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Open Oceans: Pelagic Ecosystems

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Title: Open Oceans: Pelagic Ecosystems


1
Open Oceans Pelagic Ecosystems
2
Bacterioplankton
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Elements of an Ecosystem Approach
  • What are the components?
  • What are the special environmental challenges?
  • What are the special adaptations?
  • How do we understand form function?
  • What are the controlling processes?
  • What are the important patterns?

11
Pelagic System Components
  • The area of open water of oceans, including the
    entire water column away from the bottom
    substrates
  • Nutrients and salts
  • Plankton
  • Nekton

12
Dimensions of Variation for Plankton
  • Size virus (2 x 10-7 m) to jellyfish (0.2 m)
  • Energy processing nutritional modes
  • photosynthetic (phytoplankton)
  • heterotrophic, ingestive (zooplankton)
  • heterotrophic, absorptive (mycoplankton)
  • infective (viroplankton)
  • Life history variation
  • permanent residents
  • transient members of the plankton community

13
Phytoplankton
Dinoflagellates
Foraminifera
Diatoms
14
Coccolithophores
15
Coccolithophore bloom, English Channel
20 km
16
Mixture of groups producing a bloom
Baltic Sea
1 Coccolithophores 2 Diatoms 3 Eukaryotic
picoplankton
17
Diversity of form
18
Zooplankton protista
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Zooplankton crustacea
20
Copepod
21
Zooplankton larvae
22
Challenges
  • Maintaining access to nutrients, light,
    resources
  • Avoid being food for larger consumers

23
Adaptations for maintaining position
  • Use water movements
  • Convection cells (from diurnal cycles in heat)
  • Langmuir convection cells from wind

24
Langmuir patterns in the Galapagos
25
Adaptations for maintaining position
  • Affect buoyancy
  • Use lighter ions for osmotic balance (e.g., use
    chlorides rather than sulphates)
  • Develop flotation organs (gas, oils, fats)
  • Manipulate resistance (use viscosity)
  • parachute morphology
  • elaborate appendages

26
Global scale patterns of pelagic productivity
27
What are controlling processes?
  • Primary Productivity
  • Different estimates of productivity
  • Gross Primary Productivity
  • Net Primary Productivity
  • Standing crop
  • and Grazing Rates

28
What is productivity?
  • primary productivity is defined as the total
    quantity of carbon fixed by autotrophs
  • a rate expressed as grams of carbon fixed per
    square meter of sea-surface per unit of time
  • gross primary production is the total amount of
    organic matter produced by autotrophs
  • net primary production is the energy remaining
    after respiratory needs have been met
  • NPP Gross Primary Production - Respiration

29
Questions to consider
  • Why should we care about patterns of biological
    productivity in oceans?
  • What are the spatial patterns of productivity?
  • What mechanisms promote or limit productivity?

30
Why should we care about productivity?
  • Photosynthetic activity in oceans created current
    O2-rich atmosphere
  • Plankton form ocean sediments fossil fuels
  • Plankton are a critical part of carbon pump
    that influences atmospheric CO2
  • Phytoplankton form the base of food webs and
    associated biological diversity
  • Limits to productivity may limit the amount of
    harvestable biomass from ocean ecosystems

31
Measuring Primary Productivity Data
  • Standing crop methods
  • Chlorophyll concentration (water extraction,
    satellite)
  • Cell counts (flow cytometers)
  • Rate measurements
  • Light-dark bottle method
  • Carbon-14 uptake
  • Advantages disadvantages

32
chlorophyll density temperature
33
Link between producers grazers
34
Measuring Primary Productivity Inferences
  • Simple models integrate different parameters to
    estimate rates of productivity
  • Model components (Field et al. Science
    281237-240)
  • chlorophyll concentration
  • water depth in photic zone
  • fraction of water column where photosynthesis is
    light-saturated
  • surface temperature

35
Results of productivity model
36
Some patterns
  • average primary productivity in the oceans is 50
    g C/m2/yr
  • 300 g C/m2/yr considered relatively high rate of
    primary productivity 
  • low rates of primary productivity typically 20 to
    30 g C/m2/yr 
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