climate and biomes iv. aquatic systems. climate and biomes iv. aquatic systems a. overview...
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Climate and Biomes
IV. Aquatic Systems
Climate and Biomes
IV. Aquatic Systems
A. Overview
Characterized by physical characteristics and general biological parameters like productivity, not plant growth form (algae)
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streams
Where precip > evaporation, excess soil water runs to water table. Where water table is expressed above land = stream.
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streams
- High gradient
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streams
- High gradient- low primary productivity; no
upstream source of nutrients, organics from
riparian zone (allochthonous)
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streams
- High gradient- low primary productivity; no
upstream source of nutrients, organics from
riparian zone (allochthonous)
- usually with a complete canopy that reduces photosynthesis
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streams
- High gradient- low primary productivity; no
upstream source of nutrients, organics from
riparian zone (allochthonous)
- usually with a complete canopy that reduces photosynthesis
- sequence of riffle (production) and pool (decomposition)
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streams
- High gradient- low primary productivity; no
upstream source of nutrients, organics from
riparian zone (allochthonous)
- usually with a complete canopy that reduces photosynthesis
- sequence of riffle (production) and pool (decomposition)
- Communities driven by detritivores consuming allochthonous inputs, not aquatic primary productivity
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streamsb. Rivers
Rivers = order 6-12
Ohio = 8Mississippi = 10Amazon = 12
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streamsb. Rivers- lower gradient; more volume and force
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streamsb. Rivers- lower gradient- Higher productivity, fed by nutrients from
upstream - wider waterway allows sunlight to feed
local productivity and decomposition (autochthonous)
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streamsb. Rivers- lower gradient- Higher productivity, fed by nutrients from
upstream - wider waterway allows sunlight to feed
local productivity and decomposition (autochthonous)- meanders dominate, creating lateral
habitats from cut bank and pool to sand bar and riffle across the course of the river.
Oxbow Lake
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streamsb. Rivers- lower gradient- Higher productivity, fed by nutrients from
upstream - wider waterway allows sunlight to feed
local productivity and decomposition (autochthonous)- meanders dominate, creating lateral
habitats from cut bank and pool to sand bar and riffle across the course of the river.
- in large, deep rivers, the amount of sediment carried in the river, coupled with water depth, may reduce algal photosynthesis at depth and decrease productivity.
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streamsb. Rivers
a. Headwater Streamsb. Rivers
River Continuum Concept
Moving downstream:- NPP increases, changes from
periphyton (attached algae) to phytoplankton (floating).
- Proportional E input by CPOM declines, shredders decline.
- FPOM and UFPOM increase, and collectors (filterers) increase
- “downstream succession” of increasing productivity
- Upstream, P/R < 1- Downstream, P/R > 1
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streamsb. Riversc. Marshes and Swamps- these are habitats that are flooded periodically, either by rainfall, rivers, or
tidal inundation (though these would be saline salt marshes).
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)
a. Headwater Streamsb. Riversc. Marshes and Swamps- They are highly productive habitats, receiving nutrients from both aquatic
and terrestrial sources. They are often shallow, also, so there are high autochthonous productivity. This high biological productivity can reduce oxygen levels in the water and sediment, however. Also, the high biological activity serves to detoxify and filter surface and ground water.
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)2. Lentic Systems a. Lakes
- temporary habitats, as they will eventually fill with sediment carried by stream inputs or surface runoff.- formed by natural dams (beaver, mudslide), glacial retreat, limestone erosion, changes in river channels (oxbows), continental drift (rift lakes), and man-made dams
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)2. Lentic Systems a. Lakes
- Littoral Zone: edge with rooted plants - Limnetic/Pelagic Zone: no rooted plants; in deep lakes this may be further subdivided-subdivided by temperature stratification:
epilimnion thermocline hypolimnion
-subdivided by light penetration: euphotic zone
compensation depthaphotic zone
- Benthic zone: sediments where decomposition occurs and nutrients accumulate
Lentic Systems: Ponds and Lakes
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems (moving waters)2. Lentic Systems a. Lakes
- In deep lakes, the spatial separation of nutrients beneath the photic zone means that algae are nutrient limited until turnover occurs in fall and spring.- Deep lakes often have low productivity = oligotrophic. Shallow lakes have more productivity = eutrophic. The release of nutrient limitation – eutrophication.
IV. Aquatic Systems
B. Freshwater Habitats 1. Lotic Systems 2. Lentic Systems b. Ponds and bogs
- A smaller water body, often later in lake succession:
LakePondBogMarshMeadow
IV. Aquatic Systems
C. Marine Habitats 1. Estuaries
- Place where rivers meet the ocean; often made discrete by barrier islands offshore.
IV. Aquatic Systems
C. Marine Habitats 1. Estuaries
- Place where rivers meet the ocean; often made discrete by barrier islands offshore.- direction of water flow, depth, and salinity changes with the tides
IV. Aquatic Systems
C. Marine Habitats 1. Estuaries
- highest productivity aquatic habitat; nutrients accumulate and feed surrounding salt marshes or mangroves, which add nutrients to the estuary. Truly a highly connected mix of terrestrial, marine, and aquatic habitats.
IV. Aquatic Systems
C. Marine Habitats 1. Estuaries2. Intertidal (littoral) - habitat between high and low tide- zonation of organisms based on
desiccation tolerance and frequency and length of exposure.
IV. Aquatic Systems
C. Marine Habitats 1. Estuaries2. Intertidal (littoral) 3. Neritic Zone (Cont. Shelf)- usually to a depth of 200m
- productive because benthic nutrients are close to the photic zone and the habitat is well mixed.
Marine Systems
IV. Aquatic Systems
C. Marine Habitats 1. Estuaries2. Intertidal (littoral) 3. Neritic Zone (Cont. Shelf)4. Oceanic (Pelagic) - open ocean to depth of 5 miles in trenches. - photic and aphotic zones - very low productivity except in upwelling areas
where nutrients are brought up into the photic zone, or hydrothermal vent communities where chemosynthetic bacteria are the primary producers.
IV. Aquatic Systems
C. Marine Habitats 1. Estuaries2. Intertidal (littoral) 3. Neritic Zone (Cont. Shelf)4. Oceanic (Pelagic)5. Coral Reefs- typically shallow, tropical habitats
with high productivity of algal symbiots in coral polyps.
- also, structural complexity of the reef increases habitat variation and diversity.
- most diverse marine systems.
IV. Aquatic Systems
C. Marine Habitats 1. Estuaries2. Intertidal (littoral) 3. Neritic Zone (Cont. Shelf)4. Oceanic (Pelagic)5. Coral Reefs6. Hydrothermal Vent Communities- primary producers are chemosynthetic sulphur bacteria; some
of which have become endosymbionts of giant polychaete worms (Riftia sp.).