Estuaries Flashcards
How do we define and classify estuaries (4)
Salinity
Geomorphology
Sediment patterns
Oxygen
Estuary Definiton
Where river meets ocean
Upper Limit: Defined as the point where the tidal influence begins in the river
Lower Limit: Defined as the point where the river “plume” ends. This is complex and subjective because the influence of the rivers extends over large spatial scales
Estuary Classification Scheme (3)
Freshwater-seawater mixing: Determines longitudinal, and vertical salinity variability
Geomorphology: determines the shape of the estuary, habitat availability
Tidal range: determines emersion/submersion times
Salinity
The measure of total dissolve inorganic solids
ppt: number of grams of inorganics per 1000 grams of water
PSU: electrical conductivity of seawater compared to standard potassium chloride solution
Longitudinal salinity gradient
Oligohaline: 0.5-5 psu
Mesohaline: 5-18 psu
Polyhaline: 18-30 psu (very variable)
Euhaline: >30 psu
How do tides affect salinity?
Receding tides decrease the amount of salinity
Rising tides increase the amount of salinity
Osmoconformity
Maintain internal solutes = to medium
The salinity of body fluids same as surrounding waters
Most tolerance to salinity changes
Osmoregulation
Can regulate/maintain internal salt levels
Some fish and invertebrates
Intermediate tolerance to salinity changes
Stenohaline
Limited salinity tolerance
Euryhaline vs Stenohaline
Euryhaline can tolerate salinity fluctuations (mostly osmoconformers)
Stenohaline cannot tolerate salinity fluctuations
Tidal Classifications of Estuaries (4)
Microtidal estuaries (<2m) Mesotidal estuaries (2-4m) Macrotidal estuaries (4-6m) Hypertidal estuaries (>6m)
Estuary Sediment Size
The river deposits its sediments with larger particles appearing further upriver
The tides deposit its sediments with larger particles further from the shore
This means where they meet at the mouth of the river there are fine sediments that form mudflats
Effect of sediment transport on benthic marine organisms
Water clarity and food availability
Sediments clog feeding mechanisms for filter feeders
Limit light available for photosynthesis
Organic rich particles fuel bacterial respiration, deplete oxygen levels
Organix rich particles/detritus might provide food for deposit feeders
Estuaries are ephemeral on geological time scales (3)
Changes in sea level due to ice cap formation/thawing (sea level rises and falls, coastline moves)
Sedimentation (river-borne terrestrial materials from eroding continents can infill estuaries)
Tectonic activity (can create or eliminate estuarine basins )
Estuary Characteristics that could affect benthic communities (5
Salinity variation: with distance from the river and from tides
Low oxygen conditions: especially in glacial fjords
Tides
Sediment transport
Geological age
