Students are introduced to the classification of animals and animal interactions. Students also learn why engineers need to know about animals and how they use that knowledge to design technologies that help other animals and/or humans. This lesson is part of a series of six lessons in which students use their growing understanding of various environments and the engineering design process, to design and create their own model biodome ecosystems.

Did you know that soil is the most diverse habitat on earth? It is teeming with life. One small handful of healthy soil contains more living organisms than the entire population of humans on Earth!
This video gives a short explanation of why farmers test their soil and the important information they can gain from these soil samples.

The Association of Fish & Wildlife Agencies (AFWA) has a resource called "Project Wild". The resources include downloadable documents, supporting resources, connections to career opportunities,
perspectives on sustainability projects around the world, and hands on learning experiences.

Students explore the biosphere's environments and ecosystems, learning along the way about the plants, animals, resources and natural cycles of our planet. Over the course of lessons 2-6, students use their growing understanding of various environments and the engineering design process to design and create their own model biodome ecosystems - exploring energy and nutrient flows, basic needs of plants and animals, and decomposers. Students learn about food chains and food webs. They are introduced to the roles of the water, carbon and nitrogen cycles. They test the effects of photosynthesis and transpiration. Students are introduced to animal classifications and interactions, including carnivore, herbivore, omnivore, predator and prey. They learn about biomimicry and how engineers often imitate nature in the design of new products. As everyday applications are interwoven into the lessons, students consider why a solid understanding of one's environment and the interdependence within ecosystems can inform the choices we make and the way we engineer our communities.

Conservation organizations teamed up to document the climate vulnerability of mountain springs that support unique ecosystems. Now, the Alliance they formed facilitates restoration work to enhance habitats and improve resiliency.

This resource contains an abundance of ELA infused, cross-curricular lessons organized by themes for Grades 4, 5 and 6. Non-fiction, poetry and fiction reading lessons are all included. 

Students learn about using renewable energy from the Sun for heating and cooking as they build and compare the performance of four solar cooker designs. They explore the concepts of insulation, reflection, absorption, conduction and convection.

Crash Course Kids combines the same engaging lecture-style content delivery with animated graphics that focus on grade school science.

Topics include Earth Science, Physical Science, Biology, Geography, Engineering, and Astronomy.

These videos are amazing!

As an opportunity to bring technology into the classroom, I chose to take my students on a virtual field trip to the San Diego Zoo. It was a fun way to review some of the learning that we did in the fall. It also allowed me to introduce a new way of experiencing the zoo and a field trip to the students. We used several of the zoo’s live cameras, and actually observed the animals, and then used the videos and web pages to discuss mammals, amphibians, birds, arthropods, and reptiles. Students had a snack, and brought a stuffed animal that they used to share the type of animal, the interactions with humans, and the life cycle as well as the habitat and diet of their animal.

In this unit of study students learn about diversity of life by focusing on bats. They will learn about their habitat, structures and functions, and behaviors. This unit integrates nine STEM attributes and was developed as part of the South Metro-Salem STEM Partnership's Teacher Leadership Team. Any instructional materials are included within this unit of study.

Students explore the biosphere and its associated environments and ecosystems in the context of creating a model ecosystem, learning along the way about the animals and resources. Students investigate different types of ecosystems, learn new vocabulary, and consider why a solid understanding of one's environment and the interdependence of an ecosystem can inform the choices we make and the way we engineer our communities. This lesson is part of a series of six lessons in which students use their growing understanding of various environments and the engineering design process, to design and create their own model biodome ecosystems.

In this episode of Crash Course Kids, Sabrina talks about the way energy moves, or flows, through an ecosystem and how that movement forms Food Chains!

The marine environment is unique and requires technologies that can use sound to gather information since there is little light underwater. The sea-floor is characterized using underwater sound and acoustical systems. Current technological innovations are allowing scientists to further understand and apply information about animal locations and habitat. Remote sensing and exploration with underwater vehicles allows scientists to map and understand the sea floor, and in some cases, the water column. In this lesson, the students will be shown benthic habitat images produced by GIS. These imaged will lead to a class discussion on why habitat mapping is useful and how current technology works to make bathymetry mapping possible. The teacher will then ask inquiry-based questions to have students brainstorm about the importance of bathymetry mapping.

Do you know where the red-eyed tree frog calls home? Play this game based on animal habitats to learn! Explore the desert, coral reef, jungle, and marsh to discover where many animals live by matching each animal to their correct habitat!

You need Flash to play this game.

« Découvre la géologie, la chimie et l’écologie des lacs et des étangs. »

*Texte, images, illustrations, vidéo:

-Les écosystèmes lentiques
-Géologie
-Chimie
-Écologie

*Matériel annexe: vidéos (changements climatiques et vidéo satellite accélérée) et articles supplémentaires.

« Découvre la géologie, la chimie et l’écologie des cours d’eau. »

*Texte, images, cartes, vidéo, liens externes:

-Écosystèmes lotiques
-Géographie
-Réseau hydrographique
-Mesurer le débit d’une rivière
-Chimie
-Écologie

*Matériel annexe: d'articles supplémentaires, une carte interactive de Canadian Geographic, et une page gouvernementale qui traite des cours d'eau canadiens

A national program that works with educators to cultivate environmental action and stewardship among students. Living Planet @ School calls teachers and students into action to help nature thrive with hands-on activities in the school community.
Make discoveries about many different animals, various habitats, topics regarding climate, tech challenges and more.
For both primary and secondary school students.

Historically, seafloor mapping occurred with a simple data collection method: soundings. Soundings are taken by dropping a weight with a pre-measured rope off the side of a boat and noting the measurement on the rope when the weight hits the bottom. In this activity, student teams replicate the creation of seafloor bathymetry by taking a simplified form of soundings of an unseen seafloor model inside a shoebox and translating their collected data into a visualization of the topography, enabling them to better understand and appreciate modern remote sensing.

The marine environment is unique and because little light penetrates under water, technologies that use sound are required to gather information. The seafloor is characterized using underwater sound and acoustical systems. Current technological innovations enable scientists to further understand and apply information about animal locations and habitat. Remote sensing and exploration with underwater vehicles enables researchers to map and understand the sea floor. Similar technologies also aid in animal tracking, a method used within science and commercial industries. Through inquiry-based learning techniques, students learn the importance of habitat mapping and animal tracking.

As students learn about the creation of biodomes, they are introduced to the steps of the engineering design process, including guidelines for brainstorming. Students learn how engineers are involved in the design and construction of biodomes and use brainstorming to come up with ideas for possible biodome designs. This lesson is part of a series of six lessons in which students use their growing understanding of various environments and the engineering design process, to design and create their own model biodome ecosystems.