 examples of predtor prey

Answer 67

-lion and gazella -turtle and algae -lion and bufallo

Question 68

sink

Answer 68

where carbon dioxide is absobed back to atmoshpere

Question 69

source

Answer 69

when carbon dioxide is released into atmosphere

Question 70

describe carbon cycle

Answer 70

-co2 absorbed by autrotophd by photosynthesis, (respiration and bruning of these autotrophs bring co2 back to atmosphere) -feeding of autotrophs by heterotrophs, where their respiration bring co2 back to atmosphere -death excretion and decomposition of hetero and autotrops by decomposers turn matter into coal which when burnt brings co2 back to atmosphere -when partical decomposition of autotrophs happens peat is produced, when burnt bring co2 back to atmosphere'-co2 dissolves into ocean where autrotrophs also use co2 via photosynthesis but reales it back via respiration -feeding by heterotrophs, death excretion and decompositionby decompsoers of auto and heterotrophs -fossilizarion and sedmintation of this matter produces natural gas and oil when burnt release co2

Question 71

which elvel of ecological complexity invole biotic factor onl not abiotic

Answer 71

only a community not an ecosystem or population

Question 72

carrying capacity

Answer 72

maximum number of species that can be supported by a given enviornment

Question 73

example of a negative feedbakc population size

Answer 73

predation reutrning prey population to its carrying capactiy

Question 74

which statisticl ethod can show interaction and correlation between two species

Answer 74

chi squared test

Question 75

alien species

Answer 75

a species that is introduced into an area by human acitivty

Question 76

what do pyramids of energy and biomass look like

Answer 76

always a pyramid

Question 77

what processes occur in an ecosystem

Answer 77

inorganic nutrients are recyled chemical energy is stored in carbon compounds

Question 78

chemoautrtrophic nutrition

Answer 78

oxidation reactions as the energy source

Question 79

what restricts length of a food chain

Answer 79

energy losses between trophic levels

Question 80

secondary production

Answer 80

it is the accumulation of carbon compounds in biomass by heterotrophs

Question 81

which process results in largest energy loss

Answer 81

respiration

Question 82

formula for xˆ2 in a chi squared test

Answer 82

sum of (O-E)ˆ2/E O=values that have been collected by investigator E= expected value calculated from obsevred (average from observed values)

Question 83

chi square

Answer 83

statistical test that analyses the association between species by the presence or absence of species in a certain area

Question 84

how do you calculate degree of freedom

Answer 84

number of variables/ categorys in the independant varibales - 1

Question 85

after calculating xˆ2 and d.f what should you do in chi square

Answer 85

you must use the xˆ2 table go to the row stated by your calculated d.f and then see value in 0.05 column if value is smaler than calculate xˆ2 agree with Ha ese agree with Ho

Question 86

state group for whcihh detritus is a energy source

Answer 86

detritovores

Question 87

descirbe by what means detritus could be added or removed from ecosystem

Answer 87

consumption added by predation

Question 88

what are consequences of lack of decomposer activity and accumulation of detritus

Answer 88

corrupted energy flow as nutrients arent recycled in soil

Question 89

what are material that have results from a lack of decomposer activity

Answer 89

oil and natural gas, from buried remains of marine polankton coal and peat- from plant origin but peat from partically decomposed mateiral