Climate and Life on Earth: Marine ecology 1

Question 1

Describe the global ocean

Answer 1

Earth’s largest habitat

Question 2

List some oceans

Answer 2

• Pacific Ocean
• Gulf of California
• Gulf of Mexico
• Hudson Bay
• Caribbean Sea
• Atlantic Ocean
• Mediterranean Sea
• Southern Ocean
• Red Sea
• Persian Gulf
• Caspian Sea
• Black Sea
• Indian Ocean
• Arctic Ocean

Question 3

Describe the structural features of the global ocean

Answer 3

• continental shelf
• continental slope
• oceanic trench
• abyssal plain
• mid-ocean ridge
• seamount

Question 4

seamount

Answer 4

remains of dead volcanoes

Question 5

mid-ocean ridge

Answer 5

volcanically active areas that can include deep-sea vents

Question 6

Describe oxygen in water and air

Answer 6

• 40 times less oxygen in a litre of water than in a litre of air
• diffuses around 1000 times more slowly
• creates an oxygen minimum zone where respiration exceeds photosynthesis and diffusion from the air

Question 7

Describe the establishment of a thermocline

Answer 7

• in the tropics and in summer at temperate latitudes a thermocline is established
• because warm water is less dense, it prevents vertical mixing and leads to nutrient depletion in surface waters
• in the tropics the thermocline is a permanent feature

Question 8

List the light zones of the global ocean

Answer 8

• euphotic
• dysphotic
• aphotic

Question 9

Describe the euphotic zone

Answer 9

• above 200m
• sunlight rarely penetrates beyond
• tuna
• aka sunlight zone

Question 10

Describe the dysphotic zone

Answer 10

• above 1000m
• sunlight decreases rapidly with depth
• photosynthesis impossible
• shrimp, swordfish, hatchet fish
• aka twilight zone

Question 11

Describe the aphotic zone

Answer 11

• lower than 1000m
• sunlight does not penetrate at all
• angler fish, giant squid, tripod fish

Question 12

Where does most photosynthesis occur vertically speaking in the global ocean?

Answer 12

top 50m

Question 13

Describe light penetration in the global ocean

Answer 13

• blue and green light penetrates much better than either red or violet wavelengths
• coastal waters are generally more turbid, so light attenuates more rapidly

Question 14

Describe deep-sea fish

Answer 14

eyes which area adapted to see bioluminescence.

Question 15

How far can violet light penetrate in the open ocean?

Answer 15

100m

Question 16

How far can blue-green light penetrate in the open ocean

Answer 16

200m

Question 17

How far can red light penetrate in the open ocean?

Answer 17

25m

Question 18

How far can violet light penetrate in the coastal waters?

Answer 18

<10m

Question 19

How far can blue-green light penetrate in coastal waters

Answer 19

50m

Question 20

How far can red light penetrate in coastal waters?

Answer 20

15m

Question 21

Roughly 1/3rd of the CO2 produced by humans since the industrial revolution has been

Answer 21

absorbed by the oceans

Question 22

Describe a time series of carbon dioxide and ocean pH at Mauna Loa, Hawaii since 1955

Answer 22

• atmospheric CO2 increasing from 320ppmv to 400ppmv
• seawater pCO2 increasing from 320muatm to 380muatm
• seawater pH decreasing from 8.13 to 8.05

Question 23

… current emissions continue to be absorbed by the oceans

Answer 23

1/2

Question 24

Describe carbonate removal in the global ocean

Answer 24

• hydrogen ions react with existing carbonate ions in the ocean, forming bicarbonate
• poses problems for organisms with skeletons made from calcium carbonate

Question 25

List some organisms with skeletons made of calcium carbonate

Answer 25

corals

Question 26

Describe organisms that have skeletons made of calcium carbonate

Answer 26

• rely on carbonate being saturated
• as the ocean acidifies, their skeletons start to dissolve
• at a pH <7.5, this becomes critical

Question 27

Surface currents

Answer 27

redistribute thermal energy

Question 28

Describe surface currents

Answer 28

• rapid timescales
• driven by wind
• enormously important to Europe, as the NA drift brings warmer waters to us and prevents the freezing of the N Atlantic
• gyres have static centres – e.g. Sargasso Sea in Atlantic and the Great Pacific garbage patch.

Question 29

List some surface currents

Answer 29

• Greenland current
• Labrador current
• North Pacific drift
• Gulf Stream
• California current
• north equatorial current
• south equatorial current
• Peru current
• South Pacific current
• Benguela
• canary current
• North Atlantic drift
• agunas
• west Australian current
• antarctic circumpolar current
• east Australian current
• Kuroshio current
• Kamchatka current

Question 30

Great Ocean Conveyor belt

Answer 30

• redistributes nutrients
• much slower-moving but moves enormous volumes of water
• takes 100 years to move water N to S under the Atlantic Ocean. - thermohaline circulation

Question 31

Describe thermohaline circulation

Answer 31

driven by differences in salinity and hence buoyancy, not by winds

Question 32

How does the Great Ocean Conveyor Belt work?

Answer 32

• cold, high salinity seawater sinks
• warm shallow (surface) currents
• cold deep currents

Question 33

Describe carbon fixation in the global ocean

Answer 33

50 billion tonnes per year

Question 34

Describe some producers in the open ocean

Answer 34

• bacterioplankton (30 – 50%)
• phytoplankton

Question 35

Describe bacterioplankton

Answer 35

• cyanobacteria
• e.g. Prochlorococcus

Question 36

Describe phytoplankton

Answer 36

• diatoms
• dinoflagellates
• coccolithophores

Question 37

Describe diatoms

Answer 37

skeletons made from silica

Question 38

Describe dinoflagellates

Answer 38

2 flagellae

Question 39

Describe coccolithophores

Answer 39

calcium carbonate skeleton

Question 40

Define deep subsurface

Answer 40

marine subseafloor sediment and the oceanic crust, as well as the terrestrial substratum deeper than 8 m, excluding soil

Question 41

Describe marine vs terrestrial biomass in Gt C

Answer 41

• marine = 6
• deep subsurface = 70
• terrestrial = 470

Question 42

Marine ecosystems are characterised by (relative to terrestrial and deep subsurface)

Answer 42

• few fungi
• lots of protists
• lots of animals
• few bacteria and archaea

Question 43

archaeplastida

Answer 43

red and green algae

Question 44

List some marine protists

Answer 44

• phytoplankton
• brown algae (e.g. kelps)

Question 45

Describe marine animal biomass

Answer 45

dominated by fish and crustaceans

Question 46

Break down marine biomass in Gt C

Answer 46

• protists: 2
• animals: 2
• bacteria: 1.5
• plants: 0.5
• fungi: 0.3
• archaea: 0.3
• viruses: 0.03

Question 47

List some marine consumers in order of biomass (Gt C)

Answer 47

• animals
• protists
• bacteria
• archaea
• fungi

Question 48

List some marine producers in order of biomass (Gt C)

Answer 48

• protists and plants
• bacteria

Question 49

Describe food webs in the open oceans

Answer 49

• vary dramatically

Question 50

Describe small zooplankton

Answer 50

• excrete tiny faecal pellets
• forms POM
• nutrients are rapidly returned by heterotrophic bacteria
• vertical movement during the 24-hour cycle ‘pumps’ carbon to the depths

Question 51

Describe the microbial loop

Answer 51

• hugely important for recycling DOM
• massive, due to prevalence of viruses in ocean (10 million per millilitre of seawater)

Question 52

Describe upwellings

Answer 52

support large phytoplankton (e.g. large diatoms) can be grazed directly by small fish, leading to massive fish biomass (e.g. anchoveta)

Question 53

POM

Answer 53

• particulate organic matter
• sinks

Question 54

DOM

Answer 54

dissolved organic matter

Question 55

What limits primary production in the open ocean?

Answer 55

light in temperate and polar regions

Question 56

Describe temperature latitudes

Answer 56

• high productivity
• major boom in spring
• smaller boom in autumn

Question 57

North polar peaks in

Answer 57

July

Question 58

Upwellings of nutrient-rich water can create

Answer 58

• hotspots of high productivity in coastal waters
• common along the W coasts of continents: e.g. in California, Chile, Peru

Question 59

Describe the effects of strong vertical mixing and the lack of a thermocline in winter

Answer 59

temperate and polar waters are nutrient-rich

Question 60

Describe the effect of the permanent thermocline in the tropical oceans

Answer 60

prevents vertical mixing and the return of nutrients to the euphotic zone

Question 61

Describe the Peruvian anchoveta

Answer 61

most heavily exploited fish in the world.

Question 62

Describe the coastal ocean at mid-latitudes

Answer 62

• roughly 60% of the human population (4Bn people) live within 100 km of the coast.
• coastal seas lie above the continental shelf
• highly productive because of strong vertical mixing (especially the W coasts of continents)
• heavily exploited and heavily polluted
• oil spills are a constant threat

Question 63

Describe the pollution of the coastal ocean

Answer 63

agricultural run-off has created enormous dead zones that expand every year.

Question 64

… of coastal fisheries are responsible for nearly … of the world’s wild-caught seafood

Answer 64

40%, 40%

Question 65

Describe the kelp forest

Answer 65

• major temperate coastal ecosystem
• economically important
• directly harvested
• supports important fish and shellfish

Question 66

Describe mid-latitude kelp forests

Answer 66

• abundant
• support a high diversity of life
• ecologically unstable
• sensitive to over-harvesting of key animals

Question 67

Describe kelp

Answer 67

• multicellular brown algae
• often annual
• no true vascular system
• differentiation into multiple cell types
• can be highly productive
• support enormous biodiversity (30 to 70 species can live just within a single holdfast)
• significant 3D structure
• ecosystem engineer
• nurseries for commercially important fish species
• very high C:N ratio
• chemical compounds deter grazers

Question 68

List some kelp genera

Answer 68

• Laminaria
• Macrocystis
• Nereocystis
• Lessonia
• Ecklonia

Question 69

Which are the dominant kelp genera?

Answer 69

• Laminaria
• Macrocystis

Question 70

Describe the multiple cell types of kelp

Answer 70

• holdfast
• stipe
• blades

Question 71

Describe Macrocystis

Answer 71

• can grow up to 30cm/day
• reach a height of 30 m
• dense underwater forest.

Question 72

Describe kelp stipe

Answer 72

• supports many epiphytes
• e.g. Phycodrys rubens.

Question 73

Phycodrys rubens

Answer 73

red alga

Question 74

Describe red algal communities

Answer 74

• flourish under the kelp forest
• 40-180 spp around the UK
• support large numbers of invertebrates

Question 75

List some of the invertebrates supported by red algal communities

Answer 75

• brittle stars
• anemones
• crabs
• jellyfish

Question 76

Which commercially important fish species to kelp nurture?

Answer 76

• US rockfish
• European lobsters

Question 77

Describe sea urchins on kelp

Answer 77

• if reach a high enough population density and following a disturbance, can prevent kelp from regenerating
• convert a kelp forest into an urchin barren (does not then recover)

Question 78

Describe kelp specialists

Answer 78

• blue-rayed limpet (found at low tide around the UK)
• sea-urchin (specialises on eating the holdfast)

Question 79

Describe sea urchins

Answer 79

very high reproductive rates

Question 80

Describe urchin population control

Answer 80

• top-down controlled
• by predators, rather than by food

Question 81

Describe Enhydra lutris

Answer 81

• Sea-otters
• marine mammals
• feed on shellfish and echinoderms (sea urchins)

Question 82

Describe sea otter hunting for fur

Answer 82

• began in Russia in the 18th Century
• spread down the W coast of N America during the 19th Century
• by 1911, reduced to around 2000 animals
• hunting banned

Question 83

Describe Sea otters and kelp

Answer 83

• around Alaska, significant recovery of kelp forests occurred as sea otters expanded their range
• pattern repeats along much of the W coast of the US
• otter = keystone species
• control urchins
• allow kelp forests to flourish

Question 84

Describe kelp forests in N California

Answer 84

• collapsed
• warmer waters, strong El Nino events and a disease of the sunflower sea star

Question 85

El Niño events

Answer 85

block coastal upwellings

Question 86

Pycnopodia helianthoides

Answer 86

sunflower sea star

Question 87

Describe urchin barrens

Answer 87

‘alternative stable state’ phase shift