NOAA
Importance of Deep-Sea Ecosystems – What Killed the Seeds?
Most drugs used today come from nature, so the discovery of new ecosystems in the deep sea is exciting from a medical perspective. Scholars develop their own bioassay to test germination rates in seeds.
NOAA
Biological Oceanographic Investigations – What's in That Cake?
Have you ever tried to find hidden items in a picture when you don't know what you are looking for or how many things are hidden? A lesson applies that same concept to sampling the deep sea habitats. Participants must first create a...
NOAA
Methane Hydrates – What's the Big Deal?
Have you ever tried to light ice on fire? With methane hydrate, you can do exactly that. The ice forms with methane inside so it looks like ice, but is able to burn. The lesson plan uses group research and a hands-on activity to help...
NOAA
Animals of the Fire Ice
When the sun's rays can't reach the producers in a food web, where does all the energy come from? Extreme environments call for extreme food sources. Young scientists investigate creatures that appear to get their energy from methane...
NOAA
Deep-Sea Ecosystems – Chemosynthesis for the Classroom
Photosynthesis was discovered in the 1770s, but chemosynthesis wasn't discovered until 1977. While many have performed an experiment to show how photosynthesis works, the activity allows pupils to observe chemosynthesis. Scholars set up...
NOAA
Importance of Deep-Sea Ecosystems – How Diverse is That?
When judging diversity of an ecosystem, both species evenness and species richness must contribute. After a discussion of diversity and a guided example using the Shannon-Weaver function, scholars use the same function on two other...
NOAA
Deep-Sea Ecosystems – A Tale of Deep Corals
Many have debated which came first, the chicken or the egg, but this lesson debates which came first, the hydrocarbons or the carbonate reef. After a discussion on deep-sea corals, scholars receive a set of questions to research and...
NOAA
Deep-Sea Ecosystems – Life is Weird!
A pool of brine in the deep sea can be up to four times as salty as the surrounding sea water. The deep sea ecosystem relies on chemosynthesis and the organisms that live there are often strange to us. The lesson focuses on researching...
NOAA
Deep-Sea Ecosystems – Entering the Twilight Zone
Imagine an ecosystem without any light or oxygen, where living things convert carbon dioxide into food. This ecosystem is thriving and might just be the largest ecosystem on our planet, yet we know very little about it. The lesson...
NOAA
Importance of Deep-Sea Ecosystems – The Benthic Drugstore
You never know what you will find next in the deep sea ecosystem. So far, scientists have found items that work as anti-tumor agents, anti-inflammatory agents, agents that stop uncontrolled cell division, and much more. The lesson begins...
NOAA
Importance of Deep-Sea Ecosystems – Chemists with No Backbones
Marine invertebrates offer us many new options for developing pharmaceutical drugs, such as w-conotoxin MVIIA, which is extracted from the cone snail and is a potent painkiller. The lesson encourages scholars to research various types of...
NOAA
Deep-Sea Ecosystems – Cool Corals
Young oceanographers research deep sea corals that thrive on chemosynthesis. The lesson focuses on the biology of the animal, preferred habitat, associations, and interactions.
Curated OER
The Roving Robotic Chemist
Junior oceanographers and underwater geologists describe the four major steps of mass spectrometry. They compete in small groups to simulate the tracking of a deepwater methane plume using imaginary autonomous underwater vehicles. Give...
Curated OER
Entering The Twilight Zone
In this lesson sixth grade students get into groups and research a given ocean habitat. The major features of cold-seep communities are the objective but plenty information is given about other habitats which could be assigned to...
Curated OER
This Life Stinks
Students study cold seeps and see how organisms obtain energy from methane. In this sinkholes lesson students examine the relevance of chemosynthesis to communities.
Curated OER
What's the Big Deal?
Young scholars define terms and describe where they are found and formed. In this methane lesson students complete an activity and describe ways in which methane hydrates impact our lives.
Curated OER
Giants of the Protozoa
Students describe and define xenophyophores. In this protozoa lesson students divide into groups and complete a lab activity.
Curated OER
Monsters of the Deep
Students describe major features of cold seep communities and list the organisms that are typical in these communities. For this deep sea environment lesson students work in groups and research their given cold seep group.
Curated OER
Life is Weird
Learners describe features of cold seep communities and list organisms that can be found in these communities. In this exploratory lesson plan students complete an activity and describe the process of chemosynthesis.
Curated OER
Life is Weird
Students study the organisms that are found in cold seeps and see how they interact with each-other. In this biological organism lesson students describe the major features of cold seeps and the process of chemosynthesis.
Curated OER
Life is Weird
Young scholars describe features of cold seep communities and investigate five organisms that live there. In this biological organisms lesson students research a given species and give an oral presentation on their results.
Curated OER
Let's Hit the Slopes!
Students study benthic communities in the Gulf of Mexico and explain their roles. In this investigative lesson students participate in a group activity and study how to calculate and index of biological communities.