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Published byShannon Grant Modified over 9 years ago
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Plankton and Their Importance in the Marine Ecosystem Video
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Types of Plankton Phytoplankton ZooplanktonBacterioplankton Phytoplankton
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Phytoplankton Importance Make up most of Earth’s biomass – Biomass = the mass of living organisms Phytoplankton produce about half of Earth’s oxygen through primary production Phytoplankton remove carbon dioxide from atmosphere Support the rest of the food web
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Phytoplankton
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Adaptations for Phytoplankton Success SIZE – Small is better! The smaller the cell is the easier diffusion takes place. Delay Sinking – Due to heavy cell walls, phytoplankton tend to sink away from the light they need. If the rate at which they sink is decreased there is a chance they may get pushed back to surface (upwelling).
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Viscosity and Size Surface Area to Volume Ratio
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Viscosity and Size Larger surface area to volume ratio = large surface area for frictional resistance to sinking – Good for plankton to be small Larger SA/V ratio also increases efficiency of nutrient uptake and waste disposal – Cube a would take up nutrients and dispose of waste 3 times more efficiently than cube c
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Decreasing the Sinking Rate Increase friction with horns, wings, and other cellular projections. Zig Zag or spiral down the water column. Some have gas filled floats. https://web.duke.edu/nicholas/bio217/jrc25/ impacts.html
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Phytoplankton’s Preferences “Cold” water (species dependent) – More nutrients – More gases – Slower sinking rate – Maintain a position near surface for light BUT!!! Earth’s waters are warming…
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http://www.giss.nasa.gov/research/news/20060925/
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Effects of Climate Change thus far… Average global temperature increase of about 1°F (0.6°C) over the past century Average ocean temperature increase in that time of 0.18°F (0.1°C). – Warming has occurred from the surface to a depth of 2,300 ft (700 meters) – Majority of most marine life lives here
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Cold vs. Warm Water Species Cold Water Species Higher viscosity waters Floating organisms larger Few appendages Slower growing – lower rate of biological activity More total biomass Warm Water Species Lower viscosity waters Floating organisms smaller Often have ornate plumage Faster growing – higher rate of biological activity More total species
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Will warming waters affect phytoplankton? Design a plankton and test the sinking rate in both cold and warm waters Write your hypothesis on data sheet
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How will increasing temperatures affect phytoplankton specifically? Decrease in viscosity of water = increase in sinking rate Removal of plankton from sunlight waters Implications in carbon cycle (land and ocean) and oxygen production Can plankton adapt quickly enough??
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