Marine ecology is the branch of ecology dealing with the interdependence of all organisms living in the ocean, in shallow coastal waters, and on the seashore. The marine environment for all organisms consists of non-living, abiotic factors and living, biotic factors.
Abiotic The abiotic factors include all the physical, chemical and geological variables that have a bearing on the type of life that can exist in an area. Included are
Biotic The biotic factors are the interactions among living organisms. Zonation Two major divisions in the marine world.
The pelagic zone include the productive coastal waters..neritic zone and deep waters of the open ocean..oceanic zone. Another division in the pelagic zone is related to light penetration..the photic and aphotic zones.
The benthic zone extends from the seashore to the deepest parts of the sea. The material that makes up the bottom is the substratum and the organisms living there are the benthos.
Tides uncover parts of this zone and the area uncovered is the intertidal zone, above is the supratidal zone, affected by salt spray but not covered by sea water and below the intertidal zone is the subtidal zone..submerged and extending seaward. The elevation and slope determines the length of time its exposed. This affects organisms living there because some are restricted to zones according to their adaptations to this type of zone (intertidal etc.).
Organisms living in pelagic waters also put up with changes in salinity, temperature etc. and inhabit the coastal areas etc. which fit their adaptations. (can withstand large changes (eury-- prefix) and narrow tolerance (steno))
Other zones include the surface waters of the coastal areas called the neritic zone and the waters of the ocean called the epipelagic zone.The open ocean is less productive than the neritic zone which contains plant plankton, fish larva, invertebrate larva that will eventually end up near the coast.
The open ocean is divided into zones depending on the amount of light it receives...from the epipelagic layer to the mesopelagic zone 200-1000m in which daytime inhabitants migrate upwards during the night, bringing back nutrients and some exhibit bioluminescence (light producing organs called photophores). The deep sea layers bathypelagic 1000-4000m and the abyssopelagic zone (below 4000m) have limited food supplies although bacteria have been found that can make their own food.
TROPHIC (FEEDING) RELATIONSHIPS Energy transfer is accomplished in a series of steps by groups of organisms known as autotrophs, heterotrophs, and decomposers. Each level on the pyramid represents a trophic level.
Autotrophs absorb sunlight energy and transfer inorganic mineral nutrients into organic molecules. The autotrophs of the marine environment include algae and flowering plants and in the deep sea are chemosynthetic bacteria that harness inorganic chemical energy to build organic matter...AUTOTROPHIC NUTRITION..supply food molecules to organisms that can't absorb sunlight.
HETEROTROPHS Consumers that must rely on primary producers as a source of energy...heterotrophic nutrition. The energy stored in the organic molecules is passed to consumers in a series of steps of eating and being eaten and is known as a food chain. Each step represents a trophic level and the complex food chains within a community interconnect and is known as a food web.
DECOMPOSERS The final trophic level that connects consumer to producer is that of the decomposers. They live on dead plant and animal material and the waste products excreted by living things. The nutritional activity of these replenish nutrients that are essential ingredients for primary production. The dead and partially decayed plant and animal tissue and organic wastes from the food chain are DETRITUS. This contains an enormous amount of energy and nutrients. Many filter/deposit feeding animals use detritus as food. Saprophytes decompose detritus completing the cycle.
ENERGY TRANSFERS IN MARINE ENVIRONMENTS Primary producers usually outnumber consumers and at each succeeding step of the food chain the numbers decrease. The numerical relationship is called the pyramid of numbers. (base as opposed to each step.) The energy pyramid is the energy distribution at each trophic level as it passes from producers through the consumers. Some energy is lost as it passes to the next level because
Generally only 10% will pass on to the next level. (The shorter the better..)
FOOD RELATIONSHIPS Predator-prey..predator kills and eats another organism... the prey. Antipredator defenses have evolved LIKE
.
Scavengers..feed on dead plants and animals that they have NOT killed...crabs ripping chunks of flesh from fish on the beach are scavengers. Most scavengers consume detritus rather than flesh and deep sea animals can feed on both.
Symbiotic...refers to close nutritional relationship between two different species...
Population Cycles ..density or numbers of individuals depends on
Now to be stable the two must be in equilibrium but under favorable conditions, populations can increase numbers (can be seasonal and geographical) but this also increases mortality because of decreased food supply and living space and increased predation. If mortality is greater, then the population decreases. These favorable conditions depend on
Silicon dioxide needed for outer glass covering of diatoms and forms internal structural parts of sponges, K and NO4 and PO4 needed in plant proteins, lipids and carbohydrates during photosynthesis. and the nutrients can be considered a limiting factor as well as pH temp. light , depth salinity nesting sites and predation.
Distribution Pelagic world include the drifting organisms...plankton and the swimmers...nekton.
Plankton comprise the large and small organisms that drift or float while tides and currents move them through the water. Most plankton do have a limited ability to move and can migrate vertically through the water from day to night. Some drifters can photosynthesize while others are consumers.. Plankton is very important as it occupies the first two or three links in the marine food chains.
Nekton use fins, jets of water, strong flippers, flukes and flippers to swim through the water.
Benthic If the organism resides primarily in or on the substrate and doesn't swim or drift for extended periods as an adult it is considered benthic. They either burrow , crawl, walk, (motile) or are sessile..permanatly affixed to the substrate or each other. Demersal organisms, such as flounder alternate between swimming and resting on the bottom. Living on the bottom are epifauna and living within are infauna. The substrate could be a source of food.
PLANKTON Phytoplankton, plant plankton,are
the important primary food producers in the pelagic environment.
The animal members of the plankton are the zooplankton which
range from bacteria size to 15m jellyfish. Phytoplankton are the
trees of the sea which float near the surface to make the most of
the sunlight for photosynthesis.Two forms of phytoplankton,
dinoflagellates and diatoms are particularly important as
founders in the planktonic food webs because most of the animal
life in the oceans depend on these. The dinoflagellates are
usually found in warmer waters, and the diatoms are usually more
abundant in cooler waters. Other plankton, coccolithophores and
silicoflagellates are also abundant as well as blue-green algae
(in certain locations it can become the dominant) and green algae
but usually in the coastal water (some are in the open ocean as
findings of chlorophyll b indicate. Phytoplankton have
adaptations which deal with methods of keeping them in the upper
zones to stay in the sunlight.. Size...small sizes retards
sinking, structure...shape/structure of the diatoms effects
sinking rate and density...decrease by storing droplets of oil in
the cytoplasm. Blooms Although unknown, the availability of
nutrients, amount of vertical mixing, salinity, density,
temperature, and depth of water affect phytoplankton growth
rates. Blooms called red tides have occurred in almost all
oceans. Red tides usually refer to the discoloration of the
waters as a result of the absorption of light by pigmentation in
planktonic organisms. The red water usually results from actions
of non-toxic organisms and the term red tide is inadequate when
used with reference to PSP (paralytic shellfish poisoning) and
toxic dinoflagellates will not always discolor the water (too
few) but may be numerous enough to toxify shellfish. Some
mysteries have been solved but evidence that PSP may be
increasing in intensity and spreading to new areas is surfacing.
About 60 species of dinoflagellates may color offshore waters
however only 6 have been shown to produce toxic substances. Some
toxins, saxitoxin, is 50x more poisonous than curare (used by SA
Indians). Repeated cell divisions as result of long period of dry
weather following a violent storm which stirs up bottom
sediments, reach concentrations of 25,000 dinoflagellates /ml of
water. Bioluminescent phytoplankton bloom in the ocean and
produce a bluish-green light. Phosphorescent Bay in Puerto Rico
contains high concentrations of bioluminescent phytoplankton
throughout the year. One type, Noctiluca sp. Disturbing water,
passing of boat, wave breaking, initiates bioluminescence.
Zooplankton..500,000 per gal and range in size from single cell
to jellyfish. Almost any animal phylum can be found wandering
through the sea but the most common are Copepods (95%). Two types
of zooplankton....Holoplankton or permanent members of the
community and temporary residents called Meroplankton.
Holoplankton have evolved efficient means of remaining
adrift...special appendages, droplets of oil and wax, tread
water, jelly-like layer, gas-filled float. A majority of inverts
and many verts. have planktonic stages (meroplankton) Drifting
eggs and larva of fish, crabs, barnacles, worms, clams, snails,
sponges, lobsters, etc. They use the water mass to feed and
disperse their planktonic young to new habitats. The reproductive
cycles often coincide with maximum concentrations of food and
favorable currents. EX. polar oceans, spring phyto. bloom
triggers increases in zooplankton coinciding with migration
patterns of whales, seals and penguins. Vertical migrations
refers to Copepods and other zooplankton moving up toward the
surface to feed in the evening responding to the changing light
reducing predation during the day because they are in deeper
layers. This varies among species but light, shadows and pigments
of phytoplankton (color) helps zooplankton locate food. Thus
buoyancy, mobility, vertical migration, and chemical sensing
enables Copepods to search open water for concentrations of food.
Trophic levels in zooplankton communities Energy incorporated in
organic molecules by marine plants flows to the zooplankton
community in a complex series of interconnected food chains. Each
chain or part of the web serves to link phytoplankton to larger
pelagic animals through the zooplankton. Herb. zoo eat
phytoplankton while carniv. zoo occupy the third level as
secondary consumers. Nekton Free swimming organisms equipped to
direct their movements through the sea including cephalopods,
fishes, marine mammals, sea turtles and marine birds. Many are at
the top of the trophic levels either as carnivores or herbivores
without natural predators..except man. Swimming allows escape or
movement toward food and methods of locomotion are very diverse,
from jets of water, flippers, large tail fins and flukes.
Planktivorous nekton are animals that feed directly on plankton
such as baleen whales and some fish. Herbivorous Nekton are ones
that feed on large seaweeds ad sea grasses (turtles and manatees)
Carnivorous Nekton are the dominant carnivorous animals of the
pelagic environment and generally these animals migrate great
distances in search of food. Production Food production occurs
mainly through Photosynthesis. It is measured and called Primary
food production which will occur in the photic zone as
phytoplankton manufacture organic matter during photo. The
primary productivity varies seasonally and geographically. It is
measured as g of Carbon/m2/year. (Long Island Sound 500g,
Antarctica. 2-400g etc.) . It seems that the more vertical mixing
that occurs in an area, the higher the primary production is
because in the tropics where there is little vertical mixing,
their Primary Productivity is low because of the depletion of
nutrients in the surface waters. Primary productivity decreases
as depth increases as there is less light and less photo.
Accessory pigments in algae enable them to make the most of the
little light that does get to them. The boundary where the food
production (photo) is balanced out by the rate of respiration
(the use of the food) is called the compensation depth. Copepods
metabolize droplets of diatom oil to liquid waxes and fats which
can be used as long-term energy reserves. (waxes; long/fats
short). It is these waxes and oils that get used for blubber when
the Copepods/krill are fed on by marine birds and mammals.
Detritus food chains are also secondary when decaying material
enter the detritus chain as decaying materials, wastes, pieces of
animal tissue. The swarms of Copepods feeding on diatoms excrete
packets of partially digested matter called fecal pellets. These
pellets usually aren't eaten by other pelagic organisms and
provide food for bacteria when they settle as well as a host of
detritus feeders on the bottom (transfer of energy from the top
to the bottom). While there is a loss of energy to the grazers,
many consumers are adapted to feed on detritus thereby returning
energy to the food chains. Chitionolytic bacteria can break down
chitin which represents an enormous source of organic carbon.
Some are even symbiotic and found in the intestines of certain
pelagic organisms to help them digest chitin. These bacteria play
a big role in making sure the billions of tons of chitin produced
in the marine environment each year get broken down and their
nutrients are returned to the primary food makers.