Download - Marine Life and the Marine Environment
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CHAPTER 12 Marine Life and the Marine
Environment
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Chapter Overview• There are more than 250,000 identified marine
species.• Most live in sunlit surface seawater.• A species’ success depends on the ability to
– find food,– avoid predation,– reproduce, and– cope with physical barriers to movement.
• Marine organisms are adapted to the ocean’s physical properties.
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Classification of Life• Three domains
– Archaea– Bacteria– Eukarya
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Classification of Living Organisms
• Five kingdoms– Monera– Protoctista– Fungi– Plantae– Animalia
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Five Kingdoms of Organisms• Monera
– Simplest organisms, single-celled– Cyanobacteria, heterotrophic bacteria,
archaea• Protoctista
– Single- and multicelled with nucleus– Algae, protozoa
• Fungi – Mold, lichen
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Five Kingdoms of Organisms• Plantae
– Multicelled photosynthetic plants– Surf grass, eelgrass, mangrove, marsh
grasses• Animalia
– Multicelled animals– Range from simple sponges to complex
vertebrates
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Taxonomic Classification
• Carolus Linnaeus – 1758– Developed basis of modern classification of
organisms• Taxonomy – systematic classification of
organisms– Physical characteristics– Genetic information
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Taxonomy • Kingdom• Phylum• Class• Order• Family• Genus• Species
– Fundamental unit– Population of
genetically similar, interbreeding individuals
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Classification of Marine Organisms
• Plankton (floaters)• Nekton (swimmers)• Benthos (bottom
dwellers)
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Types of Plankton
• Most biomass on Earth consists of plankton.
• Phytoplankton– Autotrophic
• Zooplankton – Heterotrophic
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Other Types of Plankton• Bacterioplankton • Virioplankton• Holoplankton
– Entire lives as plankton• Meroplankton
– Part of lives as plankton– Juvenile or larval stages
• Macroplankton– Large floaters such as jellyfish or Sargassum
• Picoplankton– Very small floaters such as bacterioplankton
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Life Cycle of a Squid
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Nekton
• Independent swimmers• Most adult fish and squid• Marine mammals• Marine reptiles
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Nekton
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Benthos
• Epifauna live on the surface of the sea floor.• Infauna live buried in sediments.• Nektobenthos swim or crawl through water
above the seafloor.• Benthos are most abundant in shallower
water.• Many live in perpetual darkness, coldness,
and stillness.
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Benthos
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Hydrothermal Vent Communities
• Abundant and large deep-ocean benthos• Discovered in 1977• Associated with hot vents• Bacteria-like archaeon produce food using
heat and chemicals.
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Number of Marine Species
• More land species than marine species• Ocean has relatively uniform conditions• Less adaptation required, less speciation• Marine species overwhelmingly benthic
(98%) rather than pelagic (2%)
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Adaptations of Marine Organisms
• The marine environment is more stable than land.
• Organisms in the ocean are less able to withstand environmental changes.
• Marine animals do not risk desiccation.
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Adaptations of Marine Organisms
• Physical support– Buoyancy– How to resist sinking– Different support
structures in cold (fewer) rather than warm (more appendages) seawater
– Smaller size
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Adaptations of Marine Organisms
• High surface area to volume ratio– Unusual appendages
to increase surface area
• Oil in micro-organisms to increase buoyancy
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Viscosity and Streamlining Adaptations
• Streamlining important for larger organisms
• Less resistance to fluid flow
• Flattened body• Tapering back end
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Temperature and Marine Life• Narrow range of temperature in oceans• Smaller variations (daily, seasonally, annually)• Deep ocean is nearly isothermal
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Ocean Temperature
• More stable than land for four reasons– Higher heat capacity of water– Ocean warming reduced by evaporation– Solar radiation penetrates deeply into ocean
layers– Ocean mixing
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Cold vs. Warm Water Species
• Smaller in cooler seawater• More appendages in warmer seawater• Tropical organisms grow faster, live shorter,
reproduce more often• More species in warmer seawater• More biomass in cooler seawater (upwelling)
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Temperature and Marine Organisms
• Stenothermal– Organisms withstand small variation in
temperature– Typically live in open ocean
• Eurythermal– Organisms withstand large variation in
temperature– Typically live in coastal waters
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Salinity and Marine Organisms
• Stenohaline– Organisms withstand only small variation in
salinity– Typically live in open ocean
• Euryhaline– Organisms withstand large variation in salinity– Typically live in coastal waters, e.g., estuaries
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Salinity Adaptations
• Extracting minerals from seawater
• High concentration to low concentration– Diffusion– Cell membrane
permeable to nutrients, for example
– Waste passes from cell to ocean
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Osmosis • Water molecules
move from less concentrated to more concentrated solutions
• Osmotic pressure– In more concentrated
solutions– Prevents passage of
water molecules• Isotonic• Hypertonic• Hypotonic
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Marine vs. Freshwater Fish
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Dissolved Gases
• Animals extract dissolved oxygen (O2) from seawater through gills.
• Gills exchange oxygen and carbon dioxide directly with seawater.
• Low marine oxygen levels can kill fish.• Gill structure and location varies among
animals.
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Gills on Fish
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Water’s Transparency
• Many marine organisms see well.
• Some marine organisms are nearly transparent.– Elude predators– Stalk prey
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Adaptations to Marine Environment
• Camouflage through color patterns
• Countershading – dark on top, light on bottom
• Disruptive coloration – large bold patterns, contrasting colors make animal blend into background
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Camouflage and Countershading
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Water Pressure
• Increases about 1 atmosphere (1 kg/cm2) with every 10 meters (33 feet) deeper
• Many marine organisms – no inner air pockets
• Collapsible rib cage (e.g., sperm whale)
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Divisions of the Marine Environment
• Pelagic (open sea)– Neritic (< 200 meters) and oceanic
• Benthic (sea floor)– Subneritic and suboceanic
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Pelagic Environment
• Divided into biozones • Neritic Province –
from shore seaward, all water < 200 meters deep
• Oceanic Province – depth increases beyond 200 meters
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Oceanic Province• Further subdivided into four biozones• Epipelagic
– Only zone to support photosynthesis– Dissolved oxygen decreases around 200 meters
• Mesopelagic – Organisms capable of bioluminescence common
• Bathypelagic• Abyssopelagic
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Dissolved Oxygen with Depth• Dissolved oxygen minimum layer (OML) about
700-1000 meters• Nutrient maximum at about same depths• O2 content increases with depth below
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Ocean Zones Based on Light Availability
• Euphotic – surface to where enough light exists to support photosynthesis
• Disphotic – small but measurable quantities of light
• Aphotic – no light
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Benthic Environments • Supralittoral• Subneritic
– Littoral– Sublittoral
• Inner• Outer
• Suboceanic– Bathyal– Abyssal– Hadal
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Organisms of the Deep
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End of CHAPTER 12Marine Life and the Marine
Environment