SC15.BIO.10
Construct an explanation and design a real-world solution to address changing conditions and ecological succession caused by density-dependent and/or density-independent factors.*
Construct an explanation and design a real-world solution to address changing conditions and ecological succession caused by density-dependent and/or density-independent factors.*
Unpacked Content
UP:SC15.BIO.10
Vocabulary
- Population density
- Dispersion
- Density-independent factor
- Density-dependent factor
- Population growth rate
- Limiting factor
- Ecological succession
- Primary succession
- Climax community
- Secondary succession
- Pioneer species
Knowledge
- Factors associated with population density are important regulators of population growth.
- Density-independent factors that can impact population growth (e.g., flood, drought, extreme heat or cold, tornadoes, etc.).
- Density-dependent factors that can impact population growth (e.g., predation, disease, parasites, competition).
- The different types of ecological succession and their causes. Primary succession is the development of a community in an area of exposed rock that does not have any topsoil (e.g., hardened lava flow).
- Secondary Succession is the change that takes place after a community of organisms have been removed but the topsoil remains intact (e.g., fire, flood, etc.).
- Engineering design principles.
Skills
- Collect and organize population growth data compiled on population growth under varying conditions related to food availability, rainfall, predation, migration, and disease.
- Analyze data to categorize factors, organize data and draw conclusions about a variety of limiting factors to classify each as density-dependent or independent.
- Identify a problem, assess the data, determine if enough information is provided to make an informed decision, assess whether a solution is needed, and recommend what form that solution should take.
- Apply engineering design principles to the development of a solution, identifying required inputs and expected outcomes and determine how the solution will be tested and refined.
Understanding
- Ecosystems are constantly changing.
- Changes in an ecosystem are the result of density-dependent or density-independent factors, sometimes including human activity.
- By using the engineering design process, solutions to ecological problems can be developed, tested and refined.