Rocky Shore Ecosystems

Question 1

what is the definition of a species?

Answer 1

organisms sharing common traits that usually breed among themselves to reproduce fertile offspring.
typically, a number of individuals of the same species can be found together in a specific geographic region to form a ‘population’

Question 2

what is the definition of a population?

Answer 2

a group of individuals of the same species within a ‘community’

Question 3

what is the definition of a Community?

Answer 3

a naturally occuring assemblage of all species (i.e., all populations) within a defined habitat. Communities are often named after the dominant species present e.g., ‘mangrove community’, or after major physical characterisitics of the area, e.g., ‘rocky shore community’

Question 4

what is the definition of a habitat?

Answer 4

the physical location or place where an organism lives, which is characterised by the dominant plant species or by the major physical feature, e.g., ‘alpine habitat’ or ‘fresh water habitat’ or marine habitat’

Question 5

what is the definition of an ecosystem?

Answer 5

the interaction of community members with each other and with the physical environment

Question 6

what is the definition of an environment?

Answer 6

the biological and physical conditions of the region where organisms live, i.e., a ‘list of what’s there’.

Question 7

what is the definition of a niche?

Answer 7

the ‘role’ that an organism plays in its environment, e.g., ‘predator’, ‘producer’ etc.

Question 8

What is distribution?

Answer 8

the location of organisms within their environment

Question 9

What are the biotic factors resulting in distribution?

Answer 9

food availability
predation
population density
disease
competition

Question 10

What are the abiotic features that affect distribution?

Answer 10

Tides
pH
Light (intensity, duration) 
Turbidity
Oxygen levels
Water avaliability
Temperature

Question 11

What phylum is green algae in?

Answer 11

phylum Chlorophyta

Question 12

What phylum is brown algae in?

Answer 12

phylum Phaeophyta

Question 13

What phylum is red algae in?

Answer 13

phylum Rhodophyta

Question 14

What is the shore zone of green algae?

Answer 14

Upper shore

Question 15

What is the shore zone of brown algae?

Answer 15

Mid shore

Question 16

What is the shore zone of red algae?

Answer 16

Lower shore

Question 17

What has algae adapted to do to avoid over crowding/ intense competition for light and space?

Answer 17

Algae has adapted different pigments to live on different parts of the shore.

Question 18

what light does green absorb?

Answer 18

It absorbs blue and red wave length

Question 19

what light does brown algae absorb?

Answer 19

Absorbs yellow-orange light

Question 20

what light does red algae absorb?

Answer 20

Absorbs blue-green light

Question 21

What are the different shore zone?

Answer 21

Splash zone
Upper shore
Mid shore
Lower shore
Sublittoral

Question 22

What are the conditions generated by alternate submersion and emersion? (Submersion)

Answer 22

Good:
Temperature is uniform
There is no water loss problem
Water contains dissolved oxygen, carbon dioxide, inorganic ions and organic debris
Bad:
There is a danger of dislodgement by waves, as tide covers the land
There is danger of predation from sea organisms light penetration to lower levels is reduced

Question 23

What are the conditions generated by alternate submersion and emersion? (Emersion)

Answer 23

Temperature changes are enormous
Desiccation is a major danger
Heavy rain can cause sudden fall in salinity
Evaporation of water can lead to steadily rising salinity

Question 24

What are the three basic types of adaptations?

Answer 24

Physical/structural
Behavioural
Physiological

Question 25

what are physical adaptations?

Answer 25

external or internal body features.

Question 26

give examples of physical adaptations

Answer 26

``` shape size hardness of shell keeness of eyesight colour musculature layers of fat thickness of hair etc ```

Question 27

what are behavioural adaptations?

Answer 27

relates to how organisms respond to changes in their environment

Question 28

give examples of behavioural adaptations

Answer 28

huddling/clustering to retain moisture or warmth | burrowing during the heat of the day etc.

Question 29

what is clumping common among?

Answer 29

gastropods.

Question 30

what are physiological adaptations?

Answer 30

relates to internal processes

Question 31

give examples of physiological adaptations

Answer 31

secreting acid producing particular types of enzymes increasing/decreasing metabolism etc.

Question 32

what are physical adaptations?

Answer 32

external or internal body features.

Question 33

give examples of physical adaptations

Answer 33

``` shape size hardness of shell keeness of eyesight colour musculature layers of fat thickness of hair etc ```

Question 34

what are behavioural adaptations?

Answer 34

relates to how organisms respond to changes in their environment

Question 35

give examples of behavioural adaptations

Answer 35

huddling/clustering to retain moisture or warmth | burrowing during the heat of the day etc.

Question 36

what is clumping common among?

Answer 36

gastropods.

Question 37

what are physiological adaptations?

Answer 37

relates to internal processes

Question 38

give examples of physiological adaptations

Answer 38

secreting acid producing particular types of enzymes increasing/decreasing metabolism etc.

Question 39

list physical/structural adaptations in limpets

Answer 39

streamlined shape helps reduce the effect of drag due to wave action

Question 40

list behavioural adaptations in limpets

Answer 40

raises shell to increase cooling (from evaporation of water inside shell)

Question 41

list physiological adaptations in limpets

Answer 41

Secretion of acid (and possibly enzymes) to create homesite/homespot/scar

Question 42

What do food chains illustrate?

Answer 42

food chains illustrate the flow of energy from one organism to the next

Question 43

describe the food chain

Answer 43

``` Producers (algae/plants/phytoplankton) ------> Primary consumer (herbivores) --------> Secondary consumer (primary carnivores) ```

Question 44

What is a producer?

Answer 44

producers are organisms that are able to synthesise their own organic requirements, e.g., glucose, lipids, amino acids etc. this is generally acomplished via photosynthesis.

Question 45

what are herbivores?

Answer 45

herbivores eat plant and algae matter. herbivores produce cellulase (an enzyme produced via bacteria in the gut) that allows them to digest plant matter.

Question 46

what is a carnivore?

Answer 46

a carnivore eats flesh.

Question 47

What is an omnivore?

Answer 47

eats both flesh and plant matter

Question 48

give an example of a food chain

Answer 48

seaweeds(producer) Flat winkles(primary consumer-herbivore) edible crab (secondary consumer-primary carnivore) Pollack (tertiary consumer-secondary carnivore)

Question 49

what is a trophic level?

Answer 49

a feeding level within a particulary food web

Question 50

what are the four feeding types?

Answer 50

filter feeders, scavengers, predators, grazers.

Question 51

what is a filter feeder? give examples also.

Answer 51

these animals filter out plankton from the water. some organisms use feather like structures called cirri, e.g., barnacles and tube worms. others simply take in water through ane opening and expel water out of another, e.g., sea squirts, clams, oysters, mussels, ect.

Question 52

what is a scavenger? give examples.

Answer 52

these organisms tend to consume the 'left-overs'. depending on whether they are herbivores or carnivores, they will eat decaying matter. Examples are crabs, lobsters, starfish, shrimp/prawns

Question 53

what is a predator? give examples.

Answer 53

these organisms actively seek out pray. they typically eat fresh flesh. Examples are stonefish, and other carnivores.

Question 54

what is a grazer?

Answer 54

a non-selective herbivore.

Question 55

how do grazers feed?

Answer 55

(See diagram-example limpet) 1) when the tide is in, the limpet grazers on algae. 2) As it grazes the limpet leaves a slime trail to lead back to its homesite. 3) as the tide begins to recede, the limpet retreats back to its homesite

Question 56

what is energy efficiency?

Answer 56

energy efficiency is more accurately known as 'production efficiency'. Energy/production efficiency relates to an organism's ability to convert food energy into new tissue (i.e., growth)

Question 57

what is the formula for percentage efficiency?

Answer 57

% efficiency = (energy left over for growth) / (total energy input) x 100

Question 58

why are herbivores less efficient?

Answer 58

herbivores are less efficient because of the cellulose that makes up the greatest part of their diet. Cellulose is extremely difficult to digest (even in the presence of cellulase). consequently, much of the cellulose that is taken in comes out as a solid waste material.

Question 59

Why are carnivores more efficient?

Answer 59

carnivores are more energy efficient because they mainly eat meat (protein). Protein is much more digestible than cellulose. hence more energy can be extracted from their food.

Question 60

what is a pyramid in this context?

Answer 60

a pyramid is a common way to represent energy flow in a food chain.

Question 61

what are the three types of pyramids?

Answer 61

pyramid of numbers pyramid of biomass pyramid of energy

Question 62

what is a pyramid of numbers?

Answer 62

the number if organisms per unit area. (see diagram)

Question 63

what are the issues of pyramid of numbers?

Answer 63

these pyramids do not take into account the size/mass of an organism, they only look at the numbers. pyramids of numbers can easily become inverted.(see diagram). when this occurs, they no longer accurately represent energy flow through the food chain.

Question 64

what is an example of an inverted pyramid of numbers?

Answer 64

Plankton, whale shark, parasites.

Question 65

what is a pyramid of bio mass?

Answer 65

>measured in kg per unit area. >pyramids of biomass represent the flow of energy through a food chain via the mass of an organism. *ideally this would be dry mass as opposed to wet/fresh mass.

Question 66

what is dry mass?

Answer 66

Dry mass represents the mass after all the water has been removed.

Question 67

what are the issues of a pyramid of biomass?

Answer 67

pyramids of biomass do not account for biomass production OVERTIME. In other words, pyramids of biomass do not consider rates of reproduction. pyramids of biomass only look at the 'standing crop'. e.g., whats there at a certain time.

Question 68

what is an example of an inverted pyramid of biomass?

Answer 68

phytoplankton, zooplankton, filter feeders. over time, phytoplankton have a much higher rate of reproduction than zooplankton, therefore, it is a case of the phytoplankton reproducing at least as fast as it is consumed by the zooplankton

Question 69

what is a pyramid of energy?

Answer 69

> measured in kJ per unit area/volume per unit time | > pyramids of energy are the most accurate way to represent energy flow. they are never inverted.

Question 70

what is the issue of finding accurate pyramids of energy?

Answer 70

organisms must be killed, dried out, then burnt in order to calculate their energy values. a rather destructive process regarding the environment

Question 71

what is the formula for population growth?

Answer 71

population growth + (birth rates + immigration rates) - (death rates + emigration rates)

Question 72

what are the two of types factors population growth rates are affected by?

Answer 72

density-dependent factors | Density - independent factors

Question 73

what is a density-dependent factor?

Answer 73

these factors tend to be biotic in nature , e.g., competition, disease etc. The impact of these factors increase as population density increases - hence they are population density-dependent. for example, the impact of disease (its spreading between individuals) increases as the population becomes more dense.

Question 74

what are density-independent factors?

Answer 74

these factors tend to be abiotic in nature e.g., light intensity, temperature, wind, humidity, and natural catastrophes (floods and earthquakes etc). The impact of these factors do not depend on population density. In other words, the impact of these factors are the same regardless of population size. For example, an earthquake will greatly reduce populaton numbers regardless of its size. or to put it another way, the intensity of the earthquake will be the same regardless of the size of the population

Question 75

What are the two ideas of species biodiversity?

Answer 75

1) how many total organisms are present (N) | 2) how many individuals af each species are present (n)

Question 76

What is the formula that is used to measure an ecosystems relative biodiversity?

Answer 76

diversity index(reciprocal) = N(N-1) / sum of (n (n-1))

Question 77

What do the index values mean about the environment?

Answer 77

* Larger index value = greater biodiversity * Therefore, area x has a greater biodiversity (i.e., species biodiversity) than area y. * the greater the biodiversity, the less extreme (or more moderate) the environment. * Therefore, area x has more moderate (or less extreme) ABIOTIC conditions, e.g., warmer, more sunlight, less exposure, less wind, more moisture etc.

Question 78

what is a detritivore?

Answer 78

herbivores that feed on dead algae/plants

Question 79

List the phases in a population growth curve

Answer 79

1) lag phase 2) log phase 3) linear phase 4) stationary phase

Question 80

Describe the lag phase.

Answer 80

Adaptation to new habitat

Question 81

Describe the log phase

Answer 81

Period of exponential growth

Question 82

Describe the linear phase

Answer 82

Limits to growth are operating, e.g., food availability, space etc.

Question 83

Describe the stationary phase

Answer 83

The optimum population that environment will support