Download life in the marine environment some basics of biology

What is an Estuary
 An Estuary is
where freshwater
from rivers
merges with the
ocean and is
bordered by
extensive
wetlands
(mudflats or
saltmarshes)
Characteristics of Estuaries
 Salinity varies spatially and over the course of a day as
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the tides move in and out
Nutrients from the rivers enrich estuarine waters
making them one of the most biologically productive
environments on earth
Salt marsh grasses, algae, and phytoplankton are the
major producers
Many organisms are found in the muddy bottom
Estuaries rank among the environments most
affected by humans
Functions and Values of Estuaries
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Provide open space and recreation
Provide natural flood control
Purify the water
Produce oxygen
Are outdoor laboratories for scientists and
educators
Provide sediment traps and erosion control
Serve as nurseries for marine fishes
Provide homes for endangered species
Provide habitat for migrating, wintering and
breeding birds
Serve as repositories for native plants and animals
Types of Estuaries – Four basic
groups based on their origins
 Drowned River Valley or Coastal Plain – Fig. 12.1 –
formed as a result of the sea invading lowlands
and river mouths. This is the most common type
of estuary.
Types of Estuaries
 Bar-built estuary – Fig. 12.1 – formed when a barrier island
or sand bar separates a section of the coast where
freshwater enters. (Pictured below is an aerial view of Cape
Hatteras, North Carolina.)
Types of Estuaries
 Tectonic Estuary –
formed as a result
from sinking land
due to movements
of the earth’s
crust. San
Francisco Bay
formed in this
way.
Types of Estuaries
 Fjords – Fig. 12.2 – formed in a deep valley created
by a retreating glacier. (Kenai Fjord National
Park, Alaska)
Physical Characteristics of Estuaries –
unique because of mixing of salt and
freshwater
 Salinity fluctuates as the tides move seawater in
and out of an estuary.
 Organisms are subjected to these changes every
day and therefore have adapted to these
conditions.
 Other factors that influence salinity include; the
shape of the estuary, the bottom, wind and
evaporation, and freshwater runoff
Physical Characteristic - Salinity
 Salt Wedge – a
layer of denser,
saltier seawater
that flows along
the bottom
Salt Wedge
Physical Characteristic - Substrate
 Sand and other coarse material settle out first
near the river mouth
 Finer particles settle out into “main” body of
water, therefore most estuaries are soft mud (silt
& clay) which is very dense and rich in organic
material
 Decomposition by bacteria depletes oxygen in the
substrate and produces hydrogen sulfide (rotten
egg smell)
 Tidal flow keeps water in estuaries oxygen rich
Close up of Estuary Sand
Physical Characteristics
 Temperature – fluctuates widely because of tides,
organisms that are exposed at low tides also face
seasonal temperature changes
 Turbidity – estuaries usually have large amounts of
suspended sediments which can reduce water clarity
Coping with Salinity
 Maintaining the proper salt and water balance is
essential for all organisms.
 Organisms that live in estuaries must cope with
rapid changes in salinity.
 Most estuarine organisms are marine species that
have evolved to tolerate low salinities.
Euryhaline species can tolerate a
wide range of salinities.
Stenohaline species can only tolerate a narrow
range of salinities (yellow fin tuna)
Osmoconformers (molluscs and worms) – osmotic
balance is maintained by changing with the salinity of
the water
Osmoregulators keep internal salt balances
constant despite salinity levels of the water in
which they live
Osmoconformer vs Osmoregulator
Osmoconformer vs Osmoregulator
Coping with Salinity
Marine fish – have a lower salt concentration than
seawater, therefore tend to loose water; adaptations to
maintain homeostasis include (Fig. 4.14)
 Drinks seawater
 Excretes excess salt through gills
 Excretes small volumes of concentrated salty urine
Coping with Salinity
Adaptations of other marine
organisms
 Sea turtles/sea gulls/sea
lions have glands near the
eyes that excrete “salty”
tears (Fig. 4-15)
 Mangroves/spartina grass
– excrete excess salt
through leaves
Salt crystals on spartina grass
Coping with Salinity – Pickleweed
accumulates large amounts of water to
dilute the salts they take up.
Adapting to the Mud
 Most animals burrow or live in permanent tubes
beneath the sediment
 Inhabitants tend to be stationary or slow moving
 Salinity fluctuations are less drastic than in the
water column
 Organisms overcome the depletion of oxygen by:
 Pumping oxygen rich water into their burrows
 Some have blood that contains hemoglobin, an
oxygen carrying molecule
Adapting to the Mud
Estuarine Communities
 Different types of communities are associated
with various estuaries
 Open Water community includes those organisms
that come and go with the tide (plankton, fishes,
jellies).
 Other types of communities are permanent parts
of the ecosystem, these include:
 Mudflats
 Salt Marshes
 Mangrove Forests
 Sea-grasses
 Oyster Reefs
Open Water Community
 Organisms in this type of community include
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phytoplankton, zooplankton, and marine fish
that are flushed in and out by the tides.
Many types of marine fish and shrimp use
estuaries as nurseries for their young.
Some fish migrate through estuaries.
Anadromous – marine fish that live their lives in
the sea but return to freshwater to breed (salmon)
Catadromous – freshwater fish that migrate to the
sea to breed (freshwater eels)
Open Water Community
Zooplankton
Open Water Community
Phytoplankton
Open Water Community
Anadromous
Open Water Community
Catadromous
Mudflat Communities
 Low tides expose organisms to desiccation,
fluctuating temperatures and salinity, and
predation.
 Primary produces consist of diatoms, bacteria,
and some algae
 Consumers are typically burrowing deposit and
suspension feeders that feed on detritus
Mudflat Communities
Mudflat Communities
Mudflat Communities
Mudflat Communities
Mudflat Communities
Mudflat Communities
Mudflat Communities
Mudflat Communities
Salt Marsh Communities
 Salt marshes are grassy areas that extend along
the shores of estuaries and sheltered coasts in
temperate and subpolar regions.
 Salt marshes are subject to the same fluctuations
in salinity, temperature, and tidal changes that
affect mudflats.
 Pronounced zonation of vegetation in salt marsh
communities is a result of fluctuations in salinity,
height relative to the tide, and rate of evaporation
 Cordgrass (Spartinia alterniflora) is the most
common plant found where the marsh meets the
mudflat. Helps to stabilize the bottom.
Salt Marsh Communities
 Zonation depends on several factors: two important
ones are salinity and nutrient availability.
 Salinity changes depending on these conditions:
 a. frequency of tidal inundation
b. rainfall
c. tidal creeks and drainage
d. soil texture
e. vegetation
f. depth of water table
g. freshwater inflow
 Nutrient availability varies considerably, especially the
supply of usable nitrogen and phosphorous. Often there is
not enough oxygen present in marsh soils to combine into
useful nitrates and phosphates.
Salt Marsh Communities
Salt Marsh Communities
Salt Marsh Communities
Mangrove Forest Communities
 Mangrove forests are formed by mangroves,
tropical and subtropical trees and shrubs adapted
to inundation by seawater.
 Grow on protected coasts where muddy sediments
accumulate.
 The red mangrove is found along the coast of
Florida. Can be identified by its prop roots.
Mangrove Forest Communities
Mangrove Forest Communities
Mangrove Forest Communities
Mangrove Forest Communities
Coral growing on a
mangrove root.
Mangrove Forest Communities
Snapper living among the mangrove roots.
Mangrove Forest Communities
Cattle egret and nest in mangrove.
Sea Grass Communities
Roots help to stabilize the sediment and provide shelter to organisms
Florida lobster
(yummy)
Oyster Reef Communities
Oyster Reef Communities
Friends of Hunting Island help resort oyster reefs.