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Your Own El Nino - NOAA Education 
Lesson PlanSummary
Students use a model that recreates trade winds and upwelling to illustrate the changes in circulation that are associated with the El Nino Southern Oscillation (ENSO).
Changes in ocean circulation patterns affect weather and climate.
Education Standards
45 minsHistory's Thermometers - NOAA Ocean Explorer
Summary
Students track climate changes through changes in oxygen isotopes using data from deep-sea corals.
Ocean processes have major effects on global climate change; global climate change could have major impacts on the ocean.
Education Standards
Top to Bottom - NOAA Ocean Explorer
Summary
Students explore the possible impacts on deep sea ecosystems associated with changes in thermohaline circulation resulting from climate change.
Ocean processes have major effects on global climate change; global climate change could have major impacts on the ocean.
Education Standards
Where have all the glaciers gone? - NOAA Ocean Explorer
Summary
Students investigate how changes in climate are affecting sea-ice, vegetation, and glaciers in the arctic, region. Students explore the “positive” and “negative” results of these changes.
Ocean processes have major effects on global climate change; global climate change could have major impacts on the ocean.
Education Standards
Phyto or Zoo? - COSEE Coastal Trends
Lesson PlanSummary
Students are introduced to different phytoplankton and zooplankton and build their own dichotomous key through an inquiry based lesson
There is a high diversity of life in the ocean with a wide range of functions and interactions.
Education Standards
Culturing Bacteria - COSEE Coastal Trends
Summary
Students collect water samples, plate the samples on suitable agar, and count bacteria colonies present in each sample to compare and contrast the types of bacteria living in a variety of aquatic environments.
Create a Bacterial Ecosystem - COSEE Coastal Trends
Summary
In this activity, students mix mud, water, a carbon source, and a sulfur source together in a clear bottle to create a stratified “column” of bacterial communities. Activity requires time to set up in the classroom as well as periodic observations as the "column" stabilizes (4-6 weeks)
Where do the Critters Live? - COSEE Coastal Trends
Summary
Students investigate the influence of ocean temperature on the distribution of marine organisms by comparing online ocean temperature data to temperature tolerances of various organisms
Where Will the Stripers Be? - University of Maryland Center for Environmental Science
Summary
Students examine the influence of abiotic factors on the location of populations of Chesapeake Bay Striped Bass through analysis of temperature and dissolved oxygen data.
Hatch to Catch - Bigelow Laboratory and Dartmouth College
Summary
In this web-based simulation activity, students manipulate environmental variables in order to create optimal environmental conditions that will generate high “hatch” to “catch” survival rates in newly spawned lobster larvae.
