MARTONEN- ENVIRONMENTAL SCIENCE LESSON PLANS-9/28/15
MICHIGAN COURSE CONTENT STANDARDS ADDRESSED
MICHIGAN COURSE CONTENT STANDARDS ADDRESSED
- B1.1A Generate new questions that can be investigated in the laboratory or field
- B1.1B Evaluate the uncertainties or validity of scientific conclusions using an understanding of sources of measurement error, the challenges of controlling variables, accuracy of data analysis, logic of argument, logic of experimental design, and/or the dependence on underlying assumptions
- B1.1C Conduct scientific investigations using appropriate tools and techniques (e.g., selecting an instrument that measures the desired quantity with the appropriate level of precision)
- B1.1f Predict what would happen if the variables, methods, or timing of an investigation were changed
- B3.2A Identify how energy is stored in an ecosystem
- B3.2B Describe energy transfer through an ecosystem, accounting for energy lost to the environment as heat
- B3.2C Draw the flow of energy through an ecosystem. Predict changes in the food web when one or more organisms is removed
- B3.3A Use a food web to identify and distinguish producers, consumers, and decomposers and explain the transfer of energy through trophic levels
- B3.3b Describe environmental processes (e.g., the carbon and nitrogen cycles) and their role in processing matter crucial for sustaining life
- B3.4A Describe ecosystem stability. Understand that if a disaster such as flood or fire occurs, the damaged ecosystem is likely to recover in states of succession that eventually result in a system similar to the original one
- B3.4B Recognize and describe that a great diversity of species increases the chance that at least some living organisms will survive in the face of cataclysmic changes in the environment
- B1.2A Critique whether or not specific questions can be answered through scientific investigations
- B1.2C Develop an understanding of a scientific concept by accessing information from multiple sources. Evaluate the scientific accuracy and significance of the information.
- B1.2E Evaluate the future career and occupational prospects of science fields
- B1.2k Analyze how science and society interact from a historical, political, economic, or social perspective
- B1.2i Explain the progression of ideas and explanations that leads to science theories that are part of the current scientific consensus or core knowledge
- B1.2D Evaluate scientific explanations in a peer review process or discussion format
- B1.2B Identify and critique arguments about personal or societal issues based on scientific evidence
MONDAY-
1) Chrome books- Fumee water research with KHS water quality handbook
2) Fumee water quality lab report due- 10/5
3) Fume habitat calculations- % tree canopy species and size- 6 forms
TUESDAY-
1) Mobile computer lab- students will use MIWILD computer program to match their six actual habitat sites to a habitat in the program and print species lists.
2) Fumee Habitat Study- students will calculate % match, % omission, and % commission for results of MIWILD and actual habitat surveys.
3) Data- students will make sure that they all have same data for each of the six sites.
4) Add protists, duckweed, amphipods, and elodea to ecosystem jars.
WEDNESDAY-
1) Fumee Habitat Study- students will calculate % match, % omission, and % commission for results of MIWILD and actual habitat surveys.
2) Students will create tables in excel computer program to graph results of calculations.
3) Data- students will make sure that they all have same data for each of the six sites.
4) Fumee Lake water quality lab report due Thursday- 10/6
THURSDAY-
1) Fumee Plant Diversity Study- 8-11am- students will study the effects of animal browsing on plant diversity by performing plant diversity studies both inside and outside exclosure fences.
FRIDAY-
1) Ecosystem jars- addition of protists, plants, snails
2) Introduction to ecosystem jar project- booklet and lab report
3) Fumee water quality lab report due Monday
4) Ch3 review sheet assigned- due 10/3
5) Ch1 & 2 discussion
1) Chrome books- Fumee water research with KHS water quality handbook
2) Fumee water quality lab report due- 10/5
3) Fume habitat calculations- % tree canopy species and size- 6 forms
TUESDAY-
1) Mobile computer lab- students will use MIWILD computer program to match their six actual habitat sites to a habitat in the program and print species lists.
2) Fumee Habitat Study- students will calculate % match, % omission, and % commission for results of MIWILD and actual habitat surveys.
3) Data- students will make sure that they all have same data for each of the six sites.
4) Add protists, duckweed, amphipods, and elodea to ecosystem jars.
WEDNESDAY-
1) Fumee Habitat Study- students will calculate % match, % omission, and % commission for results of MIWILD and actual habitat surveys.
2) Students will create tables in excel computer program to graph results of calculations.
3) Data- students will make sure that they all have same data for each of the six sites.
4) Fumee Lake water quality lab report due Thursday- 10/6
THURSDAY-
1) Fumee Plant Diversity Study- 8-11am- students will study the effects of animal browsing on plant diversity by performing plant diversity studies both inside and outside exclosure fences.
FRIDAY-
1) Ecosystem jars- addition of protists, plants, snails
2) Introduction to ecosystem jar project- booklet and lab report
3) Fumee water quality lab report due Monday
4) Ch3 review sheet assigned- due 10/3
5) Ch1 & 2 discussion