Students work scientifically by assessing the risks of working in a lab and the more extreme environment of the Arctic. The context of the lesson is Dr Victoria Hill’s work into how algal growth is affected by the changing photoperiod in the Arctic. This full lesson contains: Slideshow 4: How do we investigate photosynthesis in the Arctic safely? Lesson Overview and Teacher Guidance Activity Overview 4: How do we investigate photosynthesis in the Arctic safely? Student Sheet 4a: How do we investigate photosynthesis in the Arctic safely? Student Sheet 4b: Hazards of working in the Arctic Six enquiry-based lessons introducing ocean science concepts for ages 11-14. These lessons and activities are full of practical ideas to bring carbonate chemistry and marine biology to the science classroom. All lessons demonstrate science at work and are based on recent research conducted in the Arctic. Designed to be used in conjunction with the Encounter Edu Media Zone. All lessons and resources are available from Encounter Edu’s TES profile.

Five enquiry-based lessons introducing ocean science concepts for ages 11-14. These lessons and activities are full of practical ideas to bring carbonate chemistry and marine biology to the science classroom. All lessons demonstrate science at work and are based on recent research conducted in the Arctic. Designed to be used in conjunction with the Encounter Edu Discovery Zone. The enquiry-based resources incorporate the scientists’ experiences and research, and include booklets with structured lesson plans, activity and experiment sheets, an interactive Media Player with videos and images from the expeditions, along with posters and other related resources.

Students work scientifically by writing a method to test a hypothesis and then practise this in an exam setting. The context of the lesson is Dr Ceri Lewis’ work into the impact of ocean acidification on copepods; a type of zooplankton with calcium carbonate shells. The lesson builds on students’ prior knowledge of the environmental impact of anthropogenic CO2 production. This full lesson contains: Slideshow 2 How does ocean acidification affect organisms? Lesson Overview and Teacher Guidance Activity Overview 2 Investigating how ocean acidification affects organisms with shells Student Sheet 2a Investigating how ocean acidification affects organisms with shells Subject Update 1 Ocean acidification Six enquiry-based lessons introducing ocean science concepts for ages 11-14. These lessons and activities are full of practical ideas to bring carbonate chemistry and marine biology to the science classroom. All lessons demonstrate science at work and are based on recent research conducted in the Arctic. Designed to be used in conjunction with the Encounter Edu Discovery Zone. All lessons and resources are available from Encounter Edu’s TES profile.

Students work scientifically by developing and using a model (a food web) to formulate hypotheses. The context of the lesson is Dr Ceri Lewis’ investigating how ocean acidification might affect the plankton at low trophic levels and the cascade effects at higher levels. The lesson builds on students’ prior knowledge of interdependence. This full lesson contains: Slideshow 3: How does ocean acidification affect communities? Lesson Overview and Teacher Guidance Student Sheet 3a: Arctic food webs Student Sheet 3b: Arctic organisms Subject Update 1: Ocean acidification Subject Update 3: Trophic cascades Six enquiry-based lessons introducing ocean science concepts for ages 11-14. These lessons and activities are full of practical ideas to bring carbonate chemistry and marine biology to the science classroom. All lessons demonstrate science at work and are based on recent research conducted in the Arctic. Designed to be used in conjunction with the Encounter Edu Discovery Zone. All lessons and resources are available from Encounter Edu’s TES profile.

These resources for ages 11-14 are based on the journeys undertaken by science teams taking part in the Catlin Seaview Survey expeditions. Starting with the Great Barrier Reef, these expeditions seek to create a baseline survey of the world’s reefs as well as more in-depth research on the deep reef lying between 30m and 100m. The lesson plans and accompanying activities are designed to introduce classes to what it is like to be an ocean explorer. Each lesson is designed around a ‘dive’ to investigate a particular science topic. These include identification, classification, food webs and symbiosis, adaptation and human impacts on the environment. The enquiry-based resources incorporate the scientists’ experiences and research, and enable students to explore marine life on the reef and the threats facing it.

In this lesson students learn about the impacts of ice in the Arctic melting by watching a series of demonstrations. The context of the lesson is the work of Dr Helen Findlay who was investigating the effect of environmental change on the Arctic ecosystem. This full lesson contains: Slideshow 5: How is the Arctic changing? Lesson Overview and Teacher Guidance Activity Overview 5a: The albedo effect Activity Overview 5b: Sea level rise Activity Overview 5c: Ocean circulation demonstration Student Sheet 5a: Sentences card sort Student Sheet 5b: Arctic issues storyboard It forms Lesson 5 of 5 from the Frozen Oceans 7-11 unit of work. Take your class to the North Pole with this cross-curricular investigation of the Arctic Ocean. The lessons progress to cover varied topics and skills needed for a science research expedition in the polar regions. Themes include Arctic food webs, training like an explorer, expedition food, insulation and clothing, the impacts of melting ice and conducting a press conference. The lessons can also be combined into a Polar Challenge Day. All lessons and resources are available from Encounter Edu’s TES profile.

This lesson supports students to develop the ‘writing scientific conclusions’ component of working scientifically for GCSE. It is based on current research being conducted by Exeter University and Plymouth Marine Laboratory. In this lesson, students return to their experiments and observe the gut contents of the brine shrimp, applying model conclusions to what they can see. Students develop their ability to write scientific conclusions using the secondary data from the research team. The lesson ends with students considering the implications of microplastics being consumed by zooplankton on a wide scale. This full lesson includes: Lesson Overview & Teacher Guidance Slideshow 6 Do Zooplankton eat microplastics? (Conclusions) Student Sheet 5a Do zooplankton eat microplastics? (Practical) Student Sheet 6a Model conclusions Student Sheet 6b Do zooplankton eat microplastics? (conclusions) Activity Overview/Technician Notes 5 Do zooplankton eat microplastics Answer Sheet for Student Sheet 6b This is Lesson 6 of 7 in the Plankton, Plastics and Poo unit of work, which is based on current research being conducted at the University of Exeter and Plymouth Marine Laboratory. The unit consists of enquiry-based lessons which support students to work scientifically by simulating the researchers’ investigations, and encourages students to the use their findings to have a wider impact. The resource uses innovative methods to bring cutting edge science to the classroom, including: - Using real field and laboratory data. - Practical investigations that replicate the work of the scientists. - Using social media to connect with the scientists. - The opportunity to connect with scientists through Skype in the classroom events. All lessons and resources are available from Encounter Edu’s TES profile.

An in-depth introduction to the themes of extreme environments and how science is conducted in remote regions, for schools internationally. The booklet includes lesson plans and activities about current research on snow and ice extent, ocean currents, ocean acidification and marine biology. Designed to be used in conjunction with the Encounter Edu Discovery Zone. The enquiry-based resources incorporate the scientists’ experiences and research, and include booklets with structured lesson plans, activity and experiment sheets, an interactive Media Player with videos and images from the expeditions, along with posters and other related resources.

This Key Stage 4 (KS4) science lesson supports students to develop the ‘sampling techniques’ component of working scientifically for GCSE. It is based on current research being conducted by Exeter University and Plymouth Marine Laboratory. Students work scientifically to discover if zooplankton and microplastic occur together. In this lesson students learn how to apply sampling techniques, using real field data collected by Dr Lewis’ team. The context of this lesson is the voyage the team took to the Gulf of Maine to investigate if zooplankton and microplastics co-occur. This full lesson includes: Lesson Overview & Teacher Guidance Slideshow 4 Do zooplankton and microplastics occur together? Student Sheet 4a Do zooplankton and microplastics occur together? Student Sheet 4b Do zooplankton and microplastics occur together? (higher) Answer Sheet for Student Sheet 4a & 4b This is Lesson 4 of 7 in the Plankton, Plastics and Poo unit of work, which is based on current research being conducted at the University of Exeter and Plymouth Marine Laboratory. The unit consists of enquiry-based lessons which support students to work scientifically by simulating the researchers’ investigations, and encourages students to the use their findings to have a wider impact. The resource uses innovative methods to bring cutting edge science to the classroom, including: - Using real field and laboratory data. - Practical investigations that replicate the work of the scientists. - Using social media to connect with the scientists. - The opportunity to connect with scientists through Skype in the classroom events. All lessons and resources are available from Encounter Edu’s TES profile.

The science team explain how laboratory work can complement field sampling. Learn how these experiments allow for controlling variables (ie experimental constants) and how the scientists design their experiments using the idea of a fair test. This full lesson includes: Student Sheet Video 3 Student Sheet Video reflection This video lesson can be used as part of Lesson 5 of the Plankton, Plastics & Poo unit. There are also opportunities to use a flipped approach to learning, setting the video lesson as pre-work before the topic is taught or as home learning to provide reinforcement of factual knowledge or to encourage further reflection. All lessons and resources are available from Encounter Edu’s TES profile.

Ocean Plastics Science is a Key Stage 3 (KS3) resource combining both biology and chemistry. Students are taken on the journey of plastic. Exploring how plastics are manufactured, used, and disposed into the ocean. Students will learn the science behind what makes plastics both brilliant for everyday purposes and devastating to our oceans and marine life. Included in this topic are teacher resources that promote students to conduct authentic research, emulating research conducted by The University of Plymouth. Students will test the properties of plastics, investigate compostable alternatives, and analyse case studies to discover how plastics can physically and chemically harm marine life. https://encounteredu.com/teachers/units/ocean-plastics-science-11-14 If you liked this resource, please rate and review below. This will help to promote oceans education in schools worldwide.

In this chemistry Key Stage 3 (KS3) lesson, students investigate the different properties of plastics. In groups students design an investigation testing either thermal insulation or tensile strength. Included are teacher resources with an investigation template. This is a single lesson from the Ocean Plastics Science unit. Ocean Plastics Science is a Key Stage 3 (KS3) resource combining both biology and chemistry. Students are taken on the journey of plastic. Exploring how plastics are manufactured, used, and disposed into the ocean. Students will learn the science behind what makes plastics both brilliant for everyday purposes and devastating to our oceans and marine life. Included in this topic are teacher resources that promote students to conduct authentic research, emulating research conducted by The University of Plymouth. Students will test the properties of plastics, investigate compostable alternatives, and analyse case studies to discover how plastics can physically and chemically harm marine life. If you liked this resource, please rate and review below. This will help to promote oceans education in schools worldwide.

In this biology Key Stage 3 (KS3) lesson, students will learn about plastics and bioaccumulation. This lesson is focused on how chemical pollutants cause harm to marine organisms. Included are teacher resources to model bioaccumulation and an orca case study. This is a single lesson in the Ocean Plastic Science Unit. Ocean Plastics Science is a Key Stage 3 (KS3) resource combining both biology and chemistry. Students are taken on the journey of plastic. Exploring how plastics are manufactured, used, and disposed into the ocean. Students will learn the science behind what makes plastics both brilliant for everyday purposes and devastating to our oceans and marine life. Included in this topic are teacher resources that promote students to conduct authentic research, emulating research conducted by The University of Plymouth. Students will test the properties of plastics, investigate compostable alternatives, and analyse case studies to discover how plastics can physically and chemically harm marine life. If you liked this resource, please rate and review below. This will help to promote oceans education in schools worldwide.

In this chemistry Key Stage 3 (KS3) lesson, students will learn how monomers and polymers dictate the properties of plastics. This lesson focuses on how plastics are made. Included are teacher resources for students to make their own polymer, using PVA and borax, to observe how changing the structure of a substance changes its properties. This individual lesson is part of a larger unit called Oceans Plastics. Ocean Plastics Science is a Key Stage 3 (KS3) resource combining both biology and chemistry. Students are taken on the journey of plastic. Exploring how plastics are manufactured, used, and disposed into the ocean. Students will learn the science behind what makes plastics both brilliant for everyday purposes and devastating to our oceans and marine life. Included in this topic are teacher resources that promote students to conduct authentic research, emulating research conducted by The University of Plymouth. Students will test the properties of plastics, investigate compostable alternatives, and analyse case studies to discover how plastics can physically and chemically harm marine life. If you liked this resource, please rate and review below. This will help to promote oceans education in schools worldwide.

In this chemistry Key Stage 3 (KS3) lesson, students investigate rates of decay. The lesson is focused on students designing their own investigation to see if plant-based alternatives to plastic will decay faster than oil-based plastic and thus cause less harm to the environment. Included are teacher resources allowing students to test how a conventional plastic bag decays compares to a compostable bag (using a potato as a substitute). This investigation replicates the research conducted by Dr Imogen Napper at the University of Plymouth. This is a single lesson from the Ocean Plastics Science unit. Ocean Plastics Science is a Key Stage 3 (KS3) resource combining both biology and chemistry. Students are taken on the journey of plastic. Exploring how plastics are manufactured, used, and disposed into the ocean. Students will learn the science behind what makes plastics both brilliant for everyday purposes and devastating to our oceans and marine life. If you liked this resource, please rate and review below. This will help to promote oceans education in schools worldwide.

In this biology Key Stage 3 (KS3) lesson, students learn how plastics affect the marine environment. This lesson is focuses on the physical harm caused by plastics to marine organisms. Included are teacher resources that promote students to become advocates for reducing plastic waste to protect our oceans. This is a single lesson from the Ocean Plastics Science unit. Ocean Plastics Science is a Key Stage 3 (KS3) resource combining both biology and chemistry. Students are taken on the journey of plastic. Exploring how plastics are manufactured, used, and disposed into the ocean. Students will learn the science behind what makes plastics both brilliant for everyday purposes and devastating to our oceans and marine life. Included in this topic are teacher resources that promote students to conduct authentic research, emulating research conducted by The University of Plymouth. Students will test the properties of plastics, investigate compostable alternatives, and analyse case studies to discover how plastics can physically and chemically harm marine life. If you liked this resource, please rate and review below. This will help to promote oceans education in schools worldwide.