1. Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 16 Lecture Slides

2. Chapter 16 The Ocean Depths

3. Big Concepts for exam Explain how 0 2 makes it to the deep sea Explain how 0 2 makes it to the deep sea Describe the most common adaptations of mesopelagic / deep-sea Describe the most common adaptations of mesopelagic / deep-sea Explain DSL – deep scattering layer Explain DSL – deep scattering layer Explain 1 o advantage for tubular eyes Explain 1 o advantage for tubular eyes Explain energy source for hydrothermal vent communities Explain energy source for hydrothermal vent communities Describe unique feeding of Rifta tubeworms Describe unique feeding of Rifta tubeworms Explain one advantage deep-sea benthic orgs have over deep-sea pelagic orgs Explain one advantage deep-sea benthic orgs have over deep-sea pelagic orgs

4. Divisions of the Deep Sea Mesopelagic – 200 to 1000 meters Mesopelagic – 200 to 1000 meters Bathypelagic – 1000 to 4000 meters Bathypelagic – 1000 to 4000 meters Abyssopelagic – 4000 to 6000 meters Abyssopelagic – 4000 to 6000 meters Hadopelagic – 6000 to benthic community (can be as deep as 11,000 meters in trenches) Hadopelagic – 6000 to benthic community (can be as deep as 11,000 meters in trenches)

5. Life in the Deep Sea Less life in the deep sea compared to other marine communities Less life in the deep sea compared to other marine communities primarily due to food availability primarily due to food availability Little food available is b/c no photosynthesis in perpetually dark environment Little food available is b/c no photosynthesis in perpetually dark environment Q? is there any primary production in the deep sea? Q? is there any primary production in the deep sea?

6. Life in the Deep Sea food is limited, but not DO (dissolved oxygen) because of exchange with surface waters via ocean currents food is limited, but not DO (dissolved oxygen) because of exchange with surface waters via ocean currents Oxygen Minimum Zone (OMZ) - where oxygen levels are reduced b/c there is more respiration (mostly from decay bacteria) than photosynthesis (to replace the oxygen) – at ~500 m depth Oxygen Minimum Zone (OMZ) - where oxygen levels are reduced b/c there is more respiration (mostly from decay bacteria) than photosynthesis (to replace the oxygen) – at ~500 m depth

7. Life in the Mesopelagic Mesopelagic (meso = middle) lies just below the well lit epipelagic Mesopelagic (meso = middle) lies just below the well lit epipelagic Lots of primary production/phytoplankton and zooplankton in the epipelagic Lots of primary production/phytoplankton and zooplankton in the epipelagic so, many mesopelagic species undergo vertical migrations so, many mesopelagic species undergo vertical migrations Days are spent in the mesopelagic and nights are spent feeding in the epipelagic Days are spent in the mesopelagic and nights are spent feeding in the epipelagic

8. Stressors for Vertical Migrants The main thermocline (rapid temp change) occurs in the mesopelagic, so migrators must tolerate these changes The main thermocline (rapid temp change) occurs in the mesopelagic, so migrators must tolerate these changes Changes in pressure must also be tolerated as well Changes in pressure must also be tolerated as well

9. Migrating Vs. Non Migrating Fish of the Mesopelagic To the right is a comparison of fish that migrate versus those that do not To the right is a comparison of fish that migrate versus those that do not

10. DSL – Deep Scattering Layer False “bottom” discovered thru use of SONAR during WWII False “bottom” discovered thru use of SONAR during WWII Is a sound-reflecting layer made by sound waves bouncing off of swim bladders (gas) of vertically migrating fishes Is a sound-reflecting layer made by sound waves bouncing off of swim bladders (gas) of vertically migrating fishes At ~ 300 to 500 m during the day At ~ 300 to 500 m during the day Rises at sunset – deeper on full moon than new moon Rises at sunset – deeper on full moon than new moon Many other orgs live in the DSL Many other orgs live in the DSL Dominant DSL fauna – lanternfishes, krill, shrimp, copepods, jellyfishes, squid Dominant DSL fauna – lanternfishes, krill, shrimp, copepods, jellyfishes, squid

11. Adaptations of Non-Migrating Mesopelagic Fish Tend to have weak bones and flabby, watery muscles Tend to have weak bones and flabby, watery muscles This adaptation helps to make them neutrally buoyant and requires less energy This adaptation helps to make them neutrally buoyant and requires less energy These fish also tend to be small (less energy required) These fish also tend to be small (less energy required) These fish normally have long sharp teeth and large jaws – this allows for them to feed on most any prey (even if the prey is larger than they are!) These fish normally have long sharp teeth and large jaws – this allows for them to feed on most any prey (even if the prey is larger than they are!)

12. Adaptations of Non-Migrating Mesopelagic Fish Many of these fish lack a swim bladder as adjusting the pressure in the swim bladder takes precious energy Many of these fish lack a swim bladder as adjusting the pressure in the swim bladder takes precious energy Like fish in the epipelagic, these fish have countershading or transparency to escape notice from prey or predators Like fish in the epipelagic, these fish have countershading or transparency to escape notice from prey or predators These fish normally have large sensitive eyes for seeing in the extremely low light conditions These fish normally have large sensitive eyes for seeing in the extremely low light conditions Bioluminescence is also common, via photophores or other specialized organs (https://www.ted.com/talks/edith_widder_the_weird_and_w onderful_world_of_bioluminescence) Bioluminescence is also common, via photophores or other specialized organs (https://www.ted.com/talks/edith_widder_the_weird_and_w onderful_world_of_bioluminescence)https://www.ted.com/talks/edith_widder_the_weird_and_w onderful_world_of_bioluminescencehttps://www.ted.com/talks/edith_widder_the_weird_and_w onderful_world_of_bioluminescence The presence of photophores on only the ventral surface results in a type of camouflage sometimes referred to as counterillumination The presence of photophores on only the ventral surface results in a type of camouflage sometimes referred to as counterillumination Their hemoglobin is modified to operate at low levels Their hemoglobin is modified to operate at low levels

13. Examples of Mesopelagic Fish

14. Other Animals of the Mesopelagic Zooplankton such as krill and copepods as well as larger crustacean such as shrimp, ostracods, amphipods and isopods Zooplankton such as krill and copepods as well as larger crustacean such as shrimp, ostracods, amphipods and isopods Cephalopods such as octopus and squid (pictured at right) are also found here Cephalopods such as octopus and squid (pictured at right) are also found here

15. http://www.biology education.net/New s%20and%20Articl es/life%20in%20oc ean's%20midwater s.htm http://www.biology education.net/New s%20and%20Articl es/life%20in%20oc ean's%20midwater s.htm http://www.biology education.net/New s%20and%20Articl es/life%20in%20oc ean's%20midwater s.htm http://www.biology education.net/New s%20and%20Articl es/life%20in%20oc ean's%20midwater s.htm http://gallery.usgs.gov/videos/97 http://news.bbc.co.uk/earth/hi/earth_news /newsid_8638000/8638527.stm

16. Conditions in the Bathy-, Abysso- and Hadopelagic Uniformly dark Uniformly dark Uniformly cold (about 35 degrees F) Uniformly cold (about 35 degrees F) Uniform salinity Uniform salinity Water chemistry is also relatively consistent Water chemistry is also relatively consistent

17. Organisms of the Bathy-, Abysso- and Hadopelagic No countershading No countershading Bioluminescence present in upper portions of the deep sea; decreases with increasing depth Bioluminescence present in upper portions of the deep sea; decreases with increasing depth Bioluminescence used for courtship, communication or prey attraction Bioluminescence used for courtship, communication or prey attraction Unlike the organisms in the epipelagic, the photophores are normally located near or on the head as opposed to on the ventral side Unlike the organisms in the epipelagic, the photophores are normally located near or on the head as opposed to on the ventral side Eyes organisms are small or absent (eyes only used to detect bioluminescence) Eyes organisms are small or absent (eyes only used to detect bioluminescence) Pressure resistant enzymes for metabolism Pressure resistant enzymes for metabolism

18. Organisms of the Bathy-, Abysso- and Hadopelagic Fish similar to those in the mesopelagic Fish similar to those in the mesopelagic – lack of swim bladders –flabby, watery muscles –light, weak skeletons mouth is also large with long, pointed teeth mouth is also large with long, pointed teeth

19. Example of a Deep Sea Fish T he angler fish (one species seen at right) is one of the more interesting fish of the deep sea T he angler fish (one species seen at right) is one of the more interesting fish of the deep sea Anglerfish possess a “lure” on the head that contains symbiotic bioluminescent bacteria to attract prey Anglerfish possess a “lure” on the head that contains symbiotic bioluminescent bacteria to attract prey Another interesting adaptation is male parasitism Another interesting adaptation is male parasitism In male parasitism, a male angler fish (which are much smaller than the females) attach to the females and receive their nutrition from them and fertilize the eggs of the female In male parasitism, a male angler fish (which are much smaller than the females) attach to the females and receive their nutrition from them and fertilize the eggs of the female

20. Deep Sea Reproductive Strategies Hermaphroditism = makes finding a mate much easier Hermaphroditism = makes finding a mate much easier –ensures that reproduction can occur if encounters occur between members of the same species (chemical cues, pheromones, help attract these fish together) This is important in an environment where the number of organisms is very low! This is important in an environment where the number of organisms is very low! ??? these type of strategies are not common in deep sea invertebrates ??? these type of strategies are not common in deep sea invertebrates

21. Survey of Deep Sea Organisms http://www.biology.duke.edu/johnsenl ab/new%20gallery /gallery.html http://www.biology.duke.edu/johnsenl ab/new%20gallery /gallery.html http://www.biology.duke.edu/johnsenl ab/new%20gallery /gallery.html http://www.biology.duke.edu/johnsenl ab/new%20gallery /gallery.html

22. Deep Sea Benthos Can scavenge the bottom for food that falls from above Can scavenge the bottom for food that falls from above Benthic organisms have a greater chance at finding food Benthic organisms have a greater chance at finding food

23. Deep Sea Benthos Other organisms such as pteropods, snails and worms can also be found in this area Other organisms such as pteropods, snails and worms can also be found in this area Decomposing bacteria can be found in the deep sea sediments, but they decompose at a much slower rate than bacteria at the surface (as much as 1000 times slower) Decomposing bacteria can be found in the deep sea sediments, but they decompose at a much slower rate than bacteria at the surface (as much as 1000 times slower) This is likely due to the extreme pressure present in the deep sea This is likely due to the extreme pressure present in the deep sea http://marinebio.org/oceans/deep/

24. Deep Sea Benthos A wide variety of meiofauna also live in deep sea sediments A wide variety of meiofauna also live in deep sea sediments Due to the bacteria and meiofauna, deposit feeding organisms are common Due to the bacteria and meiofauna, deposit feeding organisms are common Many organisms are quite large compared to their counterparts in other marine communities Many organisms are quite large compared to their counterparts in other marine communities This phenomenon is known as deep sea gigantism This phenomenon is known as deep sea gigantism

25. Deep Sea Benthos organisms tend to grow larger organisms tend to grow larger –tend to grow slowly –have an exceptionally long life They tend to reproduce late in life and have few, large well developed eggs (K – for carrying capacity- reproductive strategy) They tend to reproduce late in life and have few, large well developed eggs (K – for carrying capacity- reproductive strategy)

26. Hydrothermal Vent Communities These communities are an oasis in the otherwise nutrient poor deep sea These communities are an oasis in the otherwise nutrient poor deep sea The chemical laden water escaping from cracks in the seafloor around the mid ocean ridges “feed” chemoautotrophic bacteria The chemical laden water escaping from cracks in the seafloor around the mid ocean ridges “feed” chemoautotrophic bacteria

27. Hydrothermal Vent Communities These vents contain large amounts of hydrogen sulfide that serve as the energy source for these bacteria These vents contain large amounts of hydrogen sulfide that serve as the energy source for these bacteria These bacteria are the first link in the food chain in this unique community These bacteria are the first link in the food chain in this unique community Not only can they utilize this normally toxin substance, but they can withstand temps up to 250 degrees F Not only can they utilize this normally toxin substance, but they can withstand temps up to 250 degrees F

28. Hydrothermal Vent Communities These “black smoker” vents and the cooler “white smokers” support a WIDE variety of organisms besides bacteria such as fish, shrimp, tube worms, clams, crabs, snails, barnacles, sponges, corals, etc. These “black smoker” vents and the cooler “white smokers” support a WIDE variety of organisms besides bacteria such as fish, shrimp, tube worms, clams, crabs, snails, barnacles, sponges, corals, etc.

29. Hydrothermal Vent Communities Interesting, one group of these organisms – the tube worm seen at the right – actually harbors the chemoautotrophic bacteria in their body to support their metabolic needs Interesting, one group of these organisms – the tube worm seen at the right – actually harbors the chemoautotrophic bacteria in their body to support their metabolic needs

30. Hydrothermal Vent Communities These vents may come and go as geologic activity in any given area may change These vents may come and go as geologic activity in any given area may change For as long as they last, the vents support a level of life not seen elsewhere in the deep sea For as long as they last, the vents support a level of life not seen elsewhere in the deep sea http://exploretheabyss.com/photo/gallery/ html/hydro.htm