The goal of the high school carbon sequestration in forests storyline is …
The goal of the high school carbon sequestration in forests storyline is to build on the science of carbon sequestration from the middle school storyline. In this storyline, carbon sequestration refers to the removal of carbon (in the form of carbon dioxide) from the atmosphere through the process of photosynthesis. Carbon storage refers to the amount of carbon bound up in woody material above and below ground. High school students will develop an understanding of the variables and considerations that arise from managing forests for different purposes including carbon sequestration and other ecosystem services.
El objetivo del caso de la captura del carbono en los bosques …
El objetivo del caso de la captura del carbono en los bosques a nivel escuela preparatoria es basarse en la ciencia de la captura de carbono del caso de la escuela secundaria. En este caso, la captura de carbono se refiere a la eliminación de carbono (en forma de dióxido de carbono) de la atmósfera a través del proceso de fotosíntesis. El almacenamiento de carbono se refiere a la cantidad de carbono unido al material leñoso por encima y por debajo del suelo. Los estudiantes de preparatoria desarrollarán una comprensión de las variables y consideraciones que surgen del manejo de los bosques para diferentes propósitos, incluida la captura o secuestro de carbono y otros servicios del ecosistema.
Students will be learning about the practices of regenerative agriculture and how …
Students will be learning about the practices of regenerative agriculture and how regenerative agriculture is a solution to climate change. Embedded in the storyline are scientific concepts relating to carbon cycling and soil microbial activity. The storyline culminates with students creating an infographic that is intended for educating the community about regenerative agricultural practices.
Our Patterns Chemistry development team of teacher leaders has been working hard …
Our Patterns Chemistry development team of teacher leaders has been working hard through the spring and summer of 2020 to develop distance learning versions of the Patterns Chemistry units. Between March and May they released the below Distance Learning versions of units 4, 5 and 6, as well as paper packets that can be printed for students who do not have access to technology at home. Below are the distance learning version of units 1 and unit 2. The distance learning units can be used in either a fully online or hybrid school model. A Distance Learning version of Unit 3 will be released by the end of September. For schools reopening fully in person, scroll down to see the original Patterns Chemistry unit plans.
This short activity provides a way to improve understanding of a frequently-published …
This short activity provides a way to improve understanding of a frequently-published diagram of global carbon pools and fluxes. Students create a scaled 3-D visual of carbon reservoirs and the movement of carbon between reservoirs.
In this activity, students investigate soil erosion and how a changing climate …
In this activity, students investigate soil erosion and how a changing climate could influence erosion rates in agricultural areas. This activity is part of a larger InTeGrate module called Growing Concern.
Climate has varied in the past, but today's climate change rate is …
Climate has varied in the past, but today's climate change rate is much more drastic due to human activity. Students explore past climate cycle graphs and compare the cycles with the current rate of change.
This activity introduces students to visualization capabilities available through NASA's Earth Observatory, …
This activity introduces students to visualization capabilities available through NASA's Earth Observatory, global map collection, NASA NEO and ImageJ. Using these tools, students build several animations of satellite data that illustrate carbon pathways through the Earth system.
This is a series of 5 guided-inquiry activities that examine data and …
This is a series of 5 guided-inquiry activities that examine data and models that climate scientists use to attempt to answer the question of Earth's future climate.
Students consider why the observed atmospheric CO2 increase rate is only ~60% …
Students consider why the observed atmospheric CO2 increase rate is only ~60% of the CO2 loading rate due to fossil fuel combustion. They develop a box-model to simulate the atmospheric CO2 increase during the industrial era and compare it to the historic observations of atmospheric CO2 concentrations. The model is then used to forecast future concentrations of atmospheric CO2 during the next century.
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