27 pages covering all 12 lectures in this module. Goes over: properties of water, algae, nutrients, the microbial loop, macroinvertebrates and organic pollution in rivers, zooplankton in lakes, estuaries, global warming and vertebrates in Antarctica.
L1 – Water Characteristics
Mixing Regime:
Lotic water: running, moving + turbulent water e.g. river
• Organisms attached to each other + sediment
Lentic water: standing water + strong currents beneath. Currents go around the sides of body
• Organisms need floating ability
• Some organisms attached
Temperature + Density:
• Water more viscous + dense > air
o Plants don’t need to invest energy into structural tissues as upthrust helps them
stand up with increased SA for photosynthesis
-> aquatic plants reproduce faster than terrestrial plants
• Water higher heat capacity > air
o Water retains heat + is a more stable environment
• As temperature increases, mass of freshwater decreases
o Freshwater most dense at 4 degrees + freezes at 0 degrees
o Seawater most dense at 1.062 degrees + freezes at -1.93 degrees
• Ice less dense < water
o Aquatic system ice forms a barrier over the water surface, water
Light:
Vertical Structures:
1. Shallow Lakes < 3m: sunlight increases temperature of surface water = decreases mass ->
single circular motion
2. Deep Lakes > 3m: Homothermal = temperature same at top + bottom -> deeper water
doesn’t mix with surface water -> stratification: 2 separate bodies with own circulating
system e.g. lakes, estuaries + coastal waters
Stratification Layers:
1. Epilimnion: warm top layer + least nutrients
2. Thermocline: most life = most food – nutrients from hypolimnion diffuse upwards
3. Hypolimnion: cold bottom layer + most nutrients
Stratification Types:
1. Amictic: permanently stratifies = oceans + Antarctic lakes
2. Holomictic: never stratifies = shallow lakes, coastal waters, rivers
3. Monomictic: stratifies once a year = deep lakes
High T in summer -> increases depth of top layer = thermocline is deeper
In autumn -> circulation breaks down stratification = overturn
4. Oligomictic: stratifies but not every year
5. Dimictic: stratifies 2x a year
6. Polymictic: stratifies + mixes frequently
7. Meromictic: partially stratified
Light Attenuation: absorption
Euphotic zone: where algae can photosynthesise
, 1. Deep euphotic zone = low nutrients + more humic material = brown
2. Shallow euphotic zone = high nutrients + less humic material = clear
Blue light has highest light attenuation = is best water penetration
Catchment:
Space around water body, altitude, size, utilisation, geology
Freshwater = influenced by catchments
Open ocean = has no catchment
Oxygen Availability:
Less O2 availability in water > air
Warm blooded mammals = breath air
Cold blooded vertebrates + some invertebrates = gills
Microbes + some invertebrates = diffusion
O2 availability: Air = 210mg O2/L > water = 10mg O2/L
Air O2 diffusion coefficient = 0.198 Water O2 diffusion coefficient = 0.000025
• Gases more soluble in cold water
Trophic Saturation:
1. Ultra-oligotrophic: 90% O2 saturation, <4ug/L TP, <1 ug/L Chl a
2. Oligotrophic: 80-90% O2 saturation, 4-10ug/L TP, 1-2.5ug/L Chl a
3. Mesotrophic: 40-80% O2 saturation, 10-35ug/L TP, 2.5-8ug/L Chla
4. Eutrophic: 0-40% O2 saturation, 35-100ug/L TP, 8-25ug/L Chl a
5. Hyper-eutrophic: 0% O2 saturation, >100ug/L TP, >25ug/L Chl a
L2 – Algae + Nutrients
Plankton: microbe floating/drifting
Algae: functional guild
Guild: group of species = exploit same class of environmental resources in a similar way
• Primary producers
• Prokaryotes + eukaryotes
1. Marine = macroscopic algae + microscopic algae
2. Freshwater = macroscopic algae
Deep chlorophyll maxima: region in body with highest chlorophyll concentration
• Algae need 1% light penetration
Major Resources:
- don’t use organic elements
• Inorganic carbon = CO2
• Inorganic nitrogen = NO4, NO3, N2
• Inorganic phosphorous = PO4
• Sunlight
Redfield Ratio = C:N:P = 106:16:1
Algal Carbon Acquisition: photosynthesis fixes inorganic carbon using blue + red sunlight energy and
chlorophyll a
Photosynthetically Active Radiation: PAR = 400-700nm
Chl a concentration = directly proportional to algal concentration
Algal Nutrient Acquisition: concentration + ratio
• C never limiting
, • Diffusion -> N+P
1. Marine = N limited – N:P < 16
2. Freshwater = P limited – N:P > 16
Algal Groups:
Prokaryotes
1. Cyanobacteria:
• Filamentous + < 3um
• Single celled
• Colonial
• Accessory pigments:
a. Phycoerythrin: dominant in marine = pink
b. Phycocyanin: dominant in freshwater = blue/green
• Specialised cells = heterocyst: fixes N2
o Anaerobic + rest of filament = aerobic
o Excel at high nutrient concentrations -> toxic
Eukaryotes:
2. Diatoms:
• Silica frustule: hard cell wall = silicic acid
• Mostly attached + can release mucus -> movement
• Brown chloroplasts
• 23% of global carbon fixation
• 2 shapes:
a. Centric: 2 chloroplasts in line + gap in middle = Planktonic
b. Pennate: 2 parallel chloroplasts along length of cell = Attached
3. Green Algae:
a. Chlorophytes:
• Non-motile
• Mostly planktonic
• Mostly colonial
b. Autotrophic Flagellates:
• Flagella -> movement in 1 direction
• Mostly planktonic
• Eugelena has lipid rich eye spots – detect light -> uses flagella to swim towards
optimum light -> euglena found in distinct layer in water column
• E.g. volvox, synura, euglena
c. Dinoflagellates:
• 2 flagella
o 1 around waist = spin
o 1 at base = propulsion
• Mostly planktonic
• Prevalent in summer
• Marine dinoflagellates produce neurotoxins
Algae in Thermocline + Epilimnion:
Algae normally found in thermocline as more nutrients
If thermocline = brown water -> algae move towards epilimnion
The benefits of buying summaries with Stuvia:
Guaranteed quality through customer reviews
Stuvia customers have reviewed more than 700,000 summaries. This how you know that you are buying the best documents.
Quick and easy check-out
You can quickly pay through credit card or Stuvia-credit for the summaries. There is no membership needed.
Focus on what matters
Your fellow students write the study notes themselves, which is why the documents are always reliable and up-to-date. This ensures you quickly get to the core!
Frequently asked questions
What do I get when I buy this document?
You get a PDF, available immediately after your purchase. The purchased document is accessible anytime, anywhere and indefinitely through your profile.
Satisfaction guarantee: how does it work?
Our satisfaction guarantee ensures that you always find a study document that suits you well. You fill out a form, and our customer service team takes care of the rest.
Who am I buying these notes from?
Stuvia is a marketplace, so you are not buying this document from us, but from seller gotham9059. Stuvia facilitates payment to the seller.
Will I be stuck with a subscription?
No, you only buy these notes for $9.21. You're not tied to anything after your purchase.